The URL can be used to link to this page

Home My WebLink About20191202_Noise Study 2510 West Coast Highway Mixed-Use Development NOISE IMPACT ANALYSIS CITY OF NEWPORT BEACH PREPARED BY: Bill Lawson, PE, INCE blawson@urbanxroads.com (949) 336-5979 NOVEMBER 8, 2019 12954-03 Noise Study PA2019-249 2510 West Coast Highway Mixed-Use Development 12954-04 Noise Study ii PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study iii TABLE OF CONTENTS TABLE OF CONTENTS ........................................................................................................................... III APPENDICES ........................................................................................................................................ IV LIST OF EXHIBITS .................................................................................................................................. V LIST OF TABLES .................................................................................................................................... V LIST OF ABBREVIATED TERMS ............................................................................................................. VI EXECUTIVE SUMMARY ......................................................................................................................... 1 On-Site Traffic Noise Analysis .................................................................................................................. 1 Operational Noise Analysis ...................................................................................................................... 1 Construction Noise Analysis .................................................................................................................... 2 Construction Vibration Analysis .............................................................................................................. 2 Summary of CEQA Significance Findings ................................................................................................. 3 1 INTRODUCTION ........................................................................................................................... 5 1.1 Site Location .................................................................................................................................. 5 1.2 Project Description ........................................................................................................................ 5 2 FUNDAMENTALS ......................................................................................................................... 9 2.1 Range of Noise .............................................................................................................................. 9 2.2 Noise Descriptors ........................................................................................................................ 10 2.3 Sound Propagation ...................................................................................................................... 10 2.4 Noise Control .............................................................................................................................. 11 2.5 Noise Barrier Attenuation ........................................................................................................... 12 2.6 Land Use Compatibility With Noise ............................................................................................ 12 2.7 Community Response to Noise ................................................................................................... 12 2.8 Vibration ..................................................................................................................................... 13 3 REGULATORY SETTING .............................................................................................................. 15 3.1 State of California Noise Requirements ...................................................................................... 15 3.2 State of California Building Code ................................................................................................ 15 3.3 City of Newport Beach General Plan Noise Element .................................................................. 15 3.4 City of Newport Beach Stationary (Non-Transportation) Noise Standards ................................ 18 3.5 Construction Vibration Standards ............................................................................................... 20 4 SIGNIFICANCE CRITERIA ............................................................................................................ 21 4.1 Airport Noise ............................................................................................................................... 21 4.2 Significance Criteria for Construction Noise and Vibration ........................................................ 21 4.3 Significance Criteria for Operation .............................................................................................. 21 4.3 Significance Criteria Summary .................................................................................................... 22 5 EXISTING NOISE LEVEL MEASUREMENTS ................................................................................... 23 5.1 Measurement Procedure and Criteria ........................................................................................ 23 5.2 Noise Measurement Locations ................................................................................................... 23 5.3 Noise Measurement Results ....................................................................................................... 24 6 METHODS AND PROCEDURES.................................................................................................... 27 6.1 FHWA Traffic Noise Prediction Model ........................................................................................ 27 6.2 On-Site Traffic Noise Prediction Model Inputs ........................................................................... 27 PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study iv 7 ON-SITE NOISE IMPACTS FROM TRAFFIC ................................................................................... 29 7.1 Exterior Noise Analysis ................................................................................................................ 29 7.2 Interior Noise Analysis ................................................................................................................ 30 8 SENSITIVE RECEIVER LOCATIONS ............................................................................................... 31 9 OPERATIONAL NOISE IMPACTS TO NEARBY SENSITIVE RECEIVERS ............................................. 33 9.1 Operational Noise Sources .......................................................................................................... 33 9.2 Reference Operational Noise Levels ........................................................................................... 33 9.3 Project Operational Noise Levels ................................................................................................ 37 9.4 Project Operational Noise Level Compliance .............................................................................. 37 9.5 Project Operational Noise Level Contributions .......................................................................... 38 10 CONSTRUCTION NOISE IMPACTS ............................................................................................... 41 10.1 Construction Noise Sources ........................................................................................................ 41 10.2 Construction Reference Noise Levels ......................................................................................... 41 10.3 Construction Noise Levels ........................................................................................................... 44 10.4 Construction Noise Level Compliance ........................................................................................ 45 10.5 Construction Noise Abatement Measures .................................................................................. 46 10.6 Construction Vibration Impacts .................................................................................................. 47 11 REFERENCES .............................................................................................................................. 51 12 CERTIFICATION .......................................................................................................................... 53 APPENDICES APPENDIX 3.1: CITY OF NEWPORT BEACH MUNICIPAL CODE CHAPTER 10.26 APPENDIX 3.2: CITY OF NEWPORT BEACH MUNICIPAL CODE CHAPTER 10.28 APPENDIX 5.1: STUDY AREA PHOTOS APPENDIX 5.2: NOISE LEVEL MEASUREMENT WORKSHEETS APPENDIX 7.1: ON-SITE TRAFFIC NOISE LEVEL CALCULATIONS APPENDIX 9.1: OPERATIONAL NOISE LEVEL CALCULATIONS APPENDIX 10.1: CONSTRUCTION NOISE LEVEL CALCULATIONS PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study v LIST OF EXHIBITS EXHIBIT 1-A: LOCATION MAP .............................................................................................................. 6 EXHIBIT 1-B: SITE PLAN........................................................................................................................ 7 EXHIBIT 2-A: TYPICAL NOISE LEVELS .................................................................................................... 9 EXHIBIT 2-B: NOISE LEVEL INCREASE PERCEPTION ............................................................................. 13 EXHIBIT 2-C: TYPICAL LEVELS OF GROUND-BORNE VIBRATION .......................................................... 14 EXHIBIT 3-A: LAND USE NOISE COMPATIBILITY MATRIX .................................................................... 17 EXHIBIT 5-A: NOISE MEASUREMENT LOCATIONS ............................................................................... 26 EXHIBIT 8-A: RECEIVER LOCATIONS ................................................................................................... 32 EXHIBIT 9-A: OPERATIONAL NOISE SOURCE AND RECEIVER LOCATIONS ............................................ 36 EXHIBIT 10-A: CONSTRUCTION ACTIVITY AND RECEIVER LOCATIONS ................................................. 43 LIST OF TABLES TABLE ES-1: SUMMARY OF CEQA SIGNIFICANCE FINDINGS .................................................................. 3 TABLE 3-1: OPERATIONAL NOISE STANDARDS ................................................................................... 19 TABLE 3-2: CONSTRUCTION NOISE STANDARDS ................................................................................ 19 TABLE 3-3 CONSTRUCTION VIBRATION STANDARDS .......................................................................... 20 TABLE 4-2: SIGNIFICANCE CRITERIA SUMMARY MATRIX ..................................................................... 22 TABLE 5-1: 24-HOUR AMBIENT NOISE LEVEL MEASUREMENTS .......................................................... 25 TABLE 6-1: ON-SITE ROADWAY PARAMETERS ................................................................................... 28 TABLE 6-2: TIME OF DAY VEHICLE SPLITS ........................................................................................... 28 TABLE 6-3: DISTRIBUTION OF TRAFFIC FLOW BY VEHICLE TYPE (VEHICLE MIX) ................................... 28 TABLE 7-1: EXTERIOR TRAFFIC NOISE LEVELS ..................................................................................... 29 TABLE 7-2: INTERIOR NOISE LEVELS (CNEL) ......................................................................................... 30 TABLE 9-1: REFERENCE NOISE LEVEL MEASUREMENTS ...................................................................... 35 TABLE 9-2: PROJECT OPERATIONAL NOISE LEVELS ............................................................................. 37 TABLE 9-3: OPERATIONAL NOISE LEVEL COMPLIANCE ....................................................................... 38 TABLE 9-4: PROJECT DAYTIME NOISE LEVEL CONTRIBUTIONS ............................................................ 39 TABLE 9-5: PROJECT NIGHTTIME NOISE LEVEL CONTRIBUTIONS ........................................................ 39 TABLE 10-1: CONSTRUCTION REFERENCE NOISE LEVELS .................................................................... 42 TABLE 10-2: CONSTRUCTION ACTIVITY NOISE LEVELS ........................................................................ 45 TABLE 10-3: CONSTRUCTION EQUIPMENT NOISE LEVEL COMPLIANCE ............................................... 46 TABLE 10-4: VIBRATION SOURCE LEVELS FOR CONSTRUCTION EQUIPMENT ...................................... 48 TABLE 10-5: CONSTRUCTION EQUIPMENT VIBRATION LEVELS ........................................................... 49 PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study vi LIST OF ABBREVIATED TERMS (1) Reference ADT Average Daily Traffic ANSI American National Standards Institute Calveno California Vehicle Noise CEQA California Environmental Quality Act CNEL Community Noise Equivalent Level dBA A-weighted decibels FHWA Federal Highway Administration FTA Federal Transit Administration INCE Institute of Noise Control Engineering Leq Equivalent continuous (average) sound level Lmax Maximum level measured over the time interval Lmin Minimum level measured over the time interval mph Miles per hour PPV Peak Particle Velocity Project Noise Study REMEL Reference Energy Mean Emission Level RMS Root-mean-square VdB Vibration Decibels PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 1 EXECUTIVE SUMMARY Urban Crossroads, Inc. has prepared this noise study to determine the noise exposure and the necessary noise mitigation measures for the proposed Noise Study (“Project”). The Project site is in the mariner’s mile near the intersection of West Coast Highway and Tustin Avenue in the City of Newport Beach. The Project is proposed to consist of a mix of residential, boutique automotive showroom, café, and medical office use. To describe the worst-case noise conditions, this analysis includes the additional medical office use requiring the subterranean parking garage. The operational and construction noise impacts described in this study are expected to be reduced if the medical office component and associated subterranean parking garage were to be eliminated. This study has been prepared consistent with applicable City of Newport Beach noise standards, and significance criteria based on guidance provided by Appendix G of the California Environmental Quality Act (CEQA) Guidelines. (1) ON-SITE TRAFFIC NOISE ANALYSIS The primary source of traffic noise affecting the Project site is anticipated to be from West Coast Highway and Tustin Avenue. The Project will also experience some background traffic noise impacts from nearby drive aisles and parking lots, however, due to the low traffic volumes, distance and intervening structures these are not anticipated to make a significant contribution to the exterior noise levels at the Project site. The analysis shows that the future on-site exterior traffic noise levels are expected to approach 71.8 dBA CNEL at the first floor Auto Showroom and 71.7 dBA CNEL at the second floor Medical Office building façade facing West Coast Highway. A review of the Project elevations show that the second residential dwelling units are largely blocked from West Coast Highway by the Medical Office space. However, the third-floor residential dwelling units will be exposed to the traffic noise from West Coast Highway. The analysis shows that the future on-site exterior traffic noise levels for the noise sensitive residential dwelling units are expected to approach 64.0 dBA CNEL at third floor building façade, which satisfies the 65 dBA CNEL exterior noise compatibility criteria of the City of Newport Beach General Plan Noise Element for residential mixed use. Therefore, future exterior traffic noise impacts will be less than significant. OPERATIONAL NOISE ANALYSIS Using reference noise levels to represent the expected noise sources from the Noise Study site, this analysis estimates the Project-related stationary-source noise levels at nearby sensitive receiver locations. The normal activities associated with the proposed Noise Study are anticipated to include roof-top air conditioning units, parking lot vehicle movements, and trash enclosures. The closest sensitive receptor to the project site is an existing outdoor play area for the nearby Bright Horizons daycare facility located approximately 25 feet east of the site. The operational noise analysis shows that the Project-related stationary-source noise levels will not exceed the City’s exterior noise level standards of 55 dBA Leq during the daytime hours and 50 PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 2 dBA Leq during the nighttime hours at any nearby receiver locations, including the outdoor play area 25 feet from the site. Further, this analysis demonstrates that the Project will contribute a less than significant long- term unmitigated operational noise level impact to the existing ambient noise environment at the noise-sensitive receiver locations. Therefore, the operational noise level impacts associated with the proposed Project activities, such as the roof-top air conditioning units, parking lot vehicle movements, and trash enclosures, are considered less than significant. CONSTRUCTION NOISE ANALYSIS According to the City of Newport Beach Municipal Code Section 10.28.040, construction activities are considered exempt from the noise standards of the noise ordinance if limited to the hours of 7:00 a.m. to 6:30 p.m. on Mondays to Fridays, and 8:00 a.m. to 6:00 p.m. on Saturdays, with no activity allowed on Sundays or national holidays. (2) Therefore, if construction activities occur within the permitted hours of the Municipal Code, Project construction noise levels are considered exempt from the noise ordinance standards. Since the City of Newport Beach General Plan and Municipal Code do not identify a specific construction noise level threshold, a threshold of 85 dBA Leq based on the National Institute for Occupational Safety and Health (NIOSH) is used to analyze construction noise impacts. With incorporation of a 16-foot high screening wall during construction, Project-related construction noise levels at nearby receiver locations, would range from 48 to 59 dBA Leq. Therefore, sensitive receptors will not be exposed to construction noise levels in excess of 85 dBA Leq. Therefore, based on the results of this analysis, all nearby sensitive receiver locations will experience less than significant impacts due to Project construction noise levels. These less than significant findings are consistent with the 2006 General Plan Environmental Impact Report (EIR) (3): CONSTRUCTION VIBRATION ANALYSIS Construction activity can result in varying degrees of ground vibration, depending on the equipment and methods used, distance to the affected structures and soil type. It is expected that ground-borne vibration from Project construction activities would cause only intermittent, localized intrusion. The analysis shows the highest construction vibration levels are expected to approach 73.8 VdB at residential uses and buildings where people normally sleep, the closest of which is 69 feet from the site. Although they are intended to primarily apply to residential uses, the FTA guidelines are applied to all sensitive receptor locations in this report for a conservative analysis of vibration impacts. The City does not have an established threshold for vibration; therefore, the Federal Transit Administration’s (“FTA”) threshold of 80 VdB is used in this report to determine whether vibration would impact nearby sensitive receptors. The highest vibration levels of 73.8 VdB at the nearest residential sensitive receptor would be less than the FTA’s guideline threshold of 80 VdB and as such, would result in less than significant impacts. Further, the vibration levels at the closest sensitive receivers are unlikely to be sustained during the entire construction period but will occur rather only during the times that heavy construction equipment is operating adjacent to the Project site perimeter. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 3 SUMMARY OF CEQA SIGNIFICANCE FINDINGS The results of this Noise Study Noise Impact Analysis are summarized below based on the significance criteria in Section 4 of this report and consistent with Appendix G of the California Environmental Quality Act (CEQA) Guidelines. (1). Table ES-1 shows the findings of significance for each potential noise and/or vibration impact under CEQA. TABLE ES-1: SUMMARY OF CEQA SIGNIFICANCE FINDINGS Analysis Report Section Significance Findings On-Site Traffic Noise Levels 7 Less Than Significant Operational Noise Levels 9 Less Than Significant Construction Noise Levels 10 Less Than Significant Construction Vibration Levels Less Than Significant PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 4 This page intentionally left blank PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 5 1 INTRODUCTION This noise analysis has been completed to determine the noise impacts associated with the development of the proposed Noise Study (“Project”). This noise study briefly describes the proposed Project, provides information regarding noise fundamentals, describes the local regulatory setting, provides the study methods and procedures for an analysis of the potential Project-related long-term operational noise and short-term construction noise and vibration impacts. 1.1 SITE LOCATION The Project site is in the mariner’s mile near the intersection of West Coast Highway and Tustin Avenue in the City of Newport Beach, as shown on Exhibit 1-A. 1.2 PROJECT DESCRIPTION The Project is proposed to consist of a mix of residential, boutique automotive showroom, café, and medical office use as shown on Exhibit 1-B. The Project will be developed on four levels as described below: Level 0: Below Grade Parking for 93 vehicles Level 1: Boutique Auto Showroom with 7,500 gross square feet of use and a Café with 1,700 gross square feet of use. Level 2: Multi-family residential with 16 units, medical office with 12,000 gross square feet of use. Level 3: Multi-family residential with 16 units. The combined mixed-use project will provide a total of 36 multi-family residential dwelling units with 21,200 gross square feet of non-residential uses (boutique auto showroom, café and medical office). PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 6 EXHIBIT 1-A: LOCATION MAP PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 7 EXHIBIT 1-B: SITE PLAN PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 8 This page intentionally left blank PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 9 2 FUNDAMENTALS Noise has been simply defined as "unwanted sound." Sound becomes unwanted when it interferes with normal activities, when it causes actual physical harm or when it has adverse effects on health. Noise is measured on a logarithmic scale of sound pressure level known as a decibel (dB). A-weighted decibels (dBA) approximate the subjective response of the human ear to broad frequency noise source by discriminating against very low and very high frequencies of the audible spectrum. They are adjusted to reflect only those frequencies which are audible to the human ear. Exhibit 2-A presents a summary of the typical noise levels and their subjective loudness and effects that are described in more detail below. EXHIBIT 2-A: TYPICAL NOISE LEVELS 2.1 RANGE OF NOISE Since the range of intensities that the human ear can detect is so large, the scale frequently used to measure intensity is a scale based on multiples of 10, the logarithmic scale. The scale for measuring intensity is the decibel scale. Each interval of 10 decibels indicates a sound energy ten times greater than before, which is perceived by the human ear as being roughly twice as loud. (4) The most common sounds vary between 40 dBA (very quiet) to 100 dBA (very loud). Normal conversation at three feet is roughly at 60 dBA, while loud jet engine noises equate to 110 dBA at approximately 100 feet, which can cause serious discomfort. (5) Another important aspect of noise is the duration of the sound and the way it is described and distributed in time. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 10 2.2 NOISE DESCRIPTORS Environmental noise descriptors are generally based on averages, rather than instantaneous, noise levels. The most commonly used figure is the equivalent level (Leq). Equivalent sound levels are not measured directly but are calculated from sound pressure levels typically measured in A- weighted decibels (dBA). The equivalent sound level (Leq) represents a steady state sound level containing the same total energy as a time varying signal over a given sample period and is commonly used to describe the “average” noise levels within the environment. To describe the time-varying character of environmental noise, the statistical or percentile noise descriptors L50, L25, L8 and L2, are commonly used. The percentile noise descriptors are the noise levels equaled or exceeded during 50 percent, 25 percent, 8 percent and 2 percent of a stated time. Sound levels associated with the L2 and L8 typically describe transient or short-term events, while levels associated with the L50 describe the steady state (or median) noise conditions. The City of Newport Beach relies on the percentile noise levels to describe the stationary source noise level limits. While the L50 describes the noise levels occurring 50 percent of the time, the Leq accounts for the total energy (average) observed for the entire hour. Therefore, the Leq noise descriptor is generally 1-2 dBA higher than the L50 noise level. Peak hour or average noise levels, while useful, do not completely describe a given noise environment. Noise levels lower than peak hour may be disturbing if they occur during times when quiet is most desirable, namely evening and nighttime (sleeping) hours. To account for this, the Community Noise Equivalent Level (CNEL), representing a composite 24-hour noise level is utilized. The CNEL is the weighted average of the intensity of a sound, with corrections for time of day, and averaged over 24 hours. The time of day corrections require the addition of 5 decibels to dBA Leq sound levels in the evening from 7:00 p.m. to 10:00 p.m., and the addition of 10 decibels to dBA Leq sound levels at night between 10:00 p.m. and 7:00 a.m. These additions are made to account for the noise sensitive time periods during the evening and night hours when sound appears louder. CNEL does not represent the actual sound level heard at any time, but rather represents the total sound exposure. The City of Newport Beach relies on the 24-hour CNEL level to assess land use compatibility with transportation related noise sources. 2.3 SOUND PROPAGATION When sound propagates over a distance, it changes in level and frequency content. The way noise reduces with distance depends on the following factors. 2.3.1 GEOMETRIC SPREADING Sound from a localized source (i.e., a stationary point source) propagates uniformly outward in a spherical pattern. The sound level attenuates (or decreases) at a rate of 6 dB for each doubling of distance from a point source. Highways consist of several localized noise sources on a defined path and hence can be treated as a line source, which approximates the effect of several point sources. Noise from a line source propagates outward in a cylindrical pattern, often referred to as cylindrical spreading. Sound levels attenuate at a rate of 3 dB for each doubling of distance from a line source. (4) PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 11 2.3.2 GROUND ABSORPTION The propagation path of noise from a highway to a receiver is usually very close to the ground. Noise attenuation from ground absorption and reflective wave canceling adds to the attenuation associated with geometric spreading. Traditionally, the excess attenuation has also been expressed in terms of attenuation per doubling of distance. This approximation is usually sufficiently accurate for distances of less than 200 ft. For acoustically hard sites (i.e., sites with a reflective surface between the source and the receiver, such as a parking lot or body of water), no excess ground attenuation is assumed. For acoustically absorptive or soft sites (i.e., those sites with an absorptive ground surface between the source and the receiver such as soft dirt, grass, or scattered bushes and trees), an excess ground attenuation value of 1.5 dB per doubling of distance is normally assumed. When added to the cylindrical spreading, the excess ground attenuation results in an overall drop-off rate of 4.5 dB per doubling of distance from a line source. (6) 2.3.3 ATMOSPHERIC EFFECTS Receivers located downwind from a source can be exposed to increased noise levels relative to calm conditions, whereas locations upwind can have lowered noise levels. Sound levels can be increased at large distances (e.g., more than 500 feet) due to atmospheric temperature inversion (i.e., increasing temperature with elevation). Other factors such as air temperature, humidity, and turbulence can also have significant effects. (4) 2.3.4 SHIELDING A large object or barrier in the path between a noise source and a receiver can substantially attenuate noise levels at the receiver. The amount of attenuation provided by shielding depends on the size of the object and the frequency content of the noise source. Shielding by trees and other such vegetation typically only has an “out of sight, out of mind” effect. That is, the perception of noise impact tends to decrease when vegetation blocks the line-of-sight to nearby residents. However, for vegetation to provide a substantial, or even noticeable, noise reduction, the vegetation area must be at least 15 feet in height, 100 feet wide and dense enough to completely obstruct the line-of sight between the source and the receiver. This size of vegetation may provide up to 5 dBA of noise reduction. The FHWA does not consider the planting of vegetation to be a noise abatement measure. (6) 2.4 NOISE CONTROL Noise control is the process of obtaining an acceptable noise environment for an observation point or receiver by controlling the noise source, transmission path, receiver, or all three. This concept is known as the source-path-receiver concept. In general, noise control measures can be applied to these three elements. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 12 2.5 NOISE BARRIER ATTENUATION Effective noise barriers can reduce noise levels by up to 10 to 15 dBA, cutting the loudness of traffic noise in half. A noise barrier is most effective when placed close to the noise source or receiver. Noise barriers, however, do have limitations. For a noise barrier to work, it must be high enough and long enough to block the path of the noise source. (6) 2.6 LAND USE COMPATIBILITY WITH NOISE Some land uses are more tolerant of noise than others. For example, schools, hospitals, churches, and residences are more sensitive to noise intrusion than are commercial or industrial developments and related activities. As ambient noise levels affect the perceived amenity or livability of a development, so too can the mismanagement of noise impacts impair the economic health and growth potential of a community by reducing the area’s desirability as a place to live, shop and work. For this reason, land use compatibility with the noise environment is an important consideration in the planning and design process. The FHWA encourages State and Local government to regulate land development in such a way that developments are planned, designed, and constructed in such a way that noise impacts to sensitive land uses are minimized. (7) 2.7 COMMUNITY RESPONSE TO NOISE Community responses to noise may range from registering a complaint by telephone or letter, to initiating court action, depending upon everyone’s susceptibility to noise and personal attitudes about noise. Several factors are related to the level of community annoyance including: • Fear associated with noise producing activities; • Socio-economic status and educational level; • Perception that those affected are being unfairly treated; • Attitudes regarding the usefulness of the noise-producing activity; • Belief that the noise source can be controlled. Approximately ten percent of the population has a very low tolerance for noise and will object to any noise not of their making. Consequently, even in the quietest environment, some complaints will occur. Another twenty-five percent of the population will not complain even in very severe noise environments. Thus, a variety of reactions can be expected from people exposed to any given noise environment. (8) Surveys have shown that about ten percent of the people exposed to traffic noise of 60 dBA will report being highly annoyed with the noise, and each increase of one dBA is associated with approximately two percent more people being highly annoyed. When traffic noise exceeds 60 dBA or aircraft noise exceeds 55 dBA, people may begin to complain. (8) Despite this variability in behavior on an individual level, the population can generally be expected to exhibit the following responses to changes in noise levels as shown on Exhibit 2-B. A change of 3 dBA are considered barely perceptible, and changes of 5 dBA are considered readily perceptible. (6) PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 13 EXHIBIT 2-B: NOISE LEVEL INCREASE PERCEPTION 2.8 VIBRATION Per the Federal Transit Administration (FTA) Transit Noise Impact and Vibration Assessment (9), vibration is the periodic oscillation of a medium or object. The rumbling sound caused by the vibration of room surfaces is called structure-borne noise. Sources of ground-borne vibrations include natural phenomena (e.g., earthquakes, volcanic eruptions, sea waves, landslides) or human-made causes (e.g., explosions, machinery, traffic, trains, construction equipment). Vibration sources may be continuous, such as factory machinery, or transient, such as explosions. As is the case with airborne sound, ground-borne vibrations may be described by amplitude and frequency. There are several different methods that are used to quantify vibration. The peak particle velocity (PPV) is defined as the maximum instantaneous peak of the vibration signal. The PPV is most frequently used to describe vibration impacts to buildings but is not always suitable for evaluating human response (annoyance) because it takes some time for the human body to respond to vibration signals. Instead, the human body responds to average vibration amplitude often described as the root mean square (RMS). The RMS amplitude is defined as the average of the squared amplitude of the signal and is most frequently used to describe the effect of vibration on the human body. Decibel notation (VdB) is commonly used to measure RMS. Decibel notation (VdB) serves to reduce the range of numbers used to describe human response to vibration. Typically, ground-borne vibration generated by man-made activities attenuates rapidly with distance from the source of the vibration. Sensitive receivers for vibration include structures (especially older masonry structures), people (especially residents, children, the elderly, and sick), vibration-sensitive equipment and/or activities. The background vibration-velocity level in residential areas is generally 50 VdB. Ground-borne vibration is normally perceptible to humans at approximately 65 VdB. For most people, a vibration-velocity level of 75 VdB is the approximate dividing line between barely perceptible and distinctly perceptible levels. Typical outdoor sources of perceptible ground-borne vibration are construction equipment, steel-wheeled trains, and traffic on rough roads. If a roadway is smooth, the ground-borne vibration is rarely perceptible. The range of interest is from approximately 50 VdB, which is the typical background vibration-velocity level, to 100 VdB, which is the general threshold where minor damage can occur in fragile buildings. Exhibit 2-C illustrates common vibration sources and the human and structural response to ground-borne vibration. 0 1 2 3 4 5 6 7 8 9 10 Just Perceptible Barely Perceptible Readily Perceptible Twice as Loud Noise Level Increase (dBA) PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 14 EXHIBIT 2-C: TYPICAL LEVELS OF GROUND-BORNE VIBRATION Source: Federal Transit Administration (FTA) Transit Noise Impact and Vibration Assessment. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 15 3 REGULATORY SETTING To limit population exposure to physically and/or psychologically damaging as well as intrusive noise levels, the federal government, the State of California, various City governments, and most municipalities in the state have established standards and ordinances to control noise. In most areas, automobile and truck traffic is the major source of environmental noise. Traffic activity generally produces an average sound level that remains constant with time. Air and rail traffic, and commercial and industrial activities are also major sources of noise in some areas. Federal, state, and local agencies regulate different aspects of environmental noise. Federal and state agencies generally set noise standards for mobile sources such as aircraft and motor vehicles, while regulation of stationary sources is generally established by local agencies. 3.1 STATE OF CALIFORNIA NOISE REQUIREMENTS The State of California regulates freeway noise, sets standards for sound transmission, provides occupational noise control criteria, identifies noise standards, and provides guidance for local land use compatibility. State law requires that each City and County adopt a General Plan that includes a Noise Element which is to be prepared per guidelines adopted by the Governor’s Office of Planning and Research (OPR). (10) The purpose of the Noise Element is to limit the exposure of the community to excessive noise levels. In addition, the California Environmental Quality Act (CEQA) requires that all known environmental effects of a project be analyzed, including environmental noise impacts. 3.2 STATE OF CALIFORNIA BUILDING CODE The State of California’s noise insulation standards are codified in the California Code of Regulations, Title 24, Building Standards Administrative Code, Part 2, and the California Building Code. These noise standards are applied to new construction in California for the purpose of controlling interior noise levels resulting from exterior noise sources. The regulations specify that acoustical studies must be prepared when noise-sensitive structures, such as residential buildings, schools, or hospitals, are developed near major transportation noise sources, and where such noise sources create an exterior noise level of 60 dBA CNEL or higher. Acoustical studies that accompany building plans for noise-sensitive land uses must demonstrate that the structure has been designed to limit interior noise in habitable rooms to acceptable noise levels. For new residential buildings, schools, and hospitals, the acceptable interior noise limit for new construction is 45 dBA CNEL. 3.3 CITY OF NEWPORT BEACH GENERAL PLAN NOISE ELEMENT The City of Newport Beach has adopted a Noise Element of the General Plan to control noise in the planning process in order to maintain compatible land use with environmental noise levels and to ensure that Newport Beach residents will be protected from excessive noise intrusion. (11) PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 16 3.3.1 NOISE POLICIES To protect City of Newport Beach residents from excessive noise, the Noise Element contains the following policies related to the Project: N 1.1 Noise Compatibility of New Development: Require that all proposed projects are compatible with the noise environment through use of Table N2 and enforce the interior and exterior noise standards shown in Table N3. N 1.6 Mixed-Use Developments: Encourage new mixed-use developments to site loading areas, parking lots, driveways, trash enclosures, mechanical equipment, and other noise sources away from the residential portion of the development. N 1.8 Significant Noise Impacts: Require the employment of noise mitigation measures for existing sensitive uses when a significant noise impact is identified. A significant noise impact occurs when there is an increase in the ambient CNEL produced by new development impacting existing sensitive uses. The CNEL increase is shown in the table below. CNEL (dBA) dBA increase 55 3 60 2 65 1 70 1 Over 75 Any increase is considered significant N 2.1 New Development: Require that proposed noise-sensitive uses in areas of 60 dBA and greater, as determined the analyses stipulated by Policy N1.1, demonstrate that they meet interior and exterior noise levels. N 2.2 Design of Sensitive Land Uses: Require the use of walls, berms, interior noise insulation, double paned windows, or other noise mitigation measures, as appropriate, in the design of new residential or other new noise sensitive land uses that are adjacent to major roads. Application of the Noise Standards in Table N3 shall govern this requirement. N 4.1 Stationary Noise Sources: Enforce interior and exterior noise standards outlined in Table N3, and in the City’s Municipal Code to ensure that sensitive noise receptors are not exposed to excessive noise levels from stationary noise sources, such as heating, ventilation, and air conditioning equipment. N 4.3 New Commercial Developments: Require that new commercial developments abutting residentially designated properties be designed to minimize noise impacts generated by loading areas, parking lots, trash enclosures, mechanical equipment, and any other noise generating features specific to the development to the extent feasible. N 4.6 Maintenance or Construction Activities: Enforce the Noise Ordinance noise limits and limits on hours of maintenance or construction activity in or adjacent to residential areas, including noise that results from in-home hobby or work-related activities. N 5.1 Limiting Hours of Activity: Enforce the limits on hours of construction activity. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 17 3.3.2 LAND USE COMPATIBILITY The noise criteria identified in the City of Newport Beach Noise Element (Table N2) are guidelines to evaluate the land use compatibility of transportation related noise. The compatibility criteria, shown on Exhibit 3-A, provides the City with a planning tool to gauge the compatibility of land uses relative to existing and future exterior noise levels and prevent noise/land use conflicts. The Land Use Noise Compatibility Matrix in the City of Newport Beach General Plan provides guidelines to evaluate the acceptability of transportation-related noise level impacts. EXHIBIT 3-A: LAND USE NOISE COMPATIBILITY MATRIX PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 18 The Project’s residential (mixed use), are considered clearly compatible with exterior noise levels below 65 dBA CNEL. A review of the existing ambient noise level measurements included in Section 5 of this report shows that the Project site is clearly compatible for residential mixed-use. For the planned non-residential Auto Showroom and Medical Office uses, exterior noise levels up to 65 dBA CNEL are considered by the City to be clearly compatible and exterior noise levels approaching 75 dBA CNEL are considered by the City to be normally compatible. For normally compatible uses, new construction or development should be undertaken only after detailed analysis of the noise reduction requirements are made and needed noise insulation feature in the design are determined. Conventional construction, with closed windows and fresh air supply systems or air conditioning, will normally suffice. 3.4 CITY OF NEWPORT BEACH STATIONARY (NON-TRANSPORTATION) NOISE STANDARDS In addition to the noise/land use compatibility guidelines contained in the General Plan Noise Element, the City of Newport Beach has adopted Community Noise Control policies and standards as part of its Municipal Code in order to limit unnecessary, excessive and annoying noise in the City. To analyze noise impacts originating from a designated fixed location or private property such as the Noise Study Project, stationary-source noise such as the expected roof-top air conditioning units, parking lot vehicle movements, and trash enclosures and noise from construction activities are typically evaluated against standards established under the City’s Municipal Code. 3.4.1 OPERATIONAL NOISE STANDARDS The City of Newport Beach Municipal Code, Chapter 10.26 Community Noise Control, establishes the permissible exterior noise levels that may intrude into a neighboring property. According to Section 10.26.025(A) exterior noise levels at single-family residential land uses (Noise Zone 1) shall not exceed 55 dBA Leq during the daytime hours (7:00 a.m. to 10:00 p.m.) and 50 dBA Leq during the nighttime hours (10:00 p.m. to 7:00 a.m.). (12) For commercial uses, exterior noise levels shall not exceed 65 dBA Leq during the daytime hours (7:00 a.m. to 10:00 p.m.) and 60 dBA Leq during the nighttime hours (10:00 p.m. to 7:00 a.m.). According to Section 10.26.025(C), in the event the ambient noise level exceeds the noise standard, the maximum allowable noise level under said category shall be increased to reflect he maximum ambi ent noise level. The City of Newport Beach Municipal Code, Chapter10.26 Community Noise Control exterior noise level standards are shown on Table 3-1 and are included in Appendix 3.1. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 19 TABLE 3-1: OPERATIONAL NOISE STANDARDS City Land Use Time Period Base Exterior Noise Level Standards (dBA Leq)2 Newport Beach1 Residential (Noise Zone I) Daytime 55 Nighttime 50 Commercial (Noise Zone II) Daytime 65 Nighttime 60 1 Source: City of Newport Beach Municipal Code, Section 10.26.025 (Appendix 3.1). 2 Base exterior noise level standards. If the ambient level exceeds allowable exterior Leq noise level, the ambient shall be the standard per Section 10.26.025 (C) of the City of Newport Beach Municipal Code. "Daytime" = 7:00 a.m. to 10:00 p.m.; "Nighttime" = 10:00 p.m. to 7:00 a.m. 3.4.2 CONSTRUCTION NOISE STANDARDS The City of Newport Beach has set restrictions to control noise impacts associated with the construction of the proposed Project. According to the City of Newport Beach Municipal Code Section 10.28.040 (included in Appendix 3.2), construction activities are considered exempt from the noise standards of the noise ordinance if limited to the hours of 7:00 a.m. to 6:30 p.m. on Mondays to Fridays, and 8:00 a.m. to 6:00 p.m. on Saturdays, with no activity allowed on Sundays or national holidays. (2) Therefore, if construction activities occur within the permitted hours of the Municipal Code, Project construction noise levels are considered exempt from the noise ordinance standards. Table 3-2 shows the construction noise standards of the City of Newport Beach Municipal Code. TABLE 3-2: CONSTRUCTION NOISE STANDARDS City Permitted Hours of Construction Activity Newport Beach1 7:00 a.m. to 6:30 p.m. Mondays to Fridays; 8:00 a.m. to 6:00 p.m. on Saturdays; no activity on Sundays or national holidays 1 Source: City of Newport Beach Municipal Code, Section 10.28.040 (Appendix 3.1). 3.4.3 OCCUPATIONAL SAFETY AND HEALTH ADMINISTRATION CONSTRUCTION NOISE STANDARDS The National Institute for Occupational Safety and Health (NIOSH) provides noise standards to evaluate required hearing protection for employees that may be exposed to high noise levels. However, the standards are a useful metric for analyzing the significance of construction noise and are therefore used in this report to determine whether construction impacts would impact nearby sensitive receptors. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 20 NIOSH identifies 85 dBA Leq as an acceptable noise exposure level over an 8-hour period. (13) Since the NIOSH construction-related noise level represents the energy average of the noise source over a given time period, they are expressed as Leq noise levels. 3.5 CONSTRUCTION VIBRATION STANDARDS Construction activity can result in varying degrees of ground-borne vibration, depending on the equipment and methods used, distance to the affected structures and soil type. (9) Construction vibration is generally associated with pile driving and rock blasting. Other construction equipment such as air compressors, light trucks, hydraulic loaders, etc., generates little or no ground vibration. (9) Occasionally large bulldozers and loaded trucks can cause perceptible vibration levels at close proximity. The City of Newport Beach has not identified or adopted vibration standards. However, the 2006 General Plan Environmental Impact Report (EIR) (3) identified a limit of 72 VdB for frequent events (more than 70 vibrations events per day) at residential uses and buildings where people normally sleep. (9) For infrequent events with fewer than 70 vibration events per day, the vibration limit is 80 VdB. These limits were derived from the FTA guidelines (9) for determining the relative significance of potential Project vibration impacts due to on-site construction activities as shown on Table 3-3. TABLE 3-3 CONSTRUCTION VIBRATION STANDARDS Vibration Criteria Vibration Decibels (VdB) at 25 feet1 2006 GP EIR - Human Annoyance (Residential)1 72 FTA - Human Annoyance (Residential Daytime)2 78 FTA - Human Annoyance (Residential Nighttime)2 72 FTA - Human Annoyance (Office)2 84 1 City of Newport Beach General Plan EIR 2 Federal Transit Administration, Transit Noise and Vibration Impact Assessment, September 2018. It should be noted that the EIR conservatively identified a residential-nighttime threshold of 72 VdB for all circumstances of vibrational energy; including for construction activities which would almost never be expected to occur during the nighttime period (10pm to 7am). The FTA has established vibration criteria of 72 VbB for Residential-Nighttime land use, when no construction activities would be allowed per City of Newport Beach Code Section 10.28.040. The FTA criteria for Residential-Daytime land use is 78 VdB, which would be more applicable to the daytime construction activities. Based on the FTA interpretation for Residential-Daytime use, at 78 VdB Vibration is barely felt. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 21 4 SIGNIFICANCE CRITERIA The following significance criteria are based on currently adopted guidance provided by Appendix G of the California Environmental Quality Act (CEQA) Guidelines. (1) For the purposes of this report, impacts would be potentially significant if the Project results in or causes: A. Generation of a substantial temporary or permanent increase in ambient noise levels in the vicinity of the project in excess of standards established in the local general plan or noise ordinance, or applicable standards of other agencies? B. Generation of excessive ground-borne vibration or ground-borne noise levels? C. For a project located within the vicinity of a private airstrip or an airport land use plan or, where such a plan has not been adopted, within two miles of a public airport or public use airport, would the project expose people residing or working in the project area to excessive noise levels? While the City of Newport Beach General Plan Guidelines provide direction on noise compatibility and establish noise standards by land use type that are sufficient to assess the significance of noise impacts, they do not define the levels at which increases are considered substantial for use under Guideline A. CEQA Appendix G Guideline C applies to nearby public and private airport s, if any, and the Project’s land use compatibility. 4.1 AIRPORT NOISE The Project site is located roughly 14 miles southeast of John Wayne Airport. Therefore, the Project site is not located within two miles of a public airport or the vicinity of a private airstrip, and as such, no impact related to the exposure of people residing or working in the Project area to excessive airport related noise levels is anticipated. 4.2 SIGNIFICANCE CRITERIA FOR CONSTRUCTION NOISE AND VIBRATION The Project’s construction noise and vibration impacts are significant if: • If Project-related construction activities create noise levels which exceed 85 dBA Leq at nearby sensitive receiver locations (NIOSH, Criteria for Recommended Standard: Occupational Noise Exposure). • If short-term Project generated construction vibration levels exceed the FTA’s vibration threshold of 78 VdB at residential daytime use. (9) 4.3 SIGNIFICANCE CRITERIA FOR OPERATION The Project’s operational noise impacts are significant if: • If Project-related operational (stationary-source) noise levels exceed the exterior noise level standards at the land uses identified in Table 3-1 (City of Newport Beach Municipal Code, Section 10.26.025); ), or exceed the City’s exterior noise level standards in Table 3-1 at the nearby daycare use; PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 22 • If the existing ambient noise levels at the noise-sensitive receivers near the Project site: o are less than 55 dBA CNEL and the Project creates a barely perceptible 3 dBA CNEL or greater Project-related noise level increase; or o range from 55 to 60 dBA CNEL and the Project creates a 2 dBA CNEL or greater Project- related noise level increase; or o range from 60 to 75 dBA CNEL and the Project creates a 1 dBA CNEL or greater Project- related noise level increase; or o already exceed 75 dBA CNEL, and the Project create any noise level increase. 4.3 SIGNIFICANCE CRITERIA SUMMARY Noise impacts shall be considered significant if any of the following occur as a direct result of the proposed development. Table 4-2 shows the significance criteria summary matrix. TABLE 4-2: SIGNIFICANCE CRITERIA SUMMARY MATRIX Analysis Receiving Land Use Condition(s) Significance Criteria Daytime Nighttime On-Site Traffic Noise1 Exterior Noise Compatibility Criteria 65 dBA CNEL Interior Noise Level Standard 45 dBA CNEL Operational Noise Multiple2 Exterior Noise Level Standards See Table 3-1. Noise- Sensitive3 If ambient is < 55 dBA CNEL ≥ 3 dBA CNEL Project Increase If ambient is 55 - 60 dBA CNEL ≥ 2 dBA CNEL Project Increase If ambient is 60 - 75 dBA CNEL ≥ 1 dBA CNEL Project Increase If ambient is > 75 dBA CNEL Any Project Increase Construction All4 Noise Level Threshold 85 dBA Leq n/a Residential5 Vibration Level Threshold 78 VdB n/a 1 City of Newport Beach General Plan Noise Element Land Use Noise Compatibility Matrix (Table N2). 2 City of Newport Beach Municipal Code, Section 10.26.025 (Appendix 3.1). 3 City of Newport Beach General Plan Policy N 1.8 4 NIOSH, Criteria for Recommended Standard: Occupational Noise Exposure and Federal Transit Administration, Transit Noise and Vibration Impact Assessment. 5 Source: Federal Transit Administration, Transit Noise and Vibration Impact Assessment, September 2018 "Daytime" = 7:00 a.m. to 10:00 p.m.; "Nighttime" = 10:00 p.m. to 7:00 a.m.; "n/a" = No nighttime construction activity is permitted, so no nighttime construction noise level limits are identified; "VdB" = Vibration Decibels PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 23 5 EXISTING NOISE LEVEL MEASUREMENTS To assess the existing noise level environment, five 24-hour noise level measurements were taken at sensitive receiver locations in the Project study area on Wednesday, October 2, 2019. The receiver locations were selected to describe and document the existing noise environment within the Project study area. Exhibit 5-A provides the boundaries of the Project study area and the noise level measurement locations. Appendix 5.1 includes study area photos. 5.1 MEASUREMENT PROCEDURE AND CRITERIA To describe the existing noise environment, the hourly noise levels were measured during typical weekday conditions over a 24-hour period. By collecting individual hourly noise level measurements, it is possible to describe the daytime and nighttime hourly noise levels and calculate the 24-hour CNEL. The long-term noise readings were recorded using Piccolo Type 2 integrating sound level meter and dataloggers. The Piccolo sound level meters were calibrated using a Larson-Davis calibrator, Model CAL 150. All noise meters were programmed in "slow" mode to record noise levels in "A" weighted form. The sound level meters and microphones were equipped with a windscreen during all measurements. All noise level measurement equipment satisfies the American National Standards Institute (ANSI) standard specifications for sound level meters ANSI S1.4-2014/IEC 61672-1:2013. (14) 5.2 NOISE MEASUREMENT LOCATIONS The long-term noise level measurements were positioned as close to the nearest sensitive receiver locations as possible to assess the existing ambient hourly noise levels surrounding the Project site. Both Caltrans and the FTA recognize that it is not reasonable to collect noise level measurements that can fully represent every part of a private yard, patio, deck, or balcony normally used for human activity when estimating impacts for new development projects. This is demonstrated in the Caltrans general site location guidelines which indicate that, sites must be free of noise contamination by sources other than sources of interest. Avoid sites located near sources such as barking dogs, lawnmowers, pool pumps, and air conditioners unless it is the express intent of the analyst to measure these sources. (4) Further, FTA guidance states, that it is not necessary nor recommended that existing noise exposure be determined by measuring at every noise-sensitive location in the project area. Rather, the recommended approach is to characterize the noise environment for clusters of sites based on measurements or estimates at representative locations in the community. (9) Based on recommendations of Caltrans and the FTA, it is not necessary to collect measurements at each individual building or residence, because each receiver measurement represents a group of buildings that share acoustical equivalence. (9) In other words, the area represented by the receiver shares similar shielding, terrain, and geometric relationship to the reference noise source. Receivers represent a location of noise sensitive areas and are used to estimate the future noise level impacts. Collecting reference ambient noise level measurements at the nearby sensitive receiver locations allows for a comparison of the before and after Proje ct noise levels PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 24 and is necessary to assess potential noise impacts due to the Project’s contribution to the ambient noise levels. 5.3 NOISE MEASUREMENT RESULTS The noise measurements presented below focus on the average or equivalent sound levels (Leq). The equivalent sound level (Leq) represents a steady state sound level containing the same total energy as a time varying signal over a given sample period. Table 5-1 identifies the hourly daytime (7:00 a.m. to 10:00 p.m.) and nighttime (10:00 p.m. to 7:00 a.m.) noise levels at each noise level measurement location. Appendix 5.2 provides a summary of the existing hourly ambient noise levels described below: • Location L1 represents the noise levels south of 204 Tustin Ave near the side yard of the single- family home. The noise level measurements collected show an overall 24-hour exterior noise level of 63.5 dBA CNEL. The energy (logarithmic) average daytime noise level was calculated at 59.9 dBA Leq with an average nighttime noise level of 56.0 dBA Leq. • Location L2 represents the noise levels near the parking meters in the parking lot adjacent to 124 Tustin Avenue. The noise level measurements collected show an overall 24-hour exterior noise level of 59.2 dBA CNEL. The energy (logarithmic) average daytime noise level was calculated at 57.3 dBA Leq with an average nighttime noise level of 50.6 dBA Leq. • Location L3 represents the noise levels in the parking lot South of Newport Theatre Arts Center. The 24-hour CNEL indicates that the overall exterior noise level is 55.4 dBA CNEL. The energy (logarithmic) average daytime noise level was calculated at 53.6 dBA Leq with an average nighttime noise level of 46.8 dBA Leq. • Location L4 represents the noise levels in parking lot north of 2400 West Coast Highway and west of Avon Lot 2. The noise level measurements collected show an overall 24-hour exterior noise level of 62.4 dBA CNEL. The energy (logarithmic) average daytime noise level was calculated at 59.3 dBA Leq with an average nighttime noise level of 54.6 dBA Leq. • Location L5 represents the noise levels in the courtyard of 124 Tustin Avenue. The noise level measurements collected show an overall 24-hour exterior noise level of 54.6 dBA CNEL. The energy (logarithmic) average daytime noise level was calculated at 52.0 dBA Leq with an average nighttime noise level of 46.6 dBA Leq. Table 5-1 provides the (energy average) noise levels used to describe the daytime and nighttime ambient conditions. These daytime and nighttime energy average noise levels represent the average of all hourly noise levels observed during these time periods expressed as a single number. Appendix 5.2 provides summary worksheets of the noise levels for each hour as well as the minimum, maximum, L1, L2, L5, L8, L25, L50, L90, L95, and L99 percentile noise levels observed during the daytime and nighttime periods. The background ambient noise levels in the Project study area are dominated by the transportation-related noise associated with West Coast Highway. The 24-hour existing noise level measurements shown on Table 5-1 present the existing ambient noise conditions. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 25 TABLE 5-1: 24-HOUR AMBIENT NOISE LEVEL MEASUREMENTS Location1 Description Energy Average Noise Level (dBA Leq)2 CNEL Daytime Nighttime L1 Located south of 204 Tustin Avenue near the side yard of the single-family home. 59.9 56.0 63.5 L2 Located near the parking meters in the parking lot adjacent to 124 Tustin Avenue. 57.3 50.6 59.2 L3 Located in the parking lot South of Newport Theatre Arts Center. 53.6 46.8 55.4 L4 Located in parking lot north of 2400 West Coast Highway and west of Avon Lot 2 59.3 54.6 62.4 L5 Located in courtyard of 124 Tustin Avenue. 52.0 46.6 54.6 1 See Exhibit 5-A for the noise level measurement locations. 2 The long-term 24-hour measurement printouts are included in Appendix 5.2. "Daytime" = 7:00 a.m. to 10:00 p.m.; "Nighttime" = 10:00 p.m. to 7:00 a.m. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 26 EXHIBIT 5-A: NOISE MEASUREMENT LOCATIONS PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 27 6 METHODS AND PROCEDURES The following section outlines the methods and procedures used to model and analyze the future traffic noise environment. 6.1 FHWA TRAFFIC NOISE PREDICTION MODEL The expected roadway noise level increases from vehicular traffic were calculated by Urban Crossroads, Inc. using a computer program that replicates the Federal Highway Administration (FHWA) Traffic Noise Prediction Model- FHWA-RD-77-108. (15) This is consistent with the approach used for the City of Newport Beach General Plan Update EIR. (3) The FHWA Model arrives at a predicted noise level through a series of adjustments to the Reference Energy Mean Emission Level (REMEL). In California the national REMELs are substituted with the California Vehicle Noise (Calveno) Emission Levels. (16) Adjustments are then made to the REMEL to account for: the roadway classification (e.g., collector, secondary, major or arterial), the roadway active width (i.e., the distance between the center of the outermost travel lanes on each side of the roadway), the total average daily traffic (ADT), the travel speed, the percentages of automobiles, medium trucks, and heavy trucks in the traffic volume, the roadway grade, the angle of view (e.g., whether the roadway view is blocked), the site conditions ("hard" or "soft" relates to the absorption of the ground, pavement, or landscaping), and the percentage of total ADT which flows each hour throughout a 24-hour period. Research conducted by Caltrans has shown that the use of soft site conditions is appropriate for the application of the FHWA traffic noise prediction model used in this analysis. (17) 6.2 ON-SITE TRAFFIC NOISE PREDICTION MODEL INPUTS The on-site roadway parameters including the average daily traffic (ADT) volumes used for this study are presented on Table 6-1. Based on the City of Newport Beach General Plan Circulation Element, West Coast Highway is classified as a Major Road. (18) To predict the future on-site noise environment at the Project site, parameters including the number of lanes and the future buildout average daily traffic volumes were obtained from the City of Newport Beach General Plan Update Environmental Impact Report, Figure 4.13-8. For the purposes of this analysis, soft site conditions were used to analyze the on-site traffic noise impacts for the Project study area. Soft site conditions account for the sound propagation loss over natural surfaces such as normal earth and ground vegetation. Research by Caltrans has shown that the use of soft site conditions is appropriate for the application of the FHWA traffic noise prediction model used in this analysis. (17) PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 28 TABLE 6-1: ON-SITE ROADWAY PARAMETERS Roadway Lanes Classification1 Average Daily Traffic Volume2 Speed (mph)3 Site Conditions W. Coast Hwy. 5 Major 51,000 40 Soft Tustin Ave. 2 Collector 3,000 25 Soft 1 City of Newport Beach General Plan Figure CE1 Master Plan of Streets and Highways 2 City of Newport Beach General Plan Update EIR Figure 4.13-8 General Plan Buildout with Project ADT. 3 Posted speed limit. The site plan is used to identify the relationship between the roadway centerline elevation, the pad elevation and the centerline distance to any intervening noise barriers, and the building façade. The exterior noise level receiver locations were placed five feet above the finished floor elevation for each floor. Table 6-2 presents the time of day vehicle splits and Table 6-3 presents the traffic flow distributions (vehicle mix) used for this analysis. The vehicle mix provides the hourly distribution percentages of automobile, medium trucks, and heavy trucks for input into the FHWA noise prediction model. TABLE 6-2: TIME OF DAY VEHICLE SPLITS Vehicle Type Time of Day Splits1 Total of Time of Day Splits Daytime Evening Nighttime Autos 77.50% 12.90% 9.60% 100.00% Medium Trucks 84.80% 4.90% 10.30% 100.00% Heavy Trucks 86.50% 2.70% 10.80% 100.00% 1 Source: Typical Southern California vehicle mix. "Daytime" = 7:00 a.m. to 7:00 p.m.; "Evening" = 7:00 p.m. to 10:00 p.m.; "Nighttime" = 10:00 p.m. to 7:00 a.m. TABLE 6-3: DISTRIBUTION OF TRAFFIC FLOW BY VEHICLE TYPE (VEHICLE MIX) Classification Total % Traffic Flow Total Autos Medium Trucks Heavy Trucks All Roadways1 97.42% 1.84% 0.74% 100.00% 1 Source: Typical Southern California vehicle mix. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 29 7 ON-SITE NOISE IMPACTS FROM TRAFFIC An on-site exterior noise impact analysis has been completed to determine the traffic noise exposure and to identify potential necessary noise abatement measures for the proposed Noise Study Project. The primary source of traffic noise affecting the Project site is anticipated to be from West Coast Highway and Tustin Avenue. The Project will also experience some background traffic noise impacts from nearby drive aisles and parking lots, however, due to the low traffic volumes, distance and intervening structures these are not anticipated to make a significant contribution to the exterior noise levels at the Project site. 7.1 EXTERIOR NOISE ANALYSIS The analysis shows that the future on-site exterior traffic noise levels are expected to approach 71.8 dBA CNEL at the first floor Auto Showroom and 71.7 dBA CNEL at the second floor Medical Office building façade facing West Coast Highway. This is below the City of Newport Beach’s 75 dBA CNEL normally compatible exterior land use compatibility criteria non-residential uses . A review of the Project elevations show that the second residential dwelling units are largely blocked from West Coast Highway by the Medical Office space. However, the third-floor residential dwelling units will be exposed to the traffic noise from West Coast Highway. As shown on Table 8-1 the residential dwelling units are expected to experience an exterior noise level of 64.0 dBA CNEL at the third-floor building façade. This satisfies the City of Newport Beach’s 65 dBA CNEL clearly compatible exterior land use compatibility criteria for residential use. Therefore, future exterior traffic noise impacts will be less than significant. Appendix 7.1 includes the on-site traffic noise level calculations. TABLE 7-1: EXTERIOR TRAFFIC NOISE LEVELS Land Use1 Roadways Level Noise Level at Facade (dBA CNEL) Combined Exterior Noise Level (dBA CNEL)2 Exterior Noise Level Threshold (dBA CNEL)3 Threshold Exceeded? Auto Showroom W. Coast Hwy. 1st Floor 71.8 71.8 75 No Tustin Ave. 50.9 Medical Office W. Coast Hwy. 2nd Floor 71.7 71.7 75 No Tustin Ave. 50.9 Residential W. Coast Hwy. 3rd Floor 64.0 64.0 65 No Tustin Ave. 50.1 1 As shown on the Project site plan (Exhibit 1-B) 2 Combined future exterior noise levels at the building façade. Calculations are included in Appendix 7-1. 3 City of Newport Beach Land Use Noise Compatibility Thresholds Table N2 (Exhibit 3-A). PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 30 7.2 INTERIOR NOISE ANALYSIS To ensure that the interior noise levels comply with the City of Newport Beach 45 dBA CNEL interior noise level standards, future noise levels were calculated at the building façades. While the City maintains interior noise standards for noise sensitive residential land uses, the City does not prescribe specific interior noise requirements for non-residential land uses such as the planned Auto Showroom and Medical Office uses. Table 7-2 shows that the future exterior noise levels at the third-floor residential building façade are estimated at 64.0 dBA CNEL. Table 7-2 shows that the estimated interior noise levels using typical building construction and standard windows will provide an interior noise level reduction of 25 dBA. With the standard windows, units facing West Coast Highway will experience interior levels of 39.0 dBA CNEL. This satisfies the City of Newport Beach 45 dBA CNEL interior noise level standards and is less than significant. TABLE 7-2: INTERIOR NOISE LEVELS (CNEL) Building (Façade) Floor Noise Level at Façade1 Required Interior NR2 Typical Interior NR3 Interior Noise Level Threshold Threshold Exceeded? Residential 3 64.0 19.0 25.0 39.0 45 No 1 Exterior noise level at the facade with a windows closed condition requiring a means of mechanical ventilation (e.g. air conditioning). 2 Noise reduction required to satisfy the 45 dBA CNEL interior noise standard for residential uses. 3 Typical building construction interior noise reduction with the standard windows . "NR" = Noise Reduction PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 31 8 SENSITIVE RECEIVER LOCATIONS To assess the potential for long-term operational and short-term construction noise impacts, the following sensitive receiver locations as shown on Exhibit 9-A were identified as representative locations for analysis. Sensitive receivers are generally defined as locations where people reside or where the presence of unwanted sound could otherwise adversely affect the use of the land. Noise-sensitive land uses are generally considered to include schools, hospitals, single-family dwellings, mobile home parks, churches, libraries, and recreation areas. Moderately noise- sensitive land uses typically include multi-family dwellings, hotels, motels, dormitories, out- patient clinics, cemeteries, golf courses, country clubs, athletic/tennis clubs, and equestrian clubs. Land uses that are considered relatively insensitive to noise include business, commercial, and professional developments. Land uses that are typically not affected by noise include: industrial, manufacturing, utilities, agriculture, undeveloped land, parking lots, warehousing, liquid and solid waste facilities, salvage yards, and transit terminals. The closest sensitive receivers to the Project site are described below. Other sensitive land uses in the Project study area that are located at greater distances than those identified in this noise study will experience lower noise levels than those presented in this report due to the additional attenuation from distance and the shielding of intervening structures. R1: Located approximately 83 feet north of the Project site, R1 represents an existing single- family residential home located at 204 Tustin Avenue. A 24-hour noise level measurement was taken near this location, L1, to describe the existing ambient noise environment. R2: Location R2 represents the location 59 feet north of the Site roughly 47 feet above the pad elevation of the Project at 124 Tustin Avenue. A 24-hour noise level measurement was taken near this location, L2, to describe the existing ambient noise environment. R3: Located approximately 204 feet north of the Project site, R3 represents the Newport Theatre Arts Center. A 24-hour noise level measurement was taken near this location, L3, to describe the existing ambient noise environment. R4: Location R4 represents the existing outdoor play area for the nearby Bright Horizons daycare facility 2500 West Coast Highway located approximately 25 feet east of the Project site boundary. Because Bright Horizons daycare facility was inaccessible, a 24- hour noise level measurement was taken near this location, L4 in a location that represents a similar existing ambient noise environment, to describe the existing ambient noise environment at R4. R5: Located approximately 54 feet west of the Project site, R5 represents the existing commercial retail uses that share a common courtyard area at 124 Tustin Avenue. A 24- hour noise level measurement was taken near this location, L5, to describe the existing ambient noise environment. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 32 EXHIBIT 8-A: RECEIVER LOCATIONS PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 33 9 OPERATIONAL NOISE IMPACTS TO NEARBY SENSITIVE RECEIVERS This section analyzes the potential stationary-source operational noise impacts at the nearby receiver locations, identified in Section 8, resulting from the operation of the proposed Noise Study Project. Exhibit 9-A identifies the representative receiver locations and noise source locations used to assess the operational noise levels. Appendix 9.1 includes the detailed calculations for the Project operational noise levels presented in this section. 9.1 OPERATIONAL NOISE SOURCES This noise analysis describes the noise level impacts associated with the expected typical operational activities related to residential mixed use at the Project site. The on-site Project- related operational noise sources are expected to include: roof-top air conditioning units, parking lot vehicle movements, and trash enclosures. 9.2 REFERENCE OPERATIONAL NOISE LEVELS To estimate the Project operational noise impacts, reference noise level measurements were collected from similar types of activities to represent the noise levels expected with the development of the proposed Project. This section provides a detailed description of the reference noise level measurements shown on Table 9-1 used to estimate the Project operational noise impacts. It is important to note that the following projected noise levels assume the worst- case noise environment with the roof-top air conditioning units, parking lot vehicle movements, and trash enclosures. 9.2.1 MEASUREMENT PROCEDURES The reference noise level measurements presented in this section were collected using a combination of Type 1 and Type 2 sound level meters. Each sound level meter was programmed in "slow" mode to record noise levels in "A" weighted form and calibrated prior to each measurement. The sound level meters and microphones were equipped with a windscreen during all measurements. All noise level measurement equipment satisfies the American National Standards Institute (ANSI) standard specifications for sound level meters ANSI S1.4- 2014/IEC 61672-1:2013. (14) 9.2.2 REFERENCE ROOF-TOP AIR CONDITIONING UNITS To assess the noise levels created by the roof-top air conditioning units at the Project site, reference noise levels measurements were taken at the Santee Walmart on July 27th, 2015. Located at 170 Town Center Parkway in the City of Santee, the noise level measurements describe mechanical roof-top air conditioning units on the roof of an existing Walmart store, with additional units operating in the background. The reference noise level represents Lennox SCA120 series 10-ton model packaged air conditioning units. Using a uniform reference distance of 50 feet, the reference noise level is 57.2 dBA Leq. The operating conditions of the reference noise level measurement reflect peak summer cooling requirements with measured temperatures approaching 96 degrees Fahrenheit (°F) with average daytime temperatures of PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 34 82°F. The roof-top air condition units were observed to operate the most during the daytime hours for a total of 39 minutes per hour. The noise attenuation provided by a parapet wall is not reflected in this reference noise level measurement. 9.2.3 TRASH ENCLOSURE ACTIVITY To describe the noise levels associated with a trash enclosure, Urban Crossroads collected a reference noise level measurement on May 3rd, 2018 at an existing commercial and office park trash enclosure within a parking lot on the northeast corner of Baker Street and Red Hill Avenue. The measured reference noise level at the uniform 50-foot reference distance is 57.3 dBA Leq for the trash enclosure activity. The trash enclosure activity noise levels include two metal gates opening and closing, metal scraping against concrete floor sounds, dumpster movement on metal wheels, trash dropping into the metal dumpster, and background parking lot vehicle movements. Noise associated with trash enclosure activities is expected to occur for 20 minutes per hour 9.2.4 PARKING LOT VEHICLE MOVEMENTS To determine the noise levels associated with parking lot vehicle movements, Urban Crossroads collected reference noise level measurements over a 24-hour period on May 17th, 2017 at the parking lot for the Panasonic Avionics Corporation in the City of Lake Forest. The peak hour of activity measured over the 24-hour noise level measurement period occurred between 12:00 p.m. to 1:00 p.m., or the typical lunch hour for employees working in the area. The measured, peak-hour reference noise level at 50 feet from the parking activity was measured at 41.7 dBA Leq. The parking activity noise levels are mainly due to cars pulling in and out of spaces during peak lunch hour activity and employees talking. This reference noise level measurement is anticipated to conservatively overstate the parking noise levels of the Project since it represents the parking activity associated with that of a larger, commercial office use with a greater number of parking spaces. Noise associated with parking lot vehicle movements is expected to operate for the entire hour (60 minutes), which is consistent with the reference noise level measurements at Panasonic. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 35 TABLE 9-1: REFERENCE NOISE LEVEL MEASUREMENTS Noise Source Duration (hh:mm:ss) Ref. Distance (Feet) Noise Source Height (Feet) Hourly Activity (Mins)4 Reference Noise Level (dBA Leq) @ Ref. Dist. @ 50 Feet Roof-Top Air Conditioning Unit1 96:00:00 5' 5' 39 77.2 57.2 Trash Enclosure Activity2 00:00:32 5' 5' 20 77.3 57.3 Parking Lot Vehicle Movements3 01:00:00 10' 5' 60 52.2 41.7 1 As measured by Urban Crossroads, Inc. on 7/27/2015 at the Santee Walmart located at 170 Town Center Parkway. 2 As measured by Urban Crossroads, Inc. on 5/3/2018 at a commercial and office park trash enclosure in the City of Costa Mesa. 3 As measured by Urban Crossroads, Inc. on 5/17/2017 at the Panasonic Avionics Corporation in the City of Lake Forest. 4 Anticipated duration (minutes within the hour) of noise activity during typical hourly conditions expected at the Project site based on the reference noise level measurement activity. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 36 EXHIBIT 9-A: OPERATIONAL NOISE SOURCE AND RECEIVER LOCATIONS PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 37 9.3 PROJECT OPERATIONAL NOISE LEVELS Using the reference noise levels to represent the proposed Project operations that include roof- top air conditioning units, parking lot vehicle movements, and trash enclosures, Urban Crossroads, Inc. calculated the operational source noise levels that are expected to be generated at the Project site and the Project-related noise level increases that would be experienced at each of the sensitive receiver locations. The operational noise level calculations shown on Table 9-2 account for the distance attenuation provided due to geometric spreading, when sound from a localized stationary source (i.e., a point source) propagates uniformly outward in a spherical pattern. Hard site conditions are used in the operational noise analysis which result in noise levels that attenuate (or decrease) at a rate of 6 dBA for each doubling of distance from a point source. The basic noise attenuation equation shown below is used to calculate the distance attenuation based on a reference noise level (SPL1): SPL2 = SPL1 - 20log(D2/D1) Where SPL2 is the resulting noise level after attenuation, SPL1 is the source noise level, D2 is the distance to the reference sound pressure level (SPL1), and D1 is the distance to the receiver location. Table 9-2 shows the individual operational noise levels of each noise source at each of the nearby sensitive receiver locations. As indicated on Table 9-2, the Project-only operational noise levels will range from 24.1 to 44.9 dBA Leq at the sensitive receiver locations. TABLE 9-2: PROJECT OPERATIONAL NOISE LEVELS Receiver Location1 Noise Levels by Noise Source (dBA Leq)2 Combined Operational Noise Levels (dBA Leq) Roof-Top Air Conditioning Units Trash Enclosure Activity Parking Lot Vehicle Movements R1 42.5 24.1 34.8 43.2 R2 40.8 44.0 40.2 46.8 R3 34.9 37.6 32.5 40.3 R4 44.9 30.6 37.9 45.8 R5 44.9 24.6 34.9 45.4 1 See Exhibit 9-A for the receiver and noise source locations. 2 Reference noise sources as shown on Table 9-1. Individual noise source calculations are provided in Appendix 9.1. 9.4 PROJECT OPERATIONAL NOISE LEVEL COMPLIANCE To demonstrate compliance with local noise regulations, the Project-only operational noise levels are evaluated against the City of Newport Beach exterior noise level standards at nearby noise- sensitive receiver locations. For the noise-sensitive residential land use, the City of Newport Beach has established exterior noise level standards of 55 dBA Leq during the daytime hours (7:00 a.m. to 10:00 p.m.) and 50 dBA Leq during the nighttime hours (10:00 p.m. to 7:00 a.m.). (12) In the event the ambient noise level exceeds the noise standard, the maximum allowable noise level PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 38 under said category shall be increased to reflect he maximum ambient noise level (Section 10.26.025(C)). Table 9-3 shows that the operational noise levels associated with Noise Study Project will satisfy the City of Newport Beach exterior noise level standards at all nearby receiver locations. Therefore, the operational noise impacts are considered less than significant at the nearby noise-sensitive receiver locations. TABLE 9-3: OPERATIONAL NOISE LEVEL COMPLIANCE Receiver Location1 Noise Level at Receiver Locations (dBA Leq)2 Exterior Noise Standards3 Threshold Exceeded?4 Daytime Nighttime Daytime Nighttime R1 43.2 59.9 56.0 No No R2 46.8 57.3 50.6 No No R3 40.3 55.0 50.0 No No R4 45.8 59.3 54.6 No No R5 45.4 55.0 50.0 No No 1 See Exhibit 9-A for the receiver and noise source locations. 2 Estimated Project operational noise levels as shown on Table 9-2. 3 Base exterior noise level standards as shown on Table 3-1. If the ambient level exceeds allowable exterior Leq noise level, the ambient shall be the standard per Section 10.26.025 (C) of the City of Newport Beach Municipal Code. 4 Do the Project operational noise levels exceed the exterior noise standards. "Daytime" = 7:00 a.m. to 10:00 p.m.; "Nighttime" = 10:00 p.m. to 7:00 a.m. 9.5 PROJECT OPERATIONAL NOISE LEVEL CONTRIBUTIONS To describe the Project operational noise level contributions, the Project operational noise levels are combined with the existing ambient noise levels measurements for nearby receiver locations potentially impacted by Project operational noise sources. Since the units used to measure noise, decibels (dB), are logarithmic units, the Project-operational and existing ambient noise levels cannot be combined using standard arithmetic equations. (4) Instead, they must be logarithmically added using the following base equation: SPLTotal = 10log10[10SPL1/10 + 10SPL2/10 + … 10SPLn/10] Where “SPL1,” “SPL2,” etc. are equal to the sound pressure levels being combined, or in this case, the Project-operational and existing ambient noise levels. The difference between the combined Project and ambient noise levels describe the Project noise level contributions to the existing ambient noise environment. Noise levels that would be experienced at receiver locations when Project-source noise is added to the daytime and nighttime ambient conditions are presented on Tables 9-4 and 9-5, respectively. As indicated on Tables 9-4 and 9-5, the Project will generate a daytime operational noise level increase of up to 0.9 dBA Leq and a nighttime operational noise level increase of up to 2.4 dBA Leq at the nearby receiver locations. Since the Project-related operational noise level contributions will satisfy the operational noise level increase significance criteria presented in Table 4-2, the increases at the sensitive receiver locations will be less than significant. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 39 TABLE 9-4: PROJECT DAYTIME NOISE LEVEL CONTRIBUTIONS Receiver Location1 Total Project Operational Noise Level2 Measurement Location3 Reference Ambient Noise Levels4 Combined Project and Ambient5 Project Increase6 Threshold7 Threshold Exceeded?7 R1 43.2 L1 59.9 60.0 0.1 2.0 No R2 46.8 L2 57.3 57.7 0.4 2.0 No R3 40.3 L3 53.6 53.8 0.2 3.0 No R4 45.8 L4 59.3 59.5 0.2 2.0 No R5 45.4 L5 52.0 52.9 0.9 3.0 No 1 See Exhibit 9-A for the sensitive receiver locations. 2 Total Project operational noise levels as shown on Table 9-3. 3 Reference noise level measurement locations as shown on Exhibit 5-A. 4 Observed daytime ambient noise levels as shown on Table 5-1. 5 Represents the combined ambient conditions plus the Project operational activities. 6 The noise level increase expected with the addition of the proposed Project operational activities. 7 Significance Criteria as defined in Section 4. TABLE 9-5: PROJECT NIGHTTIME NOISE LEVEL CONTRIBUTIONS Receiver Location1 Total Project Operational Noise Level2 Measurement Location3 Reference Ambient Noise Levels4 Combined Project and Ambient5 Project Increase6 Threshold7 Threshold Exceeded?7 R1 43.2 L1 56.0 56.2 0.2 2.0 No R2 46.8 L2 50.6 52.1 1.5 3.0 No R3 40.3 L3 46.8 47.7 0.9 3.0 No R4 45.8 L4 54.6 55.1 0.5 3.0 No R5 45.4 L5 46.6 49.0 2.4 3.0 No 1 See Exhibit 9-A for the sensitive receiver locations. 2 Total Project operational noise levels as shown on Table 9-3. 3 Reference noise level measurement locations as shown on Exhibit 5-A. 4 Observed nighttime ambient noise levels as shown on Table 5-1. 5 Represents the combined ambient conditions plus the Project operational activities. 6 The noise level increase expected with the addition of the proposed Project operational activities. 7 Significance Criteria as defined in Section 4. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 40 This page intentionally left blank PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 41 10 CONSTRUCTION NOISE IMPACTS Construction noise represents the combination of several types of equipment, the location of the equipment, and the duration of the noise-generating activities through different stages of construction. Each stage of construction involves the use of different types of construction equipment with unique noise characteristics operating at the varying distances within the construction activity area. This section analyzes potential impacts resulting from the short-term construction activities associated with the development of the Project. Exhibit 10-A shows the construction activity boundaries in relation to the nearby sensitive receiver locations. To minimize the short-term construction activities, the Project will provide a temporary 16-foot high screen wall as shown on Exhibit 10-A. 10.1 CONSTRUCTION NOISE SOURCES Noise generated by the Project construction source equipment will include a combination of trucks, power tools, concrete mixers, and portable generators that when combined can reach high levels. The number and mix of construction equipment is expected to occur in the following stages: • Demolition • Site Preparation • Grading • Building Construction • Paving • Architectural Coating This construction noise analysis was prepared using reference noise level measurements taken by Urban Crossroads, Inc. to describe the typical construction activity noise levels for each stage of Project construction. The construction reference noise level measurements represent a list of typical construction activity noise levels. Noise levels generated by heavy construction equipment can range from approximately 68 dBA to more than 80 dBA when measured at 50 feet. However, these noise levels diminish with distance from the construction site at a rate of 6 dBA per doubling of distance. For example, a noise level of 80 dBA measured at 50 feet from the noise source to the receiver would be reduced to 74 dBA at 100 feet from the source to the receiver, and would be further reduced to 68 dBA at 200 feet from the source to the receiver. 10.2 CONSTRUCTION REFERENCE NOISE LEVELS To describe the Project construction noise levels, measurements were collected for similar activities at several construction sites. Table 10-1 provides a summary of the construction reference noise level measurements for each stage of construction. Since the reference noise levels were collected at varying distances, all construction noise level measurements presented on Table 10-1 have been adjusted to describe a uniform reference distance of 50 feet. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 42 TABLE 10-1: CONSTRUCTION REFERENCE NOISE LEVELS Construction Stage Reference Construction Activity1 Reference Noise Level @ 50 Feet (dBA Leq) Highest Reference Noise Level (dBA Leq) Demolition Demolition Activity 67.9 71.9 Backhoe 64.2 Water Truck Pass-By & Backup Alarm 71.9 Site Preparation Scraper, Water Truck, & Dozer Activity 75.3 75.3 Backhoe 64.2 Water Truck Pass-By & Backup Alarm 71.9 Grading Rough Grading Activities 73.5 73.5 Water Truck Pass-By & Backup Alarm 71.9 Construction Vehicle Maintenance Activities 67.5 Building Construction Foundation Trenching 68.2 71.6 Framing 62.3 Concrete Mixer Backup Alarms & Air Brakes 71.6 Paving Concrete Mixer Truck Movements 71.2 71.2 Concrete Paver Activities 65.6 Concrete Mixer Pour & Paving Activities 65.9 Architectural Coating Air Compressors 65.2 65.2 Generator 64.9 Crane 62.3 1 Reference construction noise level measurements taken by Urban Crossroads, Inc. 2 Distance from the nearest point of construction activity to the nearest receiver. 3 Point (stationary) source drop off rate of 6.0 dBA per doubling of distance. 4 Estimated barrier attenuation from existing barriers in the Project study area, if any. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 43 EXHIBIT 10-A: CONSTRUCTION ACTIVITY AND RECEIVER LOCATIONS PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 44 10.3 CONSTRUCTION NOISE LEVELS Using the reference construction equipment noise levels, calculations of the Project construction noise level impacts at the nearby sensitive receiver locations were completed. The distances shown on Exhibit 8-A (Receiver Locations) of the Noise Study represent the approximate distances to the Project site boundaries from each receiver location. The distances on Exhibit 10- A of the Noise Study, to the Project construction activities, represent the approximate distances to primary Project construction activities (i.e., the noise source) based on field observations at reference construction sites where primary activities are located, and therefore, are different than those shown on Exhibit 8-A. This is necessary to avoid placing the construction noise source in the shadow zone of the temporary noise barrier. This approach recogni zes that it is not possible to place the construction noise source activities at the same location as the barrier and ensures that the construction noise sources are located at distances that reflect actual conditions. Table 10-2 presents the highest reference short-term construction noise levels for each stage of construction with the planned temporary 16-foot high screen wall. The reference construction noise levels used in the analysis include multiple pieces of equipment (scraper, water truck and dozer) operating at once. The highest reference noise level during the Site Preparation stage of construction is used in the construction noise analysis is represented by a Site Preparation activity of 75.3 dBA Leq at 50 feet. The highest reference noise source used in the Project construction noise analysis represents multiple pieces of construction equipment operating simultaneously to conservatively estimate Project construction noise levels. The temporary screen wall will be erected between the construction zone and adjacent sensitive receivers as shown on Exhibit 10-A. It will have a minimum height of 16 feet and be free of gaps and holes and will achieve a Sound Transmission Class (STC) of 35 or greater. The barrier will either be (a) a ¾-inch-thick plywood wall OR (b) a hanging blanket/curtain with a surface density of at least 2 pounds per square foot. For either configuration, the construction side of the barrier will have an exterior lining of sound absorption material with a Noise Reduction Coefficient (NRC) rating of at least 0.7. Using the highest reference noise level of 75.3 dBA Leq, Table 10-2 provides a summary of the construction noise levels at the nearby noise-sensitive receiver locations. The construction noise levels associated with the proposed Project are expected to create temporarily high noise levels at the nearby receiver locations. To assess the worst-case construction noise levels, this analysis shows the highest noise impacts when the equipment with the highest reference noise level is operating at the closest point from the edge of primary construction activity to each receiver location. Appendix 10.1 includes the detailed calculations for the Project construction noise levels presented in this section. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 45 TABLE 10-2: CONSTRUCTION ACTIVITY NOISE LEVELS Reference Construction Activity1 Reference Noise Level @ 50 Feet (dBA Leq) Demolition 71.9 Site Preparation 75.3 Grading 73.5 Building Construction 71.6 Paving 71.2 Architectural Coating 65.2 Highest Reference Noise Level at 50 Feet (dBA Leq): 75.3 Receiver Location Distance to Construction Activity (Feet)2 Distance Attenuation (dBA Leq)3 Estimated Noise Barrier Attenuation (dBA Leq)4 Construction Noise Level (dBA Leq) R1 97' -5.8 -13.5 52.6 R2 69' -2.8 -11.4 57.7 R3 217' -12.7 -11.2 48.0 R45 37' 2.6 -15.5 59.0 R5 67' -2.5 -14.3 55.1 1 Reference construction noise level measurements taken by Urban Crossroads, Inc. 2 Distance from the nearest point of construction activity to the nearest receiver. 3 Point (stationary) source drop off rate of 6.0 dBA per doubling of distance. 4 Estimated barrier attenuation from existing barriers/berms in the Project study area (Appendix 10.1). 5 Distance to primary Project construction activity recognizes that it is not possible to place the construction noise source at the same location as the barrier and avoids placing the construction noise source in the shadow zone of the temporary noise barrier. 10.4 CONSTRUCTION NOISE LEVEL COMPLIANCE The City of Newport Beach has set restrictions to control noise impacts associated with the construction of the proposed Project. According to the City of Newport Beach Municipal Code Section 10.28.040 (included in Appendix 3.2), construction activities are considered exempt from the noise standards of the noise ordinance if limited to the hours of 7:00 a.m. to 6:30 p.m. on Mondays to Fridays, and 8:00 a.m. to 6:00 p.m. on Saturdays, with no activity allowed on Sundays or national holidays. (2) Therefore, if construction activities occur within the permitted hours of the Municipal Code, Project construction noise levels are considered exempt from the noise ordinance standards. To evaluate whether the Project will generate potentially significant short-term noise levels at off-site sensitive receiver locations a construction-related the NIOSH noise level threshold of 85 dBA Leq is used to determine whether construction noise will impact nearby sensitive receiver locations. Table 10-3 shows the highest construction noise levels at the potentially impacted PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 46 receiver locations are expected to approach 59.0 dBA Leq and will satisfy the NIOSH 85 dBA Leq significance threshold during temporary Project construction activities. The noise impact due to Project construction noise levels is considered a less than significant impact at all nearby sensitive receiver locations. TABLE 10-3: CONSTRUCTION EQUIPMENT NOISE LEVEL COMPLIANCE Receiver Location1 Land Use2 Construction Noise Levels (dBA Leq) Highest Levels3 Threshold4 Threshold Exceeded?5 R1 - (204 Tustin Ave.) Residential 52.6 85 No R2 - (124 Tustin Ave.) Residential 57.7 85 No R3 - (Newport Theatre Arts) Park 48.0 85 No R4 - (2400 W. Coast Hwy.) Mixed-Use 59.0 85 No R5 - (Courtyard) Mixed-Use 55.1 85 No 1 Noise receiver locations are shown on Exhibit 10-A. 2 City of Newport Beach Interactive Map (Zoning) 3 Estimated construction noise levels during peak operating conditions, as shown on Table 10-2. 4 Construction noise level threshold as shown on Table 4-2. 5 Do the estimated Project construction noise levels exceed the construction noise level threshold? These less than significant findings are consistent with the 2006 General Plan Environmental Impact Report (EIR) (3): Construction activities would be an ongoing occurrence in the City and, in particular cases, could occur in close proximity to noise-sensitive uses. Although the proposed General Plan Update limits construction activities to specific days of the week and hours of the day, construction equipment generates high noise levels, as shown in Table 4.9-9 and may not always be reducible to the levels specified in the City Noise Ordinance. Section 10.26.035 of the Municipal Code (Exemptions), exempts “noise sources associated with construction, repair, remodeling, demolition, or grading of any real property.” Section 10.26.035 also states that construction noise should fall under the provisions of Section 10.28 of the Code (Loud and Unreasonable Noise). Thus, construction noise is not subject to the noise standards in the Municipal Code, but only during limited hours of the day and days of the week. In sum, existing and future construction noise levels at individual construction sites may not substantially differ, but previously unexposed areas could experience new sources of construction noise. Both existing and future noise would be exempt from the City code and when construction noise occurs, impacts would be considered less than significant. 10.5 CONSTRUCTION NOISE ABATEMENT MEASURES Recognizing the potential for Project related short-term construction noise level increases at nearby noise sensitive uses, the following measures are incorporated as design features of the Project. These measures would reduce construction noise in excess of the construction noise estimates shown in Table 10-3. • At least 30 days prior to commencement of demolition or any other construction activities, notification will be given to all residents or businesses within 500 feet of the project site regarding PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 47 the planned construction activities. The notification will include a brief description of the project, the activities that would occur, and the duration and hours when construction would occur. The notification will also include the telephone number of the construction contractor’s authorized representative to respond in the event of a vibration or noise complaint. • Prior to the beginning of construction activities, a sign will be posted at the entrance to the job site, clearly visible to the public, that contains a contact name and telephone number of the construction contractor’s authorized representative to respond in the event of a vibration or noise complaint. If the authorized representative receives a complaint, he/she will investigate, take appropriate corrective action, and report the action to the City of Newport Beach’s Community Development Director. • All construction-related trips (including worker commuting, material deliveries, and debris/soil hauling) will be routed to minimize pass-bys or residential areas around the project site. • All heavy construction equipment used on the proposed project will be maintained in good operating condition, with all internal combustion, engine-driven equipment fitted with intake and exhaust muffles, air intake silencers, and engine shrouds no less effective than as originally equipped by the manufacturer. • Electrically powered equipment instead of pneumatic or internal combustion powered equipment will be used to the extent possible. • All stationary noise-generating equipment will be located as far away as possible from neighboring property lines, with attention paid to the residential complex (currently under construction) to the north of the project site. • All internal combustion engine idling both on the site and at nearby queuing areas will be limited to no more than five minutes for any given vehicle or machine. Signs will be posted at the job site and along queueing lanes to reinforce the prohibition of unnecessary engine idling. • The use of noise producing signals, including horns, whistles, alarms, and bells will be for safety warning purposes only. Smart back-up alarms, which automatically adjust the alarm level based on the background noise level or switch off back-up alarms and replace with human spotters, will be used. 10.6 CONSTRUCTION VIBRATION IMPACTS Construction has the potential to result in varying degrees of temporary ground vibration, depending on the specific construction activities and equipment used. Ground vibration levels associated with various types of construction equipment are summarized on Table 10-4. Based on the representative vibration levels presented for various construction equipment types, it is possible to estimate the human response (annoyance) using the following vibration assessment methods defined by the FTA. To describe the human response (annoyance) associated with vibration impacts the FTA provides the following equation: LVdB(D) = LVdB(25 ft) – 30log(D/25) PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 48 TABLE 10-4: VIBRATION SOURCE LEVELS FOR CONSTRUCTION EQUIPMENT Equipment Vibration Decibels (VdB) at 25 feet1 Small bulldozer 58 Jackhammer 79 Loaded Trucks 86 Large bulldozer 87 Source: Federal Transit Administration, Transit Noise and Vibration Impact Assessment It is expected that ground-borne vibration from Project construction activities would cause only intermittent, localized intrusion. The proposed Project’s construction activities most likely to cause vibration impacts are: • Heavy Construction Equipment: Although all heavy mobile construction equipment has the potential of causing at least some perceptible vibration while operating close to buildings, the vibration is usually short-term and is not of sufficient magnitude to cause building damage. • Trucks: Trucks hauling building materials to construction sites can be sources of vibration intrusion if the haul routes pass through residential neighborhoods on streets with bumps or potholes. Repairing the bumps and potholes generally eliminates the problem. Ground-borne vibration levels resulting from construction activities occurring within the Project site were estimated by data published by the Federal Transit Administration (FTA). Using the vibration source level of construction equipment provided on Table 10-4 and the construction vibration assessment methodology published by the FTA, it is possible to estimate the Project vibration impacts. Table 10-5 shows the highest construction vibration levels are expected to approach 73.8 VdB at residential uses and buildings where people normally sleep will satisfy the 78 VdB Residential-Daytime vibration thresholds. Therefore, temporary construction related vibration impacts will be less than significant. Moreover, the impacts at the site of the closest sensitive receivers are unlikely to be sustained during the entire construction period but will occur rather only during the times that heavy construction equipment is operating adjacent to the Project site perimeter. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 49 TABLE 10-5: CONSTRUCTION EQUIPMENT VIBRATION LEVELS Receiver Location1 Land Use Distance to Construction Activity (Feet) Receiver Vibration Levels (VdB)2 Threshold (VdB)3 Threshold Exceeded?4 Small Bulldozer Jack- hammer Loaded Trucks Large Bulldozer Highest Vibration Levels R1 Residential 97' 40.3 61.3 68.3 69.3 69.3 78 No R2 Residential 69' 44.8 65.8 72.8 73.8 73.8 78 No 1 Noise receiver locations are shown on Exhibit 10-A. 2 Based on the Vibration Source Levels of Construction Equipment included on Table 6-4. 3 Federal Transit Administration, Transit Noise and Vibration Impact Assessment. 4 Does the vibration level exceed the FTA acceptable vibration level for the given land use? "n/a" = The FTA does not identify a vibration level threshold for the given use unless it contains vibration-sensitive activity or equipment within the building. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 50 This page intentionally left blank PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 51 11 REFERENCES 1. State of California. California Environmental Quality Act, Appendix G. 2018. 2. City of Newport Beach. Municipal Code, Chapter 10.28 Loud and Unreasonable Noise. 3. —. Draft Environmental Impact Report General Plan 2006 Update. April 2006. 4. California Department of Transportation Environmental Program. Technical Noise Supplement - A Technical Supplement to the Traffic Noise Analysis Protocol. Sacramento, CA : s.n., September 2013. 5. Environmental Protection Agency Office of Noise Abatement and Control. Information on Levels of Environmental Noise Requisite to Protect Public Health and Welfare with an Adequate Margin of Safety. March 1974. EPA/ONAC 550/9/74-004. 6. U.S. Department of Transportation, Federal Highway Administration, Office of Environment and Planning, Noise and Air Quality Branch. Highway Traffic Noise Analysis and Abatement Policy and Guidance. June, 1995. 7. U.S. Department of Transportation, Federal Highway Administration. Highway Traffic Noise in the United States, Problem and Response. April 2000. p. 3. 8. U.S. Environmental Protection Agency Office of Noise Abatement and Control. Noise Effects Handbook-A Desk Reference to Health and Welfare Effects of Noise. October 1979 (revised July 1981). EPA 550/9/82/106. 9. U.S. Department of Transportation, Federal Transit Administration. Transit Noise and Vibration Impact Assessment. September 2018. 10. Office of Planning and Research. State of California General Plan Guidelines. 2018. 11. City of Newport Beach. General Plan Noise Element. November, 2006. 12. —. Municipal Code, Chapter 10.26 Community Noise Control. 13. National Institute for Occupational Safety and Health. Criteria for Recommended Standard: Occupational Noise Exposure. June 1998. 14. American National Standards Institute (ANSI). Specification for Sound Level Meters ANSI S1.4- 2014/IEC 61672-1:2013. 15. U.S. Department of Transportation, Federal Highway Administration. FHWA Highway Traffic Noise Prediction Model. December 1978. FHWA-RD-77-108. 16. California Department of Transportation Environmental Program, Office of Environmental Engineering. Use of California Vehicle Noise Reference Energy Mean Emission Levels (Calveno REMELs) in FHWA Highway Traffic Noise Prediction. September 1995. TAN 95-03. 17. California Department of Transportation. Traffic Noise Attenuation as a Function of Ground and Vegetation Final Report. June 1995. FHWA/CA/TL-95/23. 18. City of Newport Beach. General Plan Circulation Element Figure CE1 Master Plan of Streets and Highways. September 2006. PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 52 This page intentionally left blank PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 53 12 CERTIFICATION The contents of this noise study report represent an accurate depiction of the noise environment and impacts associated with the proposed Noise Study Project. The information contained in this noise study report is based on the best available data at the time of preparation. If you have any questions, please contact me directly at (949) 336-5979. Bill Lawson, P.E., INCE Principal URBAN CROSSROADS, INC. 260 E. Baker Street, Suite 200 Costa Mesa, CA 92626 (949) 336-5979 blawson@urbanxroads.com EDUCATION Master of Science in Civil and Environmental Engineering California Polytechnic State University, San Luis Obispo • December, 1993 Bachelor of Science in City and Regional Planning California Polytechnic State University, San Luis Obispo • June, 1992 PROFESSIONAL REGISTRATIONS PE – Registered Professional Traffic Engineer – TR 2537 • January, 2009 AICP – American Institute of Certified Planners – 013011 • June, 1997–January 1, 2012 PTP – Professional Transportation Planner • May, 2007 – May, 2013 INCE – Institute of Noise Control Engineering • March, 2004 PROFESSIONAL AFFILIATIONS ASA – Acoustical Society of America ITE – Institute of Transportation Engineers PROFESSIONAL CERTIFICATIONS Certified Acoustical Consultant – City of Orange • February, 2011 FHWA-NHI-142051 Highway Traffic Noise Certificate of Training • February, 2013 PA2019-249 Noise Study Noise Impact Analysis 12954-04 Noise Study 54 This page intentionally left blank PA2019-249 APPENDIX 3.1: CITY OF NEWPORT BEACH MUNICIPAL CODE CHAPTER 10.26 PA2019-249 This page intentionally left blank PA2019-249 Chapter 10.26 COMMUNITY NOISE CONTROL Sections: 10.26.005 Declaration of Policy. 10.26.010 Definitions. 10.26.015 Decibel Measurement Criteria. 10.26.020 Designated Noise Zones. 10.26.025 Exterior Noise Standards. 10.26.030 Interior Noise Standards. 10.26.035 Exemptions. 10.26.040 Schools, Day Care Centers, Churches, Libraries, Museums, Health Care Institutions—Special Provisions. 10.26.045 Heating, Venting and Air Conditioning—Special Provisions. 10.26.050 Sound-Amplifying Equipment. 10.26.055 Noise Level Measurement. 10.26.065 Proposed Developments. 10.26.070 Prima Facie Violation. 10.26.075 Violations. 10.26.080 Violations—Additional Remedies—Injunctions. 10.26.085 City Manager Waiver. 10.26.090 Noise Abatement Programs. 10.26.095 Manner of Enforcement. 10.26.100 Severability. 10.26.005 Declaration of Policy. A. In order to control unnecessary, excessive and annoying noise in the City of Newport Beach, it is declared to be the policy of the City to prohibit such noise generated from or by all sources as specified in this chapter. B. It is determined that certain noise levels are detrimental to the public health, welfare and safety and contrary to public interest, therefore, the City Council of the City of Newport Beach does ordain and declare that creating, maintaining, causing or allowing to be created, caused or maintained, any noise in a manner prohibited by, or not in conformity with, the provisions of this chapter, is a public nuisance and may be punished as a public nuisance. The ordinance codified in this chapter is effective thirty (30) days from adoption, however, all fixed noise sources existing at the date of adoption shall have ninety (90) days from the date of adoption to achieve compliance with this chapter. (Ord. 95-38 § 11 (part), 1995) 10.26.010 Definitions. The following words, phrases and terms as used in this chapter shall have the meanings as indicated here: “Agricultural property” means a parcel of real property which is undeveloped for any use other than agricultural purposes. “Ambient noise level” means the all-encompassing noise level associated with a given environment, being a composite of sounds from all sources, excluding the alleged offensive noise, at the location and approximate time at which a comparison with the alleged offensive noise is to be made. “A-weighted sound level” means the total sound level meter with a reference pressure of twenty (20) micropascals using the A-weighted network (scale) at slow response. The unit of measurement shall be defined as DBA. PA2019-249 “Code Enforcement Officer” means the Code Enforcement Officer of the City or his duly authorized deputy. “Commercial property” means a parcel of real property which is used as either in part or in whole for commercial purposes. “Cumulative period” means an additive period of time composed of individual time segments which may be continuous or interrupted. “Decibel (Db)” means a unit which denotes the ratio between two quantities which are proportional to power: the number of decibels corresponding to the ratio of two amounts of power is ten times the logarithm to the base ten of this ratio. “Dwelling unit” means any area within a structure on any parcel which: 1. Contains separate or independent living facilities for one or more persons, with an area or equipment for sleeping, sanitation and food preparation, and which has independent exterior access to ground level; or 2. Is being utilized for residential purposes by one or more persons separately or independently from occupants of other areas within the structure. “Emergency machinery, vehicle, work or alarm” means any machinery, vehicle, work or alarm used, employed, performed or operated in an effort to protect, provide or restore safety conditions in the community or for the citizenry, or work by private or public utilities when restoring utility service. “Equivalent, noise, level, leq.” means the sound level corresponding to a steady state noise level over a given measurement period with the same amount of acoustic energy as the actual time varying noise level. Also known as the energy average noise level during the measurement period. The measurement period shall be fifteen (15) minutes under the terms of this chapter. “Fixed noise source” means a stationary device which creates sounds while fixed or motionless including but not limited to residential, agricultural, industrial and commercial machinery and equipment, pumps, fans, compressors, air conditioners and refrigeration equipment. “Grading” means any excavating of filling of earth material or any combination thereof conducted at a site to prepare said site for construction or other improvements thereon. “Health care institution” means any hospital, convalescent home or other similar facility excluding residential. “Hertz (HZ)” means the unit which describes the frequency of a function periodic in time which is the reciprocal of the period. “Impulsive noise” means a noise of short duration usually less than one second and of high intensity, with an abrupt onset and rapid decay. “Industrial property” means a parcel of real property which is used either in part or in whole for manufacturing purposes. “Intruding noise level” means the total sound level, in decibels, created, caused, maintained or originating from an alleged offensive source at a specified location while the alleged offensive source is in operation. “Licensed” means the issuance of a formal license or permit by the appropriate jurisdictional authority, or where no permits or licenses are issued, the sanctioning of the activity by the jurisdiction as noted in public record. “Major roadway” means any street, avenue, boulevard or highway used for motor vehicle traffic which is owned or controlled by a public government entity. PA2019-249 “Mobile noise source” means any noise source other than a fixed noise source. “Person” means any individual, firm, partnership, association, corporation, company or organization of any kind, including public agencies. “Residential property” means a parcel of real property which is used either in part or in whole for residential purposes, other than transient uses such as hotels and motels, and residential care facilities. Residential property includes the residential portion of mixed use properties. “Simple tone noise” means a noise characterized by a predominant frequency or frequencies so that other frequencies cannot be readily distinguished. If measured, simple tone noise shall exist if the one-third octave band sound pressure levels in the band with the tone exceeds the arithmetic average of the sound pressure levels of the two continuous one-third octave bands as follows: five Db for frequencies of five hundred (500) Hertz (Hz) and above or, by fifteen (15) Db for frequencies less than or equal to one hundred twenty-three (123) Hz. “Sound level meter” means an instrument meeting American National Standard Institute’s Standard S1.4-1971 or most recent revision thereof for Type 2 sound level meters or an instrument and the associated recording and analyzing equipment which will provide equivalent data. “Sound pressure level” of a sound, in decibels, means twenty (20) times the logarithm to the base ten of the ratio of the pressure of the sound to a reference pressure which shall be explicitly stated. “Vibration” means any movement of the earth, ground or other similar surface created by a temporal and spatial oscillation device or equipment located upon, affixed in conjunction with that surface. (Ord. 95-38 § 11 (part), 1995) 10.26.015 Decibel Measurement Criteria. Any decibel measurement made pursuant to the provisions of this chapter shall be based on a reference sound pressure of twenty (20) micropascals as measured with a sound level meter using the A-weighted network (scale) at slow response. (Ord. 95-38 § 11 (part), 1995) 10.26.020 Designated Noise Zones. The properties hereinafter described assigned to the following noise zones: Noise Zone I — All single-, two- and multiple-family residential properties; Noise Zone II — All commercial properties; Noise Zone III — The residential portion of mixed-use properties; Noise Zone IV — All manufacturing or industrial properties. The actual use of the property shall be the determining factor in establishing whether a property is in Noise Zone I, II, III or IV provided that the actual use is a legal use in the City of Newport Beach. (Ord. 95-38 § 11 (part), 1995) 10.26.025 Exterior Noise Standards. A. The following noise standards, unless otherwise specifically indicated, shall apply to all property with a designated noise zone: PA2019-249 NOISE ZONE TYPE OF LAND USE ALLOWABLE EXTERIOR NOISE LEVEL (Equivalent Noise Level, Leq) 7 a.m. to 10 p.m.10 p.m. to 7 a.m. I Single-, two-or multiple-family residential 55 DBA 50 DBA II Commercial 65 DBA 60 DBA III Residential portions of mixed-use properties 60 DBA 50 DBA IV Industrial or manufacturing 70 DBA 70 DBA If the ambient noise level exceeds the resulting standard, the ambient shall be the standard. B. It is unlawful for any person at any location within the incorporated area of the City to create any noise, or to allow the creation of any noise on property owned, leased, occupied or otherwise controlled by such person, which causes the noise level when measured on any other property, to exceed either of the following: 1. The noise standard for the applicable zone for any fifteen-minute period; 2. A maximum instantaneous noise level equal to the value of the noise standard plus twenty (20) DBA for any period of time (measured using A-weighted slow response). C. In the event the ambient noise level exceeds the noise standard, the maximum allowable noise level under said category shall be increased to reflect the maximum ambient noise level. D. The Noise Zone III standard shall apply to that portion of residential property falling within one hundred (100) feet of a commercial property, if the intruding noise originates from that commercial property. E. If the measurement location is on boundary between two different noise zones, the lower noise level standard applicable to the noise zone shall apply. (Ord. 95-53 § 1, 1995; Ord. 95-38 § 11 (part), 1995) 10.26.030 Interior Noise Standards. A. The following noise standard, unless otherwise specifically indicated, shall apply to all residential property within all noise zones: NOISE ZONE TYPE OF LAND USE ALLOWABLE INTERIOR NOISE LEVEL (Equivalent Noise Level, Leq) 7 a.m. to 10 p.m.10 p.m. to 7 a.m. I Residential 45 DBA 40 DBA III Residential portions of mixed-use properties 45 DBA 40 DBA PA2019-249 If the ambient noise level exceeds the resulting standard, the ambient shall be the standard. B. It shall be unlawful for any person at any location within the incorporated area of the City to create any noise or to allow the creation of any noise on property owned, leased, occupied or otherwise controlled by such a person which causes the noise level when measured on any other property, to exceed either of the following: 1. The noise standard for the applicable zone for any fifteen-minute period; 2. A maximum instantaneous noise level equal to the value of the noise standard plus twenty (20) DBA for any period of time (measured using A-weighted slow response). C. In the event the ambient noise level exceeds the noise standard, the noise standard applicable to said category shall be increased to reflect the maximum ambient noise level. D. The Noise Zone III standard shall apply to that portion of residential property falling within one hundred (100) feet of a commercial property, if the intruding noise originates from that commercial property. E. If the measurement location is on a boundary between two different noise zones, the lower noise level standard applicable to the noise zone shall apply. (Ord. 95-53 § 2, 1995; Ord. 95-38 § 11 (part), 1995) 10.26.035 Exemptions. The following activities shall be exempted from the provisions of this chapter: A. Any activity conducted on public property, or on private properly with the consent of the owner, by any public entity, or its officers, employees, representatives, agents, subcontractors, permittees, licensees, or lessees, which are consistent with, and in furtherance of, the governmental functions or services the public entity has authorized, or responsible, to perform, activities which are exempt from the provisions of this chapter include, without limitation, sporting and recreational activities which are sponsored or co-sponsored by the City of Newport Beach or the Newport Mesa Unified School District; B. Occasional outdoor gatherings, public dances, show, sporting and entertainment events, provided said events are conducted pursuant to a permit or license issued by the appropriate jurisdiction relative to the staging of said events; C. Any mechanical device, apparatus or equipment used, related to or connected with emergency machinery, vehicle, work or warning alarm or bell, provided the sounding of any bell or alarm on any building or motor vehicle shall terminate its operation within forty-five (45) minutes in any hour of its being activated; D. Noise sources associated with construction, repair, remodeling, demolition or grading of any real property. Such activities shall instead be subject to the provisions of Chapter 10.28 of this title; E. Noise sources associated with construction, repair, remodeling, demolition or grading of public rights-of-way or during authorized seismic surveys; F. All mechanical devices, apparatus or equipment associated with agriculture operations provided that: 1. Operations do not take place between eight p.m. and seven a.m. on weekdays, including Saturday, or at any time Sunday or a federal holiday, or 2. Such operations and equipment are utilized for the protection or salvage of agricultural crops during periods of potential or actual frost damage or other adverse weather conditions, or 3. Such operations and equipment are associated with agricultural pest control through pesticide application, provided the application is made in accordance with permits issued by or regulations enforced PA2019-249 by the California Department of Agriculture; G. Noise sources associated with the maintenance of real property. Such activities shall instead be subject to the provisions of Chapter 10.28 of this title; H. Any activity to the extent regulation thereof has been preempted by state or federal law. NOTE: Preemption may include motor vehicle, aircraft in flight, and railroad noise regulations; I. Any noise sources associated with people and/or music associated with a party at a residential property. Such noise is difficult to measure under the terms of this chapter and instead shall be subject to the provisions of Chapters 10.28 and 10.58 of this title; J. Any noise sources associated with barking dogs or other intermittent noises made by animals on any properly within the City of Newport Beach. Such noise is difficult to measure under the terms of this chapter and instead shall be subject to the provisions of Chapter 7.20 of this Code; K. Any noise sources associated with the operation of a permanently installed heating, venting and air conditioning (HVAC) equipment on a residential property permitted under the provisions of Section 10.26.045(B) and (C); L. Any noise sources specifically identified and mitigated under the provisions of a use permit, modification permit, development agreement or planned community district development plan adopted prior to the date of adoption of this chapter. (Ord. 95-53 § 3, 1995; Ord. 95-38 § 11 (part), 1995) 10.26.040 Schools, Day Care Centers, Churches, Libraries, Museums, Health Care Institutions —Special Provisions. It is unlawful for any person to create any noise which causes the noise level at any school, day care center, hospital or similar health care institution, church, library or museum while the same is in use, to exceed the noise standards specified in Section 10.26.025 prescribed for the assigned Noise Zone I (residential uses). (Ord. 95-38 § 11 (part), 1995) 10.26.045 Heating, Venting and Air Conditioning—Special Provisions. A. New HVAC Equipment. New permits for heating, venting and air conditioning (HVAC) equipment in or adjacent to residential areas shall be issued only where installations can be shown by computation, based on the sound rating of the proposed equipment, not to exceed an A-weighted sound pressure level of fifty (50) DBA or not to exceed an A-weighted sound pressure level of fifty-five (55) dBA and be installed with a timing device that will deactivate the equipment during the hours of ten p.m. to seven a.m. The method of computation used shall be that specified in “Standard Application of Sound Rated Outdoor Unitary Equipment,” Standard 275, Air conditioning and Refrigeration Institute, 1984 or latest revision thereof. B. Existing HVAC Equipment. 1. HVAC equipment legally installed prior to April 22, 1981, shall be permitted to operate with an exterior noise limit of sixty-five (65) dBA until January 1, 1998. 2. HVAC equipment legally installed prior to April 22, 1981, shall be exempted from the interior noise level standard as specified in Section 10.26.030 of this chapter until January 1, 1998. 3. HVAC equipment legally installed after April 22, 1981, and prior to the date of adoption of this chapter shall not exceed a maximum exterior noise limit of fifty-five (55) dBA during the ninety-day compliance period set forth in Section 10.26.005. PA2019-249 C. In the event that HVAC equipment cannot meet the requirements set forth in this chapter, then the exterior noise limit for such equipment may be raised to sixty-five (65) dBA and exempted from the interior noise level standard as specified in Section 10.26.030 of this chapter, provided that the applicant obtains the written consent of all the owners of the affected properties. (Ord. 95-38 § 11 (part), 1995) 10.26.050 Sound-Amplifying Equipment. Loudspeakers, sound amplifiers, public address systems or similar devices used to amplify sounds shall be subject to the provisions of Chapter 10.32 of this title. Such sound-amplifying equipment shall not be construed to include electronic devices, including but not limited to, radios, tape players, tape recorders, compact disc players, electric keyboards, music synthesizers, record players or televisions, which are designed and operated for personal use, or used entirely within a building and are not designed or used to convey the human voice, music or any other sound to an audience outside such building, or which are used in vehicles and heard only by occupants of the vehicle in which installed, which shall be subject to the provisions of Chapter 10.28 of this title. (Ord. 95-38 § 11 (part), 1995) 10.26.055 Noise Level Measurement. A. The location selected for measuring exterior noise levels in a residential area shall be at any part of a private yard, patio, deck or balcony normally used for human activity and identified by the owner of the affected property as suspected of exceeding the noise level standard. This location may be the closest point in the private yard or patio, or on the deck or balcony, to the noise source, but should not be located in nonhuman activity areas such as trash container storage areas, planter beds, above or contacting a property line fence, or other areas not normally used as part of the yard, patio, deck or balcony. The location selected for measuring exterior noise levels in a nonresidential area shall be at the closest point to the noise source. The measurement microphone height shall be five feet above finish elevation or, in the case of a deck or balcony, the measurement microphone height shall be five feet above the finished floor level. B. The location selected for measuring interior noise levels shall be made within the affected residential unit. The measurements shall be made at a point at least four feet from the wall, ceiling or floor, or within the frame of a window opening, nearest the noise source. The measurements shall be made with windows in an open position. (Ord. 95-38 § 11 (part), 1995) 10.26.065 Proposed Developments. Each department whose duty it is to review and approve new projects or changes to existing projects that result or may result in the creation of noise shall consult with the Code Enforcement Officer prior to any such approval. If at any time the Code Enforcement Officer has reason to believe that a standard, regulation, action, proposed standard, regulation or action of any department respecting noise does not conform to the provisions as specified in this chapter, the Code Enforcement Officer may request such department to consult with him on the advisability of revising such standard or regulation to obtain uniformity. (Ord. 95-38 § 11 (part), 1995) 10.26.070 Prima Facie Violation. Any noise exceeding the noise level standard as specified in Section 10.26.025 and 10.26.030 of this chapter, shall be deemed to be prima facie evidence of a violation of the provisions of this chapter. (Ord. 95-38 § 11 (part), 1995) 10.26.075 Violations. Any persons violating any of the provisions of this chapter shall be deemed guilty of an infraction. (Ord. 95-38 § 11 (part), 1995) PA2019-249 10.26.080 Violations—Additional Remedies—Injunctions. A. As an additional remedy, the operation or maintenance of any device, instrument, vehicle or machinery in violation of any provisions of this chapter which operation or maintenance causes or creates sound levels exceeding the allowable standards as specified in this chapter shall be deemed and is declared to be a public nuisance and may be subject to abatement summarily by a restraining order or injunction issued by a court of competent jurisdiction. B. Any violation of this chapter is declared to be a public nuisance and may be abated in accordance with law. The expense of this chapter is declared to be public nuisance and may be by resolution of the City Council declared to be a lien against the property on which such nuisance is maintained, and such lien shall be made a personal obligation of the property owner. (Ord. 95-38 § 11 (part), 1995) 10.26.085 City Manager Waiver. The City Manager is authorized to grant a temporary waiver to the provisions of this chapter for a period of time not to exceed thirty (30) days if such temporary waiver would be in the public interest and there is no feasible and prudent alternative to the activity, or the method of conducting the activity, for which the temporary waiver is sought. (Ord. 95-38 § 11 (part), 1995) 10.26.090 Noise Abatement Programs. A. In circumstances which adopted community-wide noise standards and policies prove impractical in controlling noise generated from a specific source, the City Council may establish a noise abatement program which recognizes the characteristics of the noise source and affected property and which incorporates specialized mitigation measures. B. Noise abatement programs shall set forth in detail the approved terms, conditions and requirements for achieving maximum compliance with noise standards and policies. Said terms, conditions and requirements may include, but shall not be limited to, limitations, restrictions, or prohibitions on operating hours, location of operations, and the types of equipment. (Ord. 95-38 § 11 (part), 1995) 10.26.095 Manner of Enforcement. A. The City Code Enforcement Officer is directed to enforce the provisions of this chapter and may issue citations for any violation of the provisions of this chapter or violations of this chapter may be prosecuted or enforced in the same manner as other infractions pursuant to this Code; provided, however, that in the event of an initial violation of the provisions of this chapter, a written notice may be given to the alleged violator which specifies the time by which the condition shall be corrected. B. No person shall interfere with, oppose or resist any authorized person charged with the enforcement of this chapter while such person is engaged in the performance of his/her duty. C. In the event the alleged violator cannot be located in order to serve any notice, the notice shall be deemed to be given upon mailing such notice by registered or certified mail to the alleged violator at his last known address or at the place where the violation occurred in which event the specified time period for abating the violation or applying for a variance shall commence at the date of the day following the mailing of such notice. (Ord. 95-38 § 11 (part), 1995) 10.26.100 Severability. If any provision, clause, sentence, or paragraph of this chapter, or the application thereof to any person or circumstance shall be held invalid, such invalidity shall not affect the other provisions of this chapter which can be PA2019-249 given effect without the invalid provisions or application and, to this end, the provisions of this chapter are hereby declared to be severable. (Ord. 95-38 § 11 (part), 1995) The Newport Beach Municipal Code is current through Ordinance 2019-14, passed September 10, 2019. Disclaimer: The City Clerk's Office has the official version of the Newport Beach Municipal Code. Users should contact the City Clerk's Office for ordinances passed subsequent to the ordinance cited above. PA2019-249 This page intentionally left blank PA2019-249 APPENDIX 3.2: CITY OF NEWPORT BEACH MUNICIPAL CODE CHAPTER 10.28 PA2019-249 This page intentionally left blank PA2019-249 Chapter 10.28 LOUD AND UNREASONABLE NOISE* Sections: 10.28.005 Policy. 10.28.007 Loud and Unreasonable Noise is Prohibited. 10.28.010 Loud and Unreasonable Noise. 10.28.020 Loud and Raucous Noise from Sound-Making or Amplifying Devices Prohibited. 10.28.040 Construction Activity—Noise Regulations. 10.28.045 Real Property Maintenance—Noise Regulations. 10.28.050 Exceptions. * Sound-amplifying equipment—See Chapter 10.32. Prior history: 1949 Code § 4208; Ords. 1191, 1802, 87-11, 87-17 and 93-7. 10.28.005 Policy. It is found and declared as follows: A. The making, allowing, creation or maintenance of loud and unreasonable, unnecessary, or unusual noises which are prolonged, unusual, annoying, disturbing and/or unreasonable in their time, place and use are a detriment to public health, comfort, convenience, safety, general welfare and the peace and quiet of the City and its inhabitants. B. The necessity in the public interest for the provisions and prohibitions contained and enacted is to declare as a matter of legislative determination and public policy, and it is further declared that the provisions and prohibitions contained and enacted are in pursuance of and for the purpose of securing and promoting the public health, comfort, convenience, safety, general welfare and property and the peace and quiet of the City and its inhabitants. (Ord. 2001-4 § 1, 2001) 10.28.007 Loud and Unreasonable Noise is Prohibited. It is unlawful for any person or property owner to make, continue, cause or allow to be made any loud, unreasonable, unusual, penetrating or boisterous noise, disturbance or commotion which annoys, disturbs, injures or endangers the comfort, repose, health, peace and quiet within the limits of the City, and the acts and things listed in this chapter, among others, are declared to be loud, disturbing, injurious and unreasonable noises in violation of this Chapter, but shall not be deemed to be exclusive. (Ord. 2001-4 § 2, 2001) 10.28.010 Loud and Unreasonable Noise. It is unlawful for any person or property owner to willfully make, allow, continue or cause to be made, allowed, or continued, any loud and unreasonable, unnecessary, or disturbing noise, including, but not limited to, yelling, shouting, hooting, whistling, singing, playing music, or playing a musical instrument, which disturbs the peace, comfort, quiet or repose of any area or which causes discomfort or annoyance to any reasonable person of normal sensitivities in the area, after a peace or code enforcement officer has first requested that the person or property owner cease and desist from making or continuing, or causing to make or continue, such loud, unreasonable, unnecessary, excessive or disturbing noise. The factors, standards, and conditions which should be considered in determining whether a violation of the provisions of this section has been committed, include, but are not limited to, the following: A. The level of the noise; PA2019-249 B. Whether the nature of the noise is usual or unusual; C. Whether the origin of the noise is natural or unnatural; D. The level and intensity of the background (ambient) noise, if any; E. The proximity of the noise to residential or commercial sleeping areas; F. The nature and zoning of the area within which the noise emanates; G. The density of inhabitation of the area within which the noise emanates; H. The time of day and night the noise occurs; I. The duration of the noise; J. Whether the noise is constant, or recurrent or intermittent; and K. Whether the noise is produced by a commercial or noncommercial activity; L. If the noise is produced by a commercial activity, whether the use is lawful under the provisions of Title 20 of this Code and whether the noise is one that could reasonably be expected from the commercial activity. M. Penalties. Any person who violates any provision of this section is guilty of a misdemeanor, unless the violation is deemed an infraction pursuant to the provisions of Section 1.04.010 of this Code. (Ord. 2001-4 § 3 (part), 2001: Ord. 95-38 § 3 (part), 1995) 10.28.020 Loud and Raucous Noise from Sound-Making or Amplifying Devices Prohibited. A. It is unlawful for any person to cause, allow or permit the emission or transmission of any loud or raucous noise from any sound-making or sound-amplifying device in his possession or under his control: 1. Upon any private property; or 2. Upon any public street, alley, sidewalk or thoroughfare; or 3. In or upon any public park, beach or other public place or property. B. The words “loud and raucous noise,” as used herein, shall mean any sound or any recording thereof when amplified or increased by any electrical, mechanical or other device to such volume, intensity or carrying power as to unreasonably interfere with the peace and quiet of other persons within or upon any one or more of such places or areas, or as to unreasonably annoy, disturb, impair or endanger the comfort, repose, health, or safety of other persons within or upon any one or more such places or areas. C. The word “unreasonably,” as used herein, shall include, but not be limited to, consideration of the hour, place, nature and circumstances of the emission or transmission of any such loud and raucous noise. D. Penalties. Any person who violates any provision of this section is guilty of a misdemeanor unless the violation is deemed an infraction pursuant to the provisions of Section 1.04.010 of this Code. (Ord. 2001-4 § 3 (part), 2001: Ord. 95-38 § 3 (part), 1995) 10.28.040 Construction Activity—Noise Regulations. A. No person shall, while engaged in construction, remodeling, digging, grading, demolition, painting, plastering or any other related building activity, operate any tool, equipment or machine in a manner which produces loud PA2019-249 noise that disturbs, or could disturb, a person of normal sensitivity who works or resides in the vicinity, unless authorized to do so in accordance with subsection (B) of this section. B. The provisions of subsection (A) of this section shall not apply to the following: 1. Work performed on any weekday, which is not a federal holiday, between the hours of 7:00 a.m. and 6:30 p.m. 2. Work performed on a Saturday, in any area of the City that is not designated as a high-density area, between the hours of 8:00 a.m. and 6:00 p.m. 3. Emergency work performed pursuant to written authorization of the Community Development Director, or his or her designee. 4. Maintenance, repair or improvement of any public work or facility by public employees, by any person or persons acting pursuant to a public works contract, or by any person or persons performing such work or pursuant to the direction of, or on behalf of, any public agency; provided, however, this exception shall not apply to the City of Newport Beach, or its employees, contractors or agents, unless: a. The City Manager or department director determines that the maintenance, repair or improvement is immediately necessary to maintain public services; b. The maintenance, repair or improvement is of a nature that cannot feasibly be conducted during normal business hours; or c. The City Council has approved project specifications, contract provisions, or an environmental document that specifically authorizes construction during hours of the day which would otherwise be prohibited pursuant to this section. C. No landowner, construction company owner, contractor, subcontractor, or employer shall permit or allow any person or persons working under their direction and control to operate any tool, equipment or machine in violation of the provisions of this section. D. Any person who violates any provision of this section is guilty of a misdemeanor unless the violation is deemed an infraction pursuant to the provisions of Section 1.04.010, or any successor section, of this Code. E. Designated High-Density Area. The term “designated high-density area” shall mean any shaded area on the following map. See Exhibit A *. The geographical boundaries of a homeowners’ association, as defined in subsection (F) of this section, shall be excluded from the definition of a “designated high-density area” if the City Council adopts a resolution pursuant to subsection (F) of this section. F. A homeowners’ association located within a designated high-density area may exclude the geographical boundaries of the homeowners’ association from the definition of a designated high-density area if: 1. The board of directors of the homeowners’ association votes to approve a resolution or letter declaring its desire to exempt its geographical boundaries from the definition of a designated high-density area; 2. The board of directors submits the approved resolution or letter to the City Clerk for consideration by the City Council; and 3. The City Council adopts a resolution finding that exempting the geographical boundaries of the homeowners’ association from the definition of a designated high-density area will not negatively affect surrounding property owners. PA2019-249 For the purpose of this subsection, a “homeowners’ association” means an organization consisting of at least thirty (30) voting members whose properties connect in a contiguous manner and whose operation is governed by a board of directors. (Ord. 2019-11 §§ 1, 2, 2019; Ord. 2019-9 § 1, 2019: Ord. 2013-11 § 35, 2013; Ord. 2001-4 § 3 (part), 2001: Ord. 95-38 § 3 (part), 1995) *Exhibit A is on file in the City Clerk’s office. 10.28.045 Real Property Maintenance—Noise Regulations. A. Weekdays and Saturdays. No person shall, while engaged in maintenance of real property, operate any tool, equipment or machine in a manner which produces loud noise that disturbs, or could disturb, a person of normal sensitivity who works or resides in the vicinity, except between the hours of seven a.m. and six-thirty p.m., Monday through Friday, nor on any Saturday, except between the hours of eight a.m. and six p.m. B. Sundays and Holidays. No person shall, while engaged in maintenance of real property, operate any tool, equipment or machine in a manner which produces loud noise that disturbs, or could disturb, a person of normal sensitivity who works or resides in the vicinity, on any Sunday or any federal holiday. C. No landowner, gardener, property maintenance service, contractor, subcontractor or employer shall permit or allow any person or persons working under their direction and control to operate any tool, equipment or machine in violation of the provisions of this section. D. After January 1, 1996, mechanical blowers, as defined in Section 6.04.055, shall not be operated at a noise level that exceeds an A-weighted sound pressure level of seventy (70) dBA, as measured at a distance of fifty (50) feet. After January 1, 1999, such equipment shall not be operated at a noise level that exceeds an A- weighted sound pressure level of sixty-five (65) dBA, as measured from a distance of fifty (50) feet. E. Exceptions. The provisions of this section shall not apply to the following: 1. Emergency property maintenance authorized by the Community Development Director, or his or her designee; 2. The maintenance, repair or improvement of any public work or facility by public employees, by any person or persons acting pursuant to a public works contract, or by any person or persons performing such work or pursuant to the direction of, or on behalf of, any public agency; provided, however, this exception shall not apply to the City of Newport Beach, or its employees, contractors or agents, unless: a. The City Manager or department director determines that the maintenance, repair or improvement is immediately necessary to maintain public service, b. The maintenance, repair or improvement is of a nature that cannot feasibly be conducted during normal business hours, c. The City Council has approved project specifications, contract provisions, or an environmental document that specifically authorizes construction during hours of the day which would otherwise be prohibited pursuant to this section; 3. Greens maintenance on golf courses conducted between the hours of six a.m. and eight p.m. and all other types of golf course maintenance between the hours of seven a.m. and eight p.m., provided no maintenance activity commences before six a.m. F. Penalties. Any person who violates any provision of this section is guilty of a misdemeanor unless the violation is deemed an infraction pursuant to the provisions of Section 1.04.010 of this Code. (Ord. 2019-9 § 2, 2019; Ord. 2001-4 § 3 (part), 2001: Ord. 95-38 § 3 (part), 1995) PA2019-249 10.28.050 Exceptions. The provisions of Sections 10.28.040 and 10.28.045 shall not be construed to prohibit such work at different hours by or under the direction of any other public agency in cases of necessity or emergency. (Ord. 2001-4 § 3 (part), 2001: Ord. 95-38 § 3 (part), 1995) The Newport Beach Municipal Code is current through Ordinance 2019-14, passed September 10, 2019. Disclaimer: The City Clerk's Office has the official version of the Newport Beach Municipal Code. Users should contact the City Clerk's Office for ordinances passed subsequent to the ordinance cited above. PA2019-249 This page intentionally left blank PA2019-249 APPENDIX 5.1: STUDY AREA PHOTOS PA2019-249 This page intentionally left blank PA2019-249 JN: 12954 Study Area Photos L1_E 33, 37' 13.530000", 117, 55' 20.010000" L1_N 33, 37' 14.540000", 117, 55' 22.710000" L1_S 33, 37' 12.860000", 117, 55' 21.280000" L1_W 33, 37' 13.690000", 117, 55' 19.880000" L2_E 33, 37' 13.550000", 117, 55' 18.700000" L2_N 33, 37' 13.550000", 117, 55' 18.640000" PA2019-249 JN: 12954 Study Area Photos L2_S 33, 37' 13.550000", 117, 55' 18.640000" L2_W 33, 37' 13.520000", 117, 55' 18.700000" L3_E 33, 37' 14.540000", 117, 55' 15.670000" L3_N 34, 0' 45.150000", 117, 23' 11.060000" L3_S 33, 37' 13.780000", 117, 55' 16.960000" L3_W 33, 37' 14.770000", 117, 55' 15.700000" PA2019-249 JN: 12954 Study Area Photos L4_E 33, 37' 12.920000", 117, 55' 16.660000" L4_N 33, 37' 12.900000", 117, 55' 16.660000" L4_S 33, 37' 12.920000", 117, 55' 16.660000" L4_W 33, 37' 12.930000", 117, 55' 16.660000" L5_E 33, 37' 13.110000", 117, 55' 20.010000" L5_N 33, 37' 13.530000", 117, 55' 19.600000" PA2019-249 JN: 12954 Study Area Photos L5_S 33, 37' 13.110000", 117, 55' 20.010000" L5_W 33, 37' 13.340000", 117, 55' 19.770000" PA2019-249 APPENDIX 5.2: NOISE LEVEL MEASUREMENT WORKSHEETS PA2019-249 This page intentionally left blank PA2019-249 Date:Location:Meter:Piccolo II JN:12954 Project:2510 PCH Mixed-Use Development Analyst:P. Mara Timeframe Hour L eq L max L min L1%L2%L5%L8%L25%L50%L90%L95%L99%L eq Adj.Adj. L eq 0 48.2 54.5 45.6 53.9 51.3 50.0 47.3 45.9 45.7 0.0 0.0 0.0 48.2 10.0 58.2 1 44.7 51.9 42.0 51.5 49.1 46.5 43.5 42.3 42.0 0.0 0.0 0.0 44.7 10.0 54.7 2 49.3 55.6 45.9 55.1 52.6 51.5 48.4 46.1 45.9 0.0 0.0 0.0 49.3 10.0 59.3 3 45.8 48.3 43.9 48.1 47.4 47.0 45.6 44.3 44.0 0.0 0.0 0.0 45.8 10.0 55.8 4 54.7 66.5 48.5 65.9 61.6 56.4 50.4 48.7 48.6 0.0 0.0 0.0 54.7 10.0 64.7 5 51.0 56.6 48.3 56.4 54.7 52.9 50.2 48.6 48.4 0.0 0.0 0.0 51.0 10.0 61.0 6 64.4 76.0 52.0 75.6 72.4 68.4 55.3 52.8 52.3 0.0 0.0 0.0 64.4 10.0 74.4 7 64.4 76.4 52.1 76.0 72.3 68.0 55.9 52.7 52.2 0.0 0.0 0.0 64.4 0.0 64.4 8 59.1 70.6 50.0 69.7 65.6 61.9 55.0 50.5 50.1 0.0 0.0 0.0 59.1 0.0 59.1 9 63.7 72.0 56.4 71.5 68.8 66.7 61.8 57.4 56.6 0.0 0.0 0.0 63.7 0.0 63.7 10 60.4 68.7 54.8 68.2 65.4 63.4 58.2 55.5 55.0 0.0 0.0 0.0 60.4 0.0 60.4 11 59.4 72.5 51.5 71.0 65.3 61.6 54.9 52.0 51.6 0.0 0.0 0.0 59.4 0.0 59.4 12 57.4 66.9 51.9 66.4 63.1 60.3 54.8 52.3 52.0 0.0 0.0 0.0 57.4 0.0 57.4 13 58.1 67.5 51.7 67.0 63.9 61.6 55.1 52.2 51.9 0.0 0.0 0.0 58.1 0.0 58.1 14 58.5 66.5 52.1 66.0 63.7 62.4 55.5 52.5 52.2 0.0 0.0 0.0 58.5 0.0 58.5 15 58.0 65.3 54.3 64.9 62.5 60.4 56.5 54.7 54.4 0.0 0.0 0.0 58.0 0.0 58.0 16 60.3 69.5 54.4 69.0 66.1 63.7 57.5 54.8 54.5 0.0 0.0 0.0 60.3 0.0 60.3 17 59.8 70.2 53.3 69.6 66.2 62.8 56.5 53.7 53.4 0.0 0.0 0.0 59.8 0.0 59.8 18 59.1 68.8 53.2 68.4 65.1 61.9 56.4 53.6 53.3 0.0 0.0 0.0 59.1 0.0 59.1 19 58.3 67.8 51.5 67.6 64.9 62.4 54.5 52.1 51.6 0.0 0.0 0.0 58.3 5.0 63.3 20 54.2 62.3 49.7 61.9 59.1 56.7 52.3 50.1 49.8 0.0 0.0 0.0 54.2 5.0 59.2 21 54.8 62.3 50.5 61.9 59.9 57.9 53.0 50.9 50.6 0.0 0.0 0.0 54.8 5.0 59.8 22 51.2 59.4 47.2 58.8 56.0 54.0 49.4 47.5 47.3 0.0 0.0 0.0 51.2 10.0 61.2 23 46.4 55.0 41.8 54.7 52.3 49.9 44.0 42.1 41.9 0.0 0.0 0.0 46.4 10.0 56.4 Timeframe Hour L eq L max L min L1%L2%L5%L8%L25%L50%L90%L95%L99% Min 57.4 65.3 50.0 64.9 62.5 60.3 54.8 50.5 50.1 0.0 0.0 0.0 Max 64.4 76.4 56.4 76.0 72.3 68.0 61.8 57.4 56.6 0.0 0.0 0.0 60.4 69.0 65.7 62.9 56.5 53.5 53.1 0.0 0.0 0.0 Min 54.2 62.3 49.7 61.9 59.1 56.7 52.3 50.1 49.8 0.0 0.0 0.0 Max 58.3 67.8 51.5 67.6 64.9 62.4 54.5 52.1 51.6 0.0 0.0 0.0 56.2 63.8 61.3 59.0 53.3 51.0 50.7 0.0 0.0 0.0 Min 44.7 48.3 41.8 48.1 47.4 46.5 43.5 42.1 41.9 0.0 0.0 0.0 Max 64.4 76.0 52.0 75.6 72.4 68.4 55.3 52.8 52.3 0.0 0.0 0.0 56.0 57.8 55.3 53.0 48.2 46.5 46.2 0.0 0.0 0.0 56.0 24-Hour Noise Level Measurement Summary Hourly L eq dBA Readings (unadjusted) L eq (dBA) Night Wednesday, October 2, 2019 24-Hour Daytime Nighttime L1 - Located south of 204 Tustin Ave near the side yard of the single-family home. 24-Hour CNEL (dBA) 63.5 Evening Day Evening Energy Average Night Day Night Energy Average Energy Average Average: Average: Average: 58.8 59.948.244.749.345.854.751.064.464.459.163.760.459.457.458.158.558.060.359.859.158.354.254.851.246.435.0 40.0 45.0 50.0 55.0 60.0 65.0 70.0 75.0 80.0 85.0 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23Hourly Leq(dBA)Hour Beginning U:\UcJobs\_12600-13000\_12900\12954\Field Work\Measurements\12954_L1_N PA2019-249 Date:Location:Meter:Piccolo II JN:12954 Project:2510 PCH Mixed-Use Development Analyst:P. Mara Timeframe Hour L eq L max L min L1%L2%L5%L8%L25%L50%L90%L95%L99%L eq Adj.Adj. L eq 0 49.0 56.7 40.5 56.5 56.0 55.6 42.4 40.7 40.6 0.0 0.0 0.0 49.0 10.0 59.0 1 42.6 49.5 39.7 49.2 47.1 45.2 41.0 39.9 39.8 0.0 0.0 0.0 42.6 10.0 52.6 2 53.0 60.6 40.7 60.6 60.4 60.3 44.1 41.2 40.8 0.0 0.0 0.0 53.0 10.0 63.0 3 43.4 48.9 41.5 48.6 46.4 44.9 42.7 41.8 41.6 0.0 0.0 0.0 43.4 10.0 53.4 4 47.1 54.6 43.8 54.2 52.0 49.1 45.5 44.1 43.9 0.0 0.0 0.0 47.1 10.0 57.1 5 49.2 56.1 45.6 55.7 53.3 51.5 48.1 45.9 45.7 0.0 0.0 0.0 49.2 10.0 59.2 6 56.3 65.1 49.3 64.6 62.3 60.5 53.1 49.9 49.5 0.0 0.0 0.0 56.3 10.0 66.3 7 59.8 68.6 51.3 68.3 66.8 64.5 55.1 52.0 51.5 0.0 0.0 0.0 59.8 0.0 59.8 8 57.5 71.0 48.7 68.9 62.1 60.1 54.0 49.5 48.9 0.0 0.0 0.0 57.5 0.0 57.5 9 56.1 62.0 51.2 61.5 59.8 58.8 55.2 51.9 51.4 0.0 0.0 0.0 56.1 0.0 56.1 10 64.7 71.7 61.2 71.3 68.9 67.4 63.1 61.6 61.3 0.0 0.0 0.0 64.7 0.0 64.7 11 54.4 59.9 49.2 59.5 58.0 57.1 53.3 49.9 49.4 0.0 0.0 0.0 54.4 0.0 54.4 12 54.6 60.3 50.2 59.8 58.1 56.9 53.8 50.8 50.3 0.0 0.0 0.0 54.6 0.0 54.6 13 55.9 63.6 48.8 63.0 60.9 59.6 53.4 49.6 49.0 0.0 0.0 0.0 55.9 0.0 55.9 14 54.2 60.1 48.0 59.7 58.3 57.4 52.7 48.5 48.1 0.0 0.0 0.0 54.2 0.0 54.2 15 53.5 59.3 49.4 58.6 57.0 56.0 52.6 49.8 49.5 0.0 0.0 0.0 53.5 0.0 53.5 16 56.1 64.6 50.3 64.0 61.8 59.8 53.6 50.9 50.5 0.0 0.0 0.0 56.1 0.0 56.1 17 56.2 63.2 49.6 62.7 61.0 59.8 53.4 50.2 49.7 0.0 0.0 0.0 56.2 0.0 56.2 18 54.5 61.6 49.3 61.2 59.0 57.4 53.0 49.9 49.4 0.0 0.0 0.0 54.5 0.0 54.5 19 53.4 60.8 48.1 60.5 58.6 56.4 51.7 48.6 48.2 0.0 0.0 0.0 53.4 5.0 58.4 20 50.8 57.9 45.5 57.4 55.2 53.5 49.5 46.0 45.6 0.0 0.0 0.0 50.8 5.0 55.8 21 54.8 59.5 52.5 59.1 57.3 56.3 54.2 52.9 52.6 0.0 0.0 0.0 54.8 5.0 59.8 22 51.1 56.1 48.0 55.8 54.2 53.0 50.4 48.3 48.1 0.0 0.0 0.0 51.1 10.0 61.1 23 44.3 51.5 39.7 51.1 49.1 47.4 42.4 40.0 39.8 0.0 0.0 0.0 44.3 10.0 54.3 Timeframe Hour L eq L max L min L1%L2%L5%L8%L25%L50%L90%L95%L99% Min 53.5 59.3 48.0 58.6 57.0 56.0 52.6 48.5 48.1 0.0 0.0 0.0 Max 64.7 71.7 61.2 71.3 68.9 67.4 63.1 61.6 61.3 0.0 0.0 0.0 57.9 63.2 61.0 59.6 54.4 51.2 50.7 0.0 0.0 0.0 Min 50.8 57.9 45.5 57.4 55.2 53.5 49.5 46.0 45.6 0.0 0.0 0.0 Max 54.8 60.8 52.5 60.5 58.6 56.4 54.2 52.9 52.6 0.0 0.0 0.0 53.3 59.0 57.0 55.4 51.8 49.2 48.8 0.0 0.0 0.0 Min 42.6 48.9 39.7 48.6 46.4 44.9 41.0 39.9 39.8 0.0 0.0 0.0 Max 56.3 65.1 49.3 64.6 62.3 60.5 53.1 49.9 49.5 0.0 0.0 0.0 50.6 55.1 53.4 52.0 45.5 43.5 43.3 0.0 0.0 0.0 50.6 24-Hour Noise Level Measurement Summary Hourly L eq dBA Readings (unadjusted) L eq (dBA) Night Wednesday, October 2, 2019 24-Hour Daytime Nighttime L2 - Located near the parking meters in the parking lot adjacent to 124 Tustin Ave. 24-Hour CNEL (dBA) 59.2 Evening Day Evening Energy Average Night Day Night Energy Average Energy Average Average: Average: Average: 55.8 57.349.042.653.043.447.149.256.359.857.556.164.754.454.655.954.253.556.156.254.553.450.854.851.144.335.0 40.0 45.0 50.0 55.0 60.0 65.0 70.0 75.0 80.0 85.0 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23Hourly Leq(dBA)Hour Beginning U:\UcJobs\_12600-13000\_12900\12954\Field Work\Measurements\12954_L2_M PA2019-249 Date:Location:Meter:Piccolo II JN:12954 Project:2510 PCH Mixed-Use Development Analyst:P. Mara Timeframe Hour L eq L max L min L1%L2%L5%L8%L25%L50%L90%L95%L99%L eq Adj.Adj. L eq 0 42.7 46.6 40.0 46.5 45.8 45.2 41.9 40.2 40.0 0.0 0.0 0.0 42.7 10.0 52.7 1 40.5 43.2 38.6 43.2 42.8 42.3 40.0 38.7 38.7 0.0 0.0 0.0 40.5 10.0 50.5 2 46.5 49.3 43.9 49.3 49.0 48.5 46.1 44.2 44.0 0.0 0.0 0.0 46.5 10.0 56.5 3 49.5 55.6 46.3 55.4 54.2 52.7 47.7 46.4 46.3 0.0 0.0 0.0 49.5 10.0 59.5 4 46.1 47.6 44.9 47.6 47.4 47.2 45.9 45.0 44.9 0.0 0.0 0.0 46.1 10.0 56.1 5 47.3 49.8 45.4 49.8 49.5 49.0 46.9 45.6 45.4 0.0 0.0 0.0 47.3 10.0 57.3 6 48.7 50.5 47.3 50.5 50.2 50.0 48.5 47.4 47.3 0.0 0.0 0.0 48.7 10.0 58.7 7 49.0 50.3 47.8 50.2 50.0 49.9 48.9 47.9 47.8 0.0 0.0 0.0 49.0 0.0 49.0 8 49.3 51.0 47.8 51.0 50.7 50.5 49.1 48.0 47.9 0.0 0.0 0.0 49.3 0.0 49.3 9 56.3 57.5 54.9 57.5 57.4 57.3 56.3 55.0 54.9 0.0 0.0 0.0 56.3 0.0 56.3 10 56.4 60.3 51.7 60.3 59.9 59.4 54.8 52.0 51.8 0.0 0.0 0.0 56.4 0.0 56.4 11 54.1 56.4 52.0 56.3 56.0 55.6 53.9 52.2 52.1 0.0 0.0 0.0 54.1 0.0 54.1 12 52.1 53.9 50.7 53.9 53.6 53.4 51.8 50.8 50.7 0.0 0.0 0.0 52.1 0.0 52.1 13 53.3 56.1 50.7 56.0 55.7 55.3 52.9 50.9 50.7 0.0 0.0 0.0 53.3 0.0 53.3 14 56.0 59.1 53.3 59.0 58.6 58.0 55.5 53.5 53.3 0.0 0.0 0.0 56.0 0.0 56.0 15 53.8 58.1 51.6 58.0 57.2 56.2 52.9 51.8 51.7 0.0 0.0 0.0 53.8 0.0 53.8 16 55.3 58.4 52.8 58.3 58.0 57.5 54.8 53.0 52.9 0.0 0.0 0.0 55.3 0.0 55.3 17 53.7 57.1 51.4 57.0 56.6 56.0 53.0 51.5 51.4 0.0 0.0 0.0 53.7 0.0 53.7 18 54.0 56.9 51.7 56.8 56.4 55.9 53.5 51.9 51.8 0.0 0.0 0.0 54.0 0.0 54.0 19 50.5 52.2 49.3 52.1 51.9 51.6 50.3 49.4 49.3 0.0 0.0 0.0 50.5 5.0 55.5 20 49.2 51.3 47.5 51.2 50.9 50.6 49.0 47.7 47.6 0.0 0.0 0.0 49.2 5.0 54.2 21 49.1 51.0 47.6 50.9 50.6 50.3 48.9 47.7 47.6 0.0 0.0 0.0 49.1 5.0 54.1 22 48.1 50.4 46.1 50.3 50.0 49.7 47.7 46.3 46.1 0.0 0.0 0.0 48.1 10.0 58.1 23 45.2 47.8 43.0 47.7 47.4 46.9 44.8 43.2 43.1 0.0 0.0 0.0 45.2 10.0 55.2 Timeframe Hour L eq L max L min L1%L2%L5%L8%L25%L50%L90%L95%L99% Min 49.0 50.3 47.8 50.2 50.0 49.9 48.9 47.9 47.8 0.0 0.0 0.0 Max 56.4 60.3 54.9 60.3 59.9 59.4 56.3 55.0 54.9 0.0 0.0 0.0 54.2 56.2 55.8 55.4 53.1 51.6 51.4 0.0 0.0 0.0 Min 49.1 51.0 47.5 50.9 50.6 50.3 48.9 47.7 47.6 0.0 0.0 0.0 Max 50.5 52.2 49.3 52.1 51.9 51.6 50.3 49.4 49.3 0.0 0.0 0.0 49.7 51.4 51.2 50.9 49.4 48.3 48.2 0.0 0.0 0.0 Min 40.5 43.2 38.6 43.2 42.8 42.3 40.0 38.7 38.7 0.0 0.0 0.0 Max 49.5 55.6 47.3 55.4 54.2 52.7 48.5 47.4 47.3 0.0 0.0 0.0 46.8 48.9 48.5 47.9 45.5 44.1 44.0 0.0 0.0 0.0 24-Hour CNEL (dBA) 55.4 Evening Day Evening Energy Average Night Day Night Energy Average Energy Average Average: Average: Average: 52.0 53.6 46.8 24-Hour Noise Level Measurement Summary Hourly L eq dBA Readings (unadjusted) L eq (dBA) Night Wednesday, October 2, 2019 24-Hour Daytime Nighttime L3 - Located in the parking lot South of Newport Theatre Arts Center.42.740.546.549.546.147.348.749.049.356.356.454.152.153.356.053.855.353.754.050.549.249.148.145.235.0 40.0 45.0 50.0 55.0 60.0 65.0 70.0 75.0 80.0 85.0 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23Hourly Leq(dBA)Hour Beginning U:\UcJobs\_12600-13000\_12900\12954\Field Work\Measurements\12954_L3_K PA2019-249 Date:Location:Meter:Piccolo II JN:12954 Project:2510 PCH Mixed-Use Development Analyst:P. Mara Timeframe Hour L eq L max L min L1%L2%L5%L8%L25%L50%L90%L95%L99%L eq Adj.Adj. L eq 0 47.2 57.3 44.8 53.1 49.4 48.7 46.5 45.4 45.1 0.0 0.0 0.0 47.2 10.0 57.2 1 46.1 54.6 43.5 52.8 48.7 48.0 45.2 44.1 43.8 0.0 0.0 0.0 46.1 10.0 56.1 2 50.4 55.9 45.2 55.2 54.3 53.7 49.1 46.1 45.5 0.0 0.0 0.0 50.4 10.0 60.4 3 47.8 50.9 45.8 50.2 49.4 48.9 47.6 46.5 46.2 0.0 0.0 0.0 47.8 10.0 57.8 4 50.7 54.4 48.7 53.5 52.6 52.0 50.3 49.2 48.9 0.0 0.0 0.0 50.7 10.0 60.7 5 51.4 59.4 48.4 57.5 54.6 52.9 50.5 49.0 48.7 0.0 0.0 0.0 51.4 10.0 61.4 6 62.2 77.4 51.0 72.3 68.4 65.9 56.8 51.8 51.4 0.0 0.0 0.0 62.2 10.0 72.2 7 60.3 69.4 54.6 67.6 65.4 63.8 58.0 55.4 54.9 0.0 0.0 0.0 60.3 0.0 60.3 8 58.5 69.6 50.6 68.1 64.3 61.3 55.6 51.6 51.0 0.0 0.0 0.0 58.5 0.0 58.5 9 58.5 71.7 51.6 67.9 64.1 60.9 55.7 52.5 52.0 0.0 0.0 0.0 58.5 0.0 58.5 10 63.5 73.3 57.4 71.8 68.8 66.0 61.3 58.9 58.1 0.0 0.0 0.0 63.5 0.0 63.5 11 57.9 69.6 51.0 66.3 63.2 61.1 55.1 52.1 51.5 0.0 0.0 0.0 57.9 0.0 57.9 12 56.9 68.2 51.2 65.7 62.2 59.3 54.6 52.2 51.6 0.0 0.0 0.0 56.9 0.0 56.9 13 58.5 69.2 50.8 67.8 64.7 62.4 54.7 51.8 51.2 0.0 0.0 0.0 58.5 0.0 58.5 14 58.1 68.4 51.0 66.0 63.3 61.6 55.4 51.9 51.4 0.0 0.0 0.0 58.1 0.0 58.1 15 57.4 67.7 52.4 65.7 62.1 59.7 55.4 53.3 52.8 0.0 0.0 0.0 57.4 0.0 57.4 16 61.0 72.6 53.1 71.1 67.5 64.0 57.2 54.1 53.5 0.0 0.0 0.0 61.0 0.0 61.0 17 61.8 75.9 52.6 73.9 68.6 62.8 56.1 53.5 53.0 0.0 0.0 0.0 61.8 0.0 61.8 18 59.2 71.1 52.6 68.2 64.9 62.4 56.3 53.4 53.0 0.0 0.0 0.0 59.2 0.0 59.2 19 58.7 69.8 51.2 68.9 65.5 62.3 54.6 52.0 51.6 0.0 0.0 0.0 58.7 5.0 63.7 20 54.1 63.3 49.3 62.2 58.8 56.5 52.4 50.0 49.6 0.0 0.0 0.0 54.1 5.0 59.1 21 56.6 66.6 53.0 64.4 61.0 58.2 55.2 53.6 53.3 0.0 0.0 0.0 56.6 5.0 61.6 22 55.4 70.1 49.7 67.2 59.5 56.7 52.2 50.3 50.0 0.0 0.0 0.0 55.4 10.0 65.4 23 48.5 52.9 46.2 51.9 50.7 50.0 48.0 46.8 46.5 0.0 0.0 0.0 48.5 10.0 58.5 Timeframe Hour L eq L max L min L1%L2%L5%L8%L25%L50%L90%L95%L99% Min 56.9 67.7 50.6 65.7 62.1 59.3 54.6 51.6 51.0 0.0 0.0 0.0 Max 63.5 75.9 57.4 73.9 68.8 66.0 61.3 58.9 58.1 0.0 0.0 0.0 59.7 68.3 64.9 62.1 56.3 53.4 52.8 0.0 0.0 0.0 Min 54.1 63.3 49.3 62.2 58.8 56.5 52.4 50.0 49.6 0.0 0.0 0.0 Max 58.7 69.8 53.0 68.9 65.5 62.3 55.2 53.6 53.3 0.0 0.0 0.0 56.9 65.2 61.8 59.0 54.0 51.9 51.5 0.0 0.0 0.0 Min 46.1 50.9 43.5 50.2 48.7 48.0 45.2 44.1 43.8 0.0 0.0 0.0 Max 62.2 77.4 51.0 72.3 68.4 65.9 56.8 51.8 51.4 0.0 0.0 0.0 54.6 57.1 54.2 53.0 49.6 47.7 47.3 0.0 0.0 0.0 24-Hour CNEL (dBA) 62.4 Evening Day Evening Energy Average Night Day Night Energy Average Energy Average Average: Average: Average: 58.1 59.3 54.6 24-Hour Noise Level Measurement Summary Hourly L eq dBA Readings (unadjusted) L eq (dBA) Night Wednesday, October 2, 2019 24-Hour Daytime Nighttime L4 - Located in parking lot north of 2400 West Coast Hwy and west of Avon Lot 2 47.246.150.447.850.751.462.260.358.558.563.557.956.958.558.157.461.061.859.258.754.156.655.448.535.0 40.0 45.0 50.0 55.0 60.0 65.0 70.0 75.0 80.0 85.0 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23Hourly Leq(dBA)Hour Beginning U:\UcJobs\_12600-13000\_12900\12954\Field Work\Measurements\12954_L4_H PA2019-249 Date:Location:Meter:Piccolo II JN:12954 Project:2510 PCH Mixed-Use Development Analyst:P. Mara Timeframe Hour L eq L max L min L1%L2%L5%L8%L25%L50%L90%L95%L99%L eq Adj.Adj. L eq 0 39.2 45.2 36.3 44.7 42.9 41.7 38.0 36.6 36.4 0.0 0.0 0.0 39.2 10.0 49.2 1 37.5 42.9 35.6 42.0 40.1 39.2 36.8 35.8 35.7 0.0 0.0 0.0 37.5 10.0 47.5 2 51.4 53.4 49.7 53.3 52.9 52.7 51.1 49.9 49.7 0.0 0.0 0.0 51.4 10.0 61.4 3 41.8 44.3 37.4 44.0 43.4 43.0 42.4 37.7 37.5 0.0 0.0 0.0 41.8 10.0 51.8 4 49.6 56.8 47.5 56.5 54.2 51.7 48.1 47.6 47.5 0.0 0.0 0.0 49.6 10.0 59.6 5 43.7 50.2 40.8 49.4 47.5 46.0 42.7 41.1 40.9 0.0 0.0 0.0 43.7 10.0 53.7 6 49.3 57.4 43.9 56.8 54.5 52.2 47.4 44.6 44.1 0.0 0.0 0.0 49.3 10.0 59.3 7 51.0 57.8 45.6 57.4 55.6 54.0 49.5 46.3 45.8 0.0 0.0 0.0 51.0 0.0 51.0 8 50.9 57.6 45.4 56.8 54.8 53.7 49.8 46.2 45.6 0.0 0.0 0.0 50.9 0.0 50.9 9 51.8 60.0 46.8 59.0 56.2 54.7 50.4 47.6 47.0 0.0 0.0 0.0 51.8 0.0 51.8 10 55.5 62.1 50.7 61.7 59.6 58.2 54.2 51.5 50.9 0.0 0.0 0.0 55.5 0.0 55.5 11 52.1 59.8 46.8 58.7 56.3 54.9 50.6 47.6 47.0 0.0 0.0 0.0 52.1 0.0 52.1 12 50.6 57.9 46.5 57.0 54.3 52.9 49.6 47.3 46.7 0.0 0.0 0.0 50.6 0.0 50.6 13 51.9 58.1 47.6 57.5 56.1 55.0 50.5 48.2 47.8 0.0 0.0 0.0 51.9 0.0 51.9 14 52.7 58.9 47.4 58.3 57.2 56.3 50.8 48.0 47.6 0.0 0.0 0.0 52.7 0.0 52.7 15 54.7 64.6 49.2 63.0 60.2 58.0 52.3 49.8 49.4 0.0 0.0 0.0 54.7 0.0 54.7 16 54.2 60.9 49.8 60.2 58.5 57.2 52.8 50.5 50.0 0.0 0.0 0.0 54.2 0.0 54.2 17 50.8 56.9 47.4 56.4 54.7 53.3 49.8 47.8 47.5 0.0 0.0 0.0 50.8 0.0 50.8 18 50.8 57.1 47.0 56.5 54.7 53.6 49.6 47.4 47.1 0.0 0.0 0.0 50.8 0.0 50.8 19 49.7 57.5 46.0 56.7 53.9 52.0 48.3 46.4 46.1 0.0 0.0 0.0 49.7 5.0 54.7 20 46.9 53.9 42.3 53.4 51.4 49.9 45.2 42.8 42.4 0.0 0.0 0.0 46.9 5.0 51.9 21 49.0 54.5 46.4 54.1 52.4 51.0 48.1 46.7 46.5 0.0 0.0 0.0 49.0 5.0 54.0 22 45.3 51.0 42.2 50.6 49.1 47.7 44.2 42.4 42.3 0.0 0.0 0.0 45.3 10.0 55.3 23 39.8 46.4 36.6 46.0 44.0 42.3 38.4 36.9 36.7 0.0 0.0 0.0 39.8 10.0 49.8 Timeframe Hour L eq L max L min L1%L2%L5%L8%L25%L50%L90%L95%L99% Min 50.6 56.9 45.4 56.4 54.3 52.9 49.5 46.2 45.6 0.0 0.0 0.0 Max 55.5 64.6 50.7 63.0 60.2 58.2 54.2 51.5 50.9 0.0 0.0 0.0 52.6 58.6 56.5 55.2 50.8 48.2 47.7 0.0 0.0 0.0 Min 46.9 53.9 42.3 53.4 51.4 49.9 45.2 42.8 42.4 0.0 0.0 0.0 Max 49.7 57.5 46.4 56.7 53.9 52.0 48.3 46.7 46.5 0.0 0.0 0.0 48.7 54.7 52.5 51.0 47.2 45.3 45.0 0.0 0.0 0.0 Min 37.5 42.9 35.6 42.0 40.1 39.2 36.8 35.8 35.7 0.0 0.0 0.0 Max 51.4 57.4 49.7 56.8 54.5 52.7 51.1 49.9 49.7 0.0 0.0 0.0 46.6 49.2 47.6 46.3 43.2 41.4 41.2 0.0 0.0 0.0 46.6 24-Hour Noise Level Measurement Summary Hourly L eq dBA Readings (unadjusted) L eq (dBA) Night Wednesday, October 2, 2019 24-Hour Daytime Nighttime L5 - Located in courtyard of 124 Tustin Ave. 24-Hour CNEL (dBA) 54.6 Evening Day Evening Energy Average Night Day Night Energy Average Energy Average Average: Average: Average: 50.7 52.039.237.551.441.849.643.749.351.050.951.855.552.150.651.952.754.754.250.850.849.746.949.045.339.835.0 40.0 45.0 50.0 55.0 60.0 65.0 70.0 75.0 80.0 85.0 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23Hourly Leq(dBA)Hour Beginning U:\UcJobs\_12600-13000\_12900\12954\Field Work\Measurements\12954_L5_L PA2019-249 This page intentionally left blank PA2019-249 APPENDIX 7.1: ON-SITE TRAFFIC NOISE LEVEL CALCULATIONS PA2019-249 This page intentionally left blank PA2019-249 FHWA-RD-77-108 HIGHWAY NOISE PREDICTION MODEL (CALVENO) - 10/1/2012 SITE SPECIFIC INPUT DATA Project Name:2510 PCH Job Number:12954 Analyst:B. LawsonLot No:Auto Showroom Road Name:W. Coast Hwy. Scenario:First Floor With Wall 51,000 10% 62.0 NOISE MODEL INPUTS Average Daily Traffic (Adt): Peak Hour Percentage: Peak Hour Volume:5,100 vehicles Centerline Dist. to Barrier: 62.0Centerline Dist. to Observer: Highway Data feet feet vehicles Road Elevation:0.0 Barrier Elevation:0.0 Pad Elevation:0.0 Site Data Site Conditions (Hard = 10, Soft = 15) Medium Trucks (2 Axles):15 Heavy Trucks (3+ Axles):15 Autos:15 Vehicle Mix feet feet Lane Equivalent Distance (in feet) Barrier Height:0.0 Observer Height (Above Pad):5.0 feet feet 40 mphVehicle Speed: Near/Far Lane Distance:60 feet REMEL Traffic Flow Distance 5.64 VehicleType Day Evening Night Daily Medium Trucks: Heavy Trucks: Autos:77.5%12.9%9.6%97.42% 84.8%4.9%10.3%1.84% 86.5%2.7%10.8%0.74% -0.66 Finite Road -1.20 Barrier Atten FHWA Noise Model Calculations 0.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0.0 0.000 0.000 Fresnel Berm Atten Medium Trucks: Heavy Trucks: Autos: VehicleType -11.60 -0.64 -1.20 0.000 0.000 -15.56 -0.65 -1.20 0.000 0.000 -4.70 -4.88 -5.32 Medium Trucks: Heavy Trucks: Autos: Noise Source Elevations (in feet) Medium Trucks: Heavy Trucks: Autos:0.000 2.297 8.006 54.489 54.326 54.342 Grade Adjustment:0.0 Unmitigated Noise Levels (without Topo and barrier attenuation) Medium Trucks: Heavy Trucks: Autos: VehicleType Leq Peak Hour Leq Day Leq Evening Leq Night CNELLdn 71.1 69.2 67.5 61.4 70.670.0 62.9 63.8 61.4 55.0 53.5 62.161.9 62.3 53.3 54.5 63.062.9 Vehicle Noise:72.4 70.6 67.9 62.8 71.871.3 Mitigated Noise Levels (with Topo and barrier attenuation) Medium Trucks: Heavy Trucks: Autos: VehicleType Leq Peak Hour Leq Day Leq Evening Leq Night CNELLdn 71.1 69.2 67.5 61.4 70.670.0 62.9 63.8 61.4 55.0 53.5 62.161.9 62.3 53.3 54.5 63.062.9 Vehicle Noise:72.4 70.6 67.9 62.8 71.871.3 76.31 81.16 67.36 Road Grade:0.0% feet Saturday, October 12, 2019 PA2019-249 FHWA-RD-77-108 HIGHWAY NOISE PREDICTION MODEL (CALVENO) - 10/1/2012 SITE SPECIFIC INPUT DATA Project Name:2510 PCH Job Number:12954 Analyst:B. LawsonLot No:Auto Showroom Road Name:Tustin Ave. Scenario:First Floor With Wall 3,000 10% 98.0 NOISE MODEL INPUTS Average Daily Traffic (Adt): Peak Hour Percentage: Peak Hour Volume:300 vehicles Centerline Dist. to Barrier: 98.0Centerline Dist. to Observer: Highway Data feet feet vehicles Road Elevation:0.0 Barrier Elevation:0.0 Pad Elevation:0.0 Site Data Site Conditions (Hard = 10, Soft = 15) Medium Trucks (2 Axles):15 Heavy Trucks (3+ Axles):15 Autos:15 Vehicle Mix feet feet Lane Equivalent Distance (in feet) Barrier Height:0.0 Observer Height (Above Pad):5.0 feet feet 25 mphVehicle Speed: Near/Far Lane Distance:12 feet REMEL Traffic Flow Distance -4.63 VehicleType Day Evening Night Daily Medium Trucks: Heavy Trucks: Autos:77.5%12.9%9.6%97.42% 84.8%4.9%10.3%1.84% 86.5%2.7%10.8%0.74% -4.48 Finite Road -1.20 Barrier Atten FHWA Noise Model Calculations 0.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0.0 0.000 0.000 Fresnel Berm Atten Medium Trucks: Heavy Trucks: Autos: VehicleType -21.87 -4.48 -1.20 0.000 0.000 -25.82 -4.48 -1.20 0.000 0.000 -4.77 -4.88 -5.17 Medium Trucks: Heavy Trucks: Autos: Noise Source Elevations (in feet) Medium Trucks: Heavy Trucks: Autos:0.000 2.297 8.006 97.944 97.853 97.862 Grade Adjustment:0.0 Unmitigated Noise Levels (without Topo and barrier attenuation) Medium Trucks: Heavy Trucks: Autos: VehicleType Leq Peak Hour Leq Day Leq Evening Leq Night CNELLdn 49.1 47.2 45.5 39.4 48.648.0 43.5 45.7 42.0 35.7 34.1 42.842.6 44.3 35.3 36.5 45.044.9 Vehicle Noise:51.5 49.8 46.3 42.0 50.950.5 Mitigated Noise Levels (with Topo and barrier attenuation) Medium Trucks: Heavy Trucks: Autos: VehicleType Leq Peak Hour Leq Day Leq Evening Leq Night CNELLdn 49.1 47.2 45.5 39.4 48.648.0 43.5 45.7 42.0 35.7 34.1 42.842.6 44.3 35.3 36.5 45.044.9 Vehicle Noise:51.5 49.8 46.3 42.0 50.950.5 71.09 77.24 59.44 Road Grade:0.0% feet Saturday, October 12, 2019 PA2019-249 FHWA-RD-77-108 HIGHWAY NOISE PREDICTION MODEL (CALVENO) - 10/1/2012 SITE SPECIFIC INPUT DATA Project Name:2510 PCH Job Number:12954 Analyst:B. LawsonLot No:Medical Office Road Name:W. Coast Hwy. Scenario:Second Floor With Wall 51,000 10% 62.0 NOISE MODEL INPUTS Average Daily Traffic (Adt): Peak Hour Percentage: Peak Hour Volume:5,100 vehicles Centerline Dist. to Barrier: 62.0Centerline Dist. to Observer: Highway Data feet feet vehicles Road Elevation:0.0 Barrier Elevation:0.0 Pad Elevation:0.0 Site Data Site Conditions (Hard = 10, Soft = 15) Medium Trucks (2 Axles):15 Heavy Trucks (3+ Axles):15 Autos:15 Vehicle Mix feet feet Lane Equivalent Distance (in feet) Barrier Height:0.0 Observer Height (Above Pad):14.0 feet feet 40 mphVehicle Speed: Near/Far Lane Distance:60 feet REMEL Traffic Flow Distance 5.64 VehicleType Day Evening Night Daily Medium Trucks: Heavy Trucks: Autos:77.5%12.9%9.6%97.42% 84.8%4.9%10.3%1.84% 86.5%2.7%10.8%0.74% -0.85 Finite Road -1.20 Barrier Atten FHWA Noise Model Calculations 0.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0.0 0.000 0.000 Fresnel Berm Atten Medium Trucks: Heavy Trucks: Autos: VehicleType -11.60 -0.78 -1.20 0.000 0.000 -15.56 -0.68 -1.20 0.000 0.000 -12.17 -12.67 -13.92 Medium Trucks: Heavy Trucks: Autos: Noise Source Elevations (in feet) Medium Trucks: Heavy Trucks: Autos:0.000 2.297 8.006 56.036 55.506 54.589 Grade Adjustment:0.0 Unmitigated Noise Levels (without Topo and barrier attenuation) Medium Trucks: Heavy Trucks: Autos: VehicleType Leq Peak Hour Leq Day Leq Evening Leq Night CNELLdn 71.0 69.1 67.3 61.2 70.569.9 62.7 63.7 61.2 54.9 53.3 62.061.8 62.3 53.3 54.5 63.062.9 Vehicle Noise:72.2 70.4 67.7 62.6 71.771.2 Mitigated Noise Levels (with Topo and barrier attenuation) Medium Trucks: Heavy Trucks: Autos: VehicleType Leq Peak Hour Leq Day Leq Evening Leq Night CNELLdn 71.0 69.1 67.3 61.2 70.569.9 62.7 63.7 61.2 54.9 53.3 62.061.8 62.3 53.3 54.5 63.062.9 Vehicle Noise:72.2 70.4 67.7 62.6 71.771.2 76.31 81.16 67.36 Road Grade:0.0% feet Saturday, October 12, 2019 PA2019-249 FHWA-RD-77-108 HIGHWAY NOISE PREDICTION MODEL (CALVENO) - 10/1/2012 SITE SPECIFIC INPUT DATA Project Name:2510 PCH Job Number:12954 Analyst:B. LawsonLot No:Medical Office Road Name:Tustin Ave. Scenario:Second Floor With Wall 3,000 10% 98.0 NOISE MODEL INPUTS Average Daily Traffic (Adt): Peak Hour Percentage: Peak Hour Volume:300 vehicles Centerline Dist. to Barrier: 98.0Centerline Dist. to Observer: Highway Data feet feet vehicles Road Elevation:0.0 Barrier Elevation:0.0 Pad Elevation:0.0 Site Data Site Conditions (Hard = 10, Soft = 15) Medium Trucks (2 Axles):15 Heavy Trucks (3+ Axles):15 Autos:15 Vehicle Mix feet feet Lane Equivalent Distance (in feet) Barrier Height:0.0 Observer Height (Above Pad):14.0 feet feet 25 mphVehicle Speed: Near/Far Lane Distance:12 feet REMEL Traffic Flow Distance -4.63 VehicleType Day Evening Night Daily Medium Trucks: Heavy Trucks: Autos:77.5%12.9%9.6%97.42% 84.8%4.9%10.3%1.84% 86.5%2.7%10.8%0.74% -4.54 Finite Road -1.20 Barrier Atten FHWA Noise Model Calculations 0.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0.0 0.000 0.000 Fresnel Berm Atten Medium Trucks: Heavy Trucks: Autos: VehicleType -21.87 -4.52 -1.20 0.000 0.000 -25.82 -4.49 -1.20 0.000 0.000 -12.72 -13.04 -13.84 Medium Trucks: Heavy Trucks: Autos: Noise Source Elevations (in feet) Medium Trucks: Heavy Trucks: Autos:0.000 2.297 8.006 98.813 98.514 98.000 Grade Adjustment:0.0 Unmitigated Noise Levels (without Topo and barrier attenuation) Medium Trucks: Heavy Trucks: Autos: VehicleType Leq Peak Hour Leq Day Leq Evening Leq Night CNELLdn 49.1 47.2 45.4 39.4 48.648.0 43.5 45.7 42.0 35.6 34.1 42.842.5 44.3 35.3 36.5 45.044.9 Vehicle Noise:51.5 49.8 46.2 42.0 50.950.5 Mitigated Noise Levels (with Topo and barrier attenuation) Medium Trucks: Heavy Trucks: Autos: VehicleType Leq Peak Hour Leq Day Leq Evening Leq Night CNELLdn 49.1 47.2 45.4 39.4 48.648.0 43.5 45.7 42.0 35.6 34.1 42.842.5 44.3 35.3 36.5 45.044.9 Vehicle Noise:51.5 49.8 46.2 42.0 50.950.5 71.09 77.24 59.44 Road Grade:0.0% feet Saturday, October 12, 2019 PA2019-249 FHWA-RD-77-108 HIGHWAY NOISE PREDICTION MODEL (CALVENO) - 10/1/2012 SITE SPECIFIC INPUT DATA Project Name:2510 PCH Job Number:12954 Analyst:B. LawsonLot No:Residential Road Name:W. Coast Hwy. Scenario:Second Floor With Wall 51,000 10% 183.0 NOISE MODEL INPUTS Average Daily Traffic (Adt): Peak Hour Percentage: Peak Hour Volume:5,100 vehicles Centerline Dist. to Barrier: 183.0Centerline Dist. to Observer: Highway Data feet feet vehicles Road Elevation:0.0 Barrier Elevation:0.0 Pad Elevation:0.0 Site Data Site Conditions (Hard = 10, Soft = 15) Medium Trucks (2 Axles):15 Heavy Trucks (3+ Axles):15 Autos:15 Vehicle Mix feet feet Lane Equivalent Distance (in feet) Barrier Height:0.0 Observer Height (Above Pad):14.0 feet feet 40 mphVehicle Speed: Near/Far Lane Distance:60 feet REMEL Traffic Flow Distance 5.64 VehicleType Day Evening Night Daily Medium Trucks: Heavy Trucks: Autos:77.5%12.9%9.6%97.42% 84.8%4.9%10.3%1.84% 86.5%2.7%10.8%0.74% -8.49 Finite Road -1.20 Barrier Atten FHWA Noise Model Calculations 0.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0.0 0.000 0.000 Fresnel Berm Atten Medium Trucks: Heavy Trucks: Autos: VehicleType -11.60 -8.48 -1.20 0.000 0.000 -15.56 -8.47 -1.20 0.000 0.000 -13.17 -13.35 -13.77 Medium Trucks: Heavy Trucks: Autos: Noise Source Elevations (in feet) Medium Trucks: Heavy Trucks: Autos:0.000 2.297 8.006 181.066 180.903 180.624 Grade Adjustment:0.0 Unmitigated Noise Levels (without Topo and barrier attenuation) Medium Trucks: Heavy Trucks: Autos: VehicleType Leq Peak Hour Leq Day Leq Evening Leq Night CNELLdn 63.3 61.4 59.6 53.6 62.862.2 55.0 55.9 53.5 47.2 45.6 54.354.1 54.5 45.5 46.7 55.255.1 Vehicle Noise:64.6 62.8 60.0 54.9 64.063.5 Mitigated Noise Levels (with Topo and barrier attenuation) Medium Trucks: Heavy Trucks: Autos: VehicleType Leq Peak Hour Leq Day Leq Evening Leq Night CNELLdn 63.3 61.4 59.6 53.6 62.862.2 55.0 55.9 53.5 47.2 45.6 54.354.1 54.5 45.5 46.7 55.255.1 Vehicle Noise:64.6 62.8 60.0 54.9 64.063.5 76.31 81.16 67.36 Road Grade:0.0% feet Saturday, October 12, 2019 PA2019-249 FHWA-RD-77-108 HIGHWAY NOISE PREDICTION MODEL (CALVENO) - 10/1/2012 SITE SPECIFIC INPUT DATA Project Name:2510 PCH Job Number:12954 Analyst:B. LawsonLot No:Residential Road Name:Tustin Ave. Scenario:Second Floor With Wall 3,000 10% 110.0 NOISE MODEL INPUTS Average Daily Traffic (Adt): Peak Hour Percentage: Peak Hour Volume:300 vehicles Centerline Dist. to Barrier: 110.0Centerline Dist. to Observer: Highway Data feet feet vehicles Road Elevation:0.0 Barrier Elevation:0.0 Pad Elevation:0.0 Site Data Site Conditions (Hard = 10, Soft = 15) Medium Trucks (2 Axles):15 Heavy Trucks (3+ Axles):15 Autos:15 Vehicle Mix feet feet Lane Equivalent Distance (in feet) Barrier Height:0.0 Observer Height (Above Pad):14.0 feet feet 25 mphVehicle Speed: Near/Far Lane Distance:12 feet REMEL Traffic Flow Distance -4.63 VehicleType Day Evening Night Daily Medium Trucks: Heavy Trucks: Autos:77.5%12.9%9.6%97.42% 84.8%4.9%10.3%1.84% 86.5%2.7%10.8%0.74% -5.28 Finite Road -1.20 Barrier Atten FHWA Noise Model Calculations 0.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0.0 0.000 0.000 Fresnel Berm Atten Medium Trucks: Heavy Trucks: Autos: VehicleType -21.87 -5.27 -1.20 0.000 0.000 -25.82 -5.24 -1.20 0.000 0.000 -12.83 -13.11 -13.82 Medium Trucks: Heavy Trucks: Autos: Noise Source Elevations (in feet) Medium Trucks: Heavy Trucks: Autos:0.000 2.297 8.006 110.725 110.458 110.000 Grade Adjustment:0.0 Unmitigated Noise Levels (without Topo and barrier attenuation) Medium Trucks: Heavy Trucks: Autos: VehicleType Leq Peak Hour Leq Day Leq Evening Leq Night CNELLdn 48.3 46.4 44.7 38.6 47.847.2 42.8 45.0 41.2 34.9 33.3 42.041.8 43.6 34.5 35.8 44.344.1 Vehicle Noise:50.7 49.0 45.5 41.2 50.149.7 Mitigated Noise Levels (with Topo and barrier attenuation) Medium Trucks: Heavy Trucks: Autos: VehicleType Leq Peak Hour Leq Day Leq Evening Leq Night CNELLdn 48.3 46.4 44.7 38.6 47.847.2 42.8 45.0 41.2 34.9 33.3 42.041.8 43.6 34.5 35.8 44.344.1 Vehicle Noise:50.7 49.0 45.5 41.2 50.149.7 71.09 77.24 59.44 Road Grade:0.0% feet Saturday, October 12, 2019 PA2019-249 FHWA-RD-77-108 HIGHWAY NOISE PREDICTION MODEL (CALVENO) - 10/1/2012 SITE SPECIFIC INPUT DATA Project Name:2510 PCH Job Number:12954 Analyst:B. LawsonLot No:Residential Road Name:W. Coast Hwy. Scenario:Third Floor With Wall 51,000 10% 183.0 NOISE MODEL INPUTS Average Daily Traffic (Adt): Peak Hour Percentage: Peak Hour Volume:5,100 vehicles Centerline Dist. to Barrier: 183.0Centerline Dist. to Observer: Highway Data feet feet vehicles Road Elevation:0.0 Barrier Elevation:0.0 Pad Elevation:0.0 Site Data Site Conditions (Hard = 10, Soft = 15) Medium Trucks (2 Axles):15 Heavy Trucks (3+ Axles):15 Autos:15 Vehicle Mix feet feet Lane Equivalent Distance (in feet) Barrier Height:0.0 Observer Height (Above Pad):23.0 feet feet 40 mphVehicle Speed: Near/Far Lane Distance:60 feet REMEL Traffic Flow Distance 5.64 VehicleType Day Evening Night Daily Medium Trucks: Heavy Trucks: Autos:77.5%12.9%9.6%97.42% 84.8%4.9%10.3%1.84% 86.5%2.7%10.8%0.74% -8.52 Finite Road -1.20 Barrier Atten FHWA Noise Model Calculations 0.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0.0 0.000 0.000 Fresnel Berm Atten Medium Trucks: Heavy Trucks: Autos: VehicleType -11.60 -8.51 -1.20 0.000 0.000 -15.56 -8.49 -1.20 0.000 0.000 -21.09 -21.38 -22.07 Medium Trucks: Heavy Trucks: Autos: Noise Source Elevations (in feet) Medium Trucks: Heavy Trucks: Autos:0.000 2.297 8.006 181.984 181.707 181.146 Grade Adjustment:0.0 Unmitigated Noise Levels (without Topo and barrier attenuation) Medium Trucks: Heavy Trucks: Autos: VehicleType Leq Peak Hour Leq Day Leq Evening Leq Night CNELLdn 63.3 61.4 59.6 53.6 62.862.2 55.0 55.9 53.5 47.1 45.6 54.354.0 54.5 45.5 46.7 55.255.1 Vehicle Noise:64.5 62.7 60.0 54.9 64.063.5 Mitigated Noise Levels (with Topo and barrier attenuation) Medium Trucks: Heavy Trucks: Autos: VehicleType Leq Peak Hour Leq Day Leq Evening Leq Night CNELLdn 63.3 61.4 59.6 53.6 62.862.2 55.0 55.9 53.5 47.1 45.6 54.354.0 54.5 45.5 46.7 55.255.1 Vehicle Noise:64.5 62.7 60.0 54.9 64.063.5 76.31 81.16 67.36 Road Grade:0.0% feet Saturday, October 12, 2019 PA2019-249 FHWA-RD-77-108 HIGHWAY NOISE PREDICTION MODEL (CALVENO) - 10/1/2012 SITE SPECIFIC INPUT DATA Project Name:2510 PCH Job Number:12954 Analyst:B. LawsonLot No:Residential Road Name:Tustin Ave. Scenario:Third Floor With Wall 3,000 10% 110.0 NOISE MODEL INPUTS Average Daily Traffic (Adt): Peak Hour Percentage: Peak Hour Volume:300 vehicles Centerline Dist. to Barrier: 110.0Centerline Dist. to Observer: Highway Data feet feet vehicles Road Elevation:0.0 Barrier Elevation:0.0 Pad Elevation:0.0 Site Data Site Conditions (Hard = 10, Soft = 15) Medium Trucks (2 Axles):15 Heavy Trucks (3+ Axles):15 Autos:15 Vehicle Mix feet feet Lane Equivalent Distance (in feet) Barrier Height:0.0 Observer Height (Above Pad):23.0 feet feet 25 mphVehicle Speed: Near/Far Lane Distance:12 feet REMEL Traffic Flow Distance -4.63 VehicleType Day Evening Night Daily Medium Trucks: Heavy Trucks: Autos:77.5%12.9%9.6%97.42% 84.8%4.9%10.3%1.84% 86.5%2.7%10.8%0.74% -5.37 Finite Road -1.20 Barrier Atten FHWA Noise Model Calculations 0.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0.0 0.000 0.000 Fresnel Berm Atten Medium Trucks: Heavy Trucks: Autos: VehicleType -21.87 -5.34 -1.20 0.000 0.000 -25.82 -5.29 -1.20 0.000 0.000 -20.18 -20.64 -21.79 Medium Trucks: Heavy Trucks: Autos: Noise Source Elevations (in feet) Medium Trucks: Heavy Trucks: Autos:0.000 2.297 8.006 112.219 111.770 110.855 Grade Adjustment:0.0 Unmitigated Noise Levels (without Topo and barrier attenuation) Medium Trucks: Heavy Trucks: Autos: VehicleType Leq Peak Hour Leq Day Leq Evening Leq Night CNELLdn 48.2 46.3 44.6 38.5 47.847.1 42.7 44.9 41.2 34.8 33.3 42.041.7 43.5 34.5 35.7 44.244.1 Vehicle Noise:50.7 49.0 45.4 41.1 50.149.7 Mitigated Noise Levels (with Topo and barrier attenuation) Medium Trucks: Heavy Trucks: Autos: VehicleType Leq Peak Hour Leq Day Leq Evening Leq Night CNELLdn 48.2 46.3 44.6 38.5 47.847.1 42.7 44.9 41.2 34.8 33.3 42.041.7 43.5 34.5 35.7 44.244.1 Vehicle Noise:50.7 49.0 45.4 41.1 50.149.7 71.09 77.24 59.44 Road Grade:0.0% feet Saturday, October 12, 2019 PA2019-249 APPENDIX 9.1: OPERATIONAL NOISE LEVEL CALCULATIONS PA2019-249 This page intentionally left blank PA2019-249 Project Name:2510 PCH Job Number:12954 Analyst:B. Lawson Source:Air Conditioning Unit (Roof-Top) 5.0 NOISE MODEL INPUTS Noise Distance to Barrier: 101.0Noise Distance to Observer feet feet Noise Source Elevation:50.0 Observer Elevation:25.0 feet feet Barrier Height:5.0 Noise Source Height:5.0 feet feet Drop Off Coefficient:20.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 96.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 78.274.4 L25 76.1 L2 77.7 L8 77.477.2 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 5.0Reference (Sample) -26.1-26.1 -26.1 -26.1-26.1-26.1101.0Distance Attenuation 45.741.9 43.6 45.244.944.7 5.0Shielding (Barrier Attenuation)-6.4-6.4 -6.4 -6.4-6.4-6.4 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R1 43.840.0 41.7 43.343.042.839 Condition:Operational Barrier Elevation:50.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 Project Name:2510 PCH Job Number:12954 Analyst:B. Lawson Source:Trash Enclosure Activity 57.0 NOISE MODEL INPUTS Noise Distance to Barrier: 185.0Noise Distance to Observer feet feet Noise Source Elevation:20.0 Observer Elevation:25.0 feet feet Barrier Height:35.0 Noise Source Height:5.0 feet feet Drop Off Coefficient:20.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 128.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 88.569.0 L25 75.0 L2 87.0 L8 82.077.3 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 5.0Reference (Sample) -31.4-31.4 -31.4 -31.4-31.4-31.4185.0Distance Attenuation 40.120.6 26.6 38.633.628.9 57.0Shielding (Barrier Attenuation)-17.0-17.0 -17.0 -17.0-17.0-17.0 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R1 35.315.8 21.8 33.828.824.120 Condition:Operational Barrier Elevation:20.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 PA2019-249 Project Name:2510 PCH Job Number:12954 Analyst:B. Lawson Source:Parking Lot Veh. Movements 145.0 NOISE MODEL INPUTS Noise Distance to Barrier: 145.0Noise Distance to Observer feet feet Noise Source Elevation:20.0 Observer Elevation:25.0 feet feet Barrier Height:0.0 Noise Source Height:5.0 feet feet Drop Off Coefficient:15.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 0.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 71.949.0 L25 50.0 L2 61.0 L8 55.052.2 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 10.0Reference (Sample) -17.4-17.4 -17.4 -17.4-17.4-17.4145.0Distance Attenuation 54.531.6 32.6 43.637.634.8 145.0Shielding (Barrier Attenuation)0.00.0 0.0 0.00.00.0 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R1 54.531.6 32.6 43.637.634.860 Condition:Operational Barrier Elevation:20.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 Project Name:2510 PCH Job Number:12954 Analyst:B. Lawson Source:Air Conditioning Unit (Roof-Top) 5.0 NOISE MODEL INPUTS Noise Distance to Barrier: 146.0Noise Distance to Observer feet feet Noise Source Elevation:50.0 Observer Elevation:38.0 feet feet Barrier Height:5.0 Noise Source Height:5.0 feet feet Drop Off Coefficient:20.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 141.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 78.274.4 L25 76.1 L2 77.7 L8 77.477.2 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 5.0Reference (Sample) -29.3-29.3 -29.3 -29.3-29.3-29.3146.0Distance Attenuation 43.739.9 41.6 43.242.942.7 5.0Shielding (Barrier Attenuation)-5.2-5.2 -5.2 -5.2-5.2-5.2 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R2 41.838.0 39.7 41.341.040.839 Condition:Operational Barrier Elevation:50.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 PA2019-249 Project Name:2510 PCH Job Number:12954 Analyst:B. Lawson Source:Trash Enclosure Activity 133.0 NOISE MODEL INPUTS Noise Distance to Barrier: 133.0Noise Distance to Observer feet feet Noise Source Elevation:20.0 Observer Elevation:38.0 feet feet Barrier Height:0.0 Noise Source Height:5.0 feet feet Drop Off Coefficient:20.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 0.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 88.569.0 L25 75.0 L2 87.0 L8 82.077.3 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 5.0Reference (Sample) -28.5-28.5 -28.5 -28.5-28.5-28.5133.0Distance Attenuation 60.040.5 46.5 58.553.548.8 133.0Shielding (Barrier Attenuation)0.00.0 0.0 0.00.00.0 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R2 55.235.7 41.7 53.748.744.020 Condition:Operational Barrier Elevation:20.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 Project Name:2510 PCH Job Number:12954 Analyst:B. Lawson Source:Parking Lot Veh. Movements 63.0 NOISE MODEL INPUTS Noise Distance to Barrier: 63.0Noise Distance to Observer feet feet Noise Source Elevation:20.0 Observer Elevation:38.0 feet feet Barrier Height:0.0 Noise Source Height:5.0 feet feet Drop Off Coefficient:15.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 0.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 71.949.0 L25 50.0 L2 61.0 L8 55.052.2 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 10.0Reference (Sample) -12.0-12.0 -12.0 -12.0-12.0-12.063.0Distance Attenuation 59.937.0 38.0 49.043.040.2 63.0Shielding (Barrier Attenuation)0.00.0 0.0 0.00.00.0 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R2 59.937.0 38.0 49.043.040.260 Condition:Operational Barrier Elevation:20.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 PA2019-249 Project Name:2510 PCH Job Number:12954 Analyst:B. Lawson Source:Air Conditioning Unit (Roof-Top) 5.0 NOISE MODEL INPUTS Noise Distance to Barrier: 291.0Noise Distance to Observer feet feet Noise Source Elevation:50.0 Observer Elevation:67.0 feet feet Barrier Height:5.0 Noise Source Height:5.0 feet feet Drop Off Coefficient:20.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 286.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 78.274.4 L25 76.1 L2 77.7 L8 77.477.2 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 5.0Reference (Sample) -35.3-35.3 -35.3 -35.3-35.3-35.3291.0Distance Attenuation 37.834.0 35.7 37.337.036.8 5.0Shielding (Barrier Attenuation)-5.1-5.1 -5.1 -5.1-5.1-5.1 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R3 35.932.1 33.8 35.435.134.939 Condition:Operational Barrier Elevation:50.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 Project Name:2510 PCH Job Number:12954 Analyst:B. Lawson Source:Trash Enclosure Activity 277.0 NOISE MODEL INPUTS Noise Distance to Barrier: 277.0Noise Distance to Observer feet feet Noise Source Elevation:20.0 Observer Elevation:67.0 feet feet Barrier Height:0.0 Noise Source Height:5.0 feet feet Drop Off Coefficient:20.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 0.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 88.569.0 L25 75.0 L2 87.0 L8 82.077.3 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 5.0Reference (Sample) -34.9-34.9 -34.9 -34.9-34.9-34.9277.0Distance Attenuation 53.634.1 40.1 52.147.142.4 277.0Shielding (Barrier Attenuation)0.00.0 0.0 0.00.00.0 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R3 48.829.3 35.3 47.342.337.620 Condition:Operational Barrier Elevation:20.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 PA2019-249 Project Name:2510 PCH Job Number:12954 Analyst:B. Lawson Source:Parking Lot Veh. Movements 205.0 NOISE MODEL INPUTS Noise Distance to Barrier: 205.0Noise Distance to Observer feet feet Noise Source Elevation:20.0 Observer Elevation:67.0 feet feet Barrier Height:0.0 Noise Source Height:5.0 feet feet Drop Off Coefficient:15.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 0.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 71.949.0 L25 50.0 L2 61.0 L8 55.052.2 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 10.0Reference (Sample) -19.7-19.7 -19.7 -19.7-19.7-19.7205.0Distance Attenuation 52.229.3 30.3 41.335.332.5 205.0Shielding (Barrier Attenuation)0.00.0 0.0 0.00.00.0 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R3 52.229.3 30.3 41.335.332.560 Condition:Operational Barrier Elevation:20.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 Project Name:2510 PCH Job Number:12954 Analyst:B. Lawson Source:Air Conditioning Unit (Roof-Top) 5.0 NOISE MODEL INPUTS Noise Distance to Barrier: 58.0Noise Distance to Observer feet feet Noise Source Elevation:50.0 Observer Elevation:18.0 feet feet Barrier Height:5.0 Noise Source Height:5.0 feet feet Drop Off Coefficient:20.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 53.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 78.274.4 L25 76.1 L2 77.7 L8 77.477.2 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 5.0Reference (Sample) -21.3-21.3 -21.3 -21.3-21.3-21.358.0Distance Attenuation 47.844.0 45.7 47.347.046.8 5.0Shielding (Barrier Attenuation)-9.1-9.1 -9.1 -9.1-9.1-9.1 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R4 45.942.1 43.8 45.445.144.939 Condition:Operational Barrier Elevation:50.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 PA2019-249 Project Name:2510 PCH Job Number:12954 Analyst:B. Lawson Source:Trash Enclosure Activity 17.0 NOISE MODEL INPUTS Noise Distance to Barrier: 73.0Noise Distance to Observer feet feet Noise Source Elevation:20.0 Observer Elevation:18.0 feet feet Barrier Height:35.0 Noise Source Height:5.0 feet feet Drop Off Coefficient:20.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 56.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 88.569.0 L25 75.0 L2 87.0 L8 82.077.3 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 5.0Reference (Sample) -23.3-23.3 -23.3 -23.3-23.3-23.373.0Distance Attenuation 46.627.1 33.1 45.140.135.4 17.0Shielding (Barrier Attenuation)-18.6-18.6 -18.6 -18.6-18.6-18.6 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R4 41.822.3 28.3 40.335.330.620 Condition:Operational Barrier Elevation:20.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 Project Name:2510 PCH Job Number:12954 Analyst:B. Lawson Source:Parking Lot Veh. Movements 90.0 NOISE MODEL INPUTS Noise Distance to Barrier: 90.0Noise Distance to Observer feet feet Noise Source Elevation:20.0 Observer Elevation:18.0 feet feet Barrier Height:0.0 Noise Source Height:5.0 feet feet Drop Off Coefficient:15.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 0.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 71.949.0 L25 50.0 L2 61.0 L8 55.052.2 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 10.0Reference (Sample) -14.3-14.3 -14.3 -14.3-14.3-14.390.0Distance Attenuation 57.634.7 35.7 46.740.737.9 90.0Shielding (Barrier Attenuation)0.00.0 0.0 0.00.00.0 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R4 57.634.7 35.7 46.740.737.960 Condition:Operational Barrier Elevation:20.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 PA2019-249 Project Name:2510 PCH Job Number:12954 Analyst:B. Lawson Source:Air Conditioning Unit (Roof-Top) 5.0 NOISE MODEL INPUTS Noise Distance to Barrier: 61.0Noise Distance to Observer feet feet Noise Source Elevation:50.0 Observer Elevation:20.0 feet feet Barrier Height:5.0 Noise Source Height:5.0 feet feet Drop Off Coefficient:20.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 56.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 78.274.4 L25 76.1 L2 77.7 L8 77.477.2 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 5.0Reference (Sample) -21.7-21.7 -21.7 -21.7-21.7-21.761.0Distance Attenuation 47.844.0 45.7 47.347.046.8 5.0Shielding (Barrier Attenuation)-8.7-8.7 -8.7 -8.7-8.7-8.7 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R5 45.942.1 43.8 45.445.144.939 Condition:Operational Barrier Elevation:50.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 Project Name:2510 PCH Job Number:12954 Analyst:B. Lawson Source:Trash Enclosure Activity 41.0 NOISE MODEL INPUTS Noise Distance to Barrier: 166.0Noise Distance to Observer feet feet Noise Source Elevation:20.0 Observer Elevation:20.0 feet feet Barrier Height:35.0 Noise Source Height:5.0 feet feet Drop Off Coefficient:20.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 125.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 88.569.0 L25 75.0 L2 87.0 L8 82.077.3 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 5.0Reference (Sample) -30.4-30.4 -30.4 -30.4-30.4-30.4166.0Distance Attenuation 40.621.1 27.1 39.134.129.4 41.0Shielding (Barrier Attenuation)-17.5-17.5 -17.5 -17.5-17.5-17.5 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R5 35.816.3 22.3 34.329.324.620 Condition:Operational Barrier Elevation:20.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 PA2019-249 Project Name:2510 PCH Job Number:12954 Analyst:B. Lawson Source:Parking Lot Veh. Movements 143.0 NOISE MODEL INPUTS Noise Distance to Barrier: 143.0Noise Distance to Observer feet feet Noise Source Elevation:20.0 Observer Elevation:20.0 feet feet Barrier Height:0.0 Noise Source Height:5.0 feet feet Drop Off Coefficient:15.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 0.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 71.949.0 L25 50.0 L2 61.0 L8 55.052.2 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 10.0Reference (Sample) -17.3-17.3 -17.3 -17.3-17.3-17.3143.0Distance Attenuation 54.631.7 32.7 43.737.734.9 143.0Shielding (Barrier Attenuation)0.00.0 0.0 0.00.00.0 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R5 54.631.7 32.7 43.737.734.960 Condition:Operational Barrier Elevation:20.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 PA2019-249 APPENDIX 10.1: CONSTRUCTION NOISE LEVEL CALCULATIONS PA2019-249 This page intentionally left blank PA2019-249 Project Name:2510 PCH Mixed-Use Job Number:12954 Analyst:B. Lawson Source:Grading Activities 10.0 NOISE MODEL INPUTS Noise Distance to Barrier: 97.0Noise Distance to Observer feet feet Noise Source Elevation:20.0 Observer Elevation:25.0 feet feet Barrier Height:16.0 Noise Source Height:8.0 feet feet Drop Off Coefficient:20.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 87.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 84.875.7 L25 78.5 L2 83.7 L8 82.077.9 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 50.0Reference (Sample) -5.8-5.8 -5.8 -5.8-5.8-5.897.0Distance Attenuation 65.556.4 59.2 64.462.758.6 10.0Shielding (Barrier Attenuation)-13.5-13.5 -13.5 -13.5-13.5-13.5 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R1 65.556.4 59.2 64.462.758.660 Condition:Construction Barrier Elevation:20.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 Project Name:2510 PCH Mixed-Use Job Number:12954 Analyst:B. Lawson Source:Grading Activities 10.0 NOISE MODEL INPUTS Noise Distance to Barrier: 69.0Noise Distance to Observer feet feet Noise Source Elevation:20.0 Observer Elevation:38.0 feet feet Barrier Height:16.0 Noise Source Height:8.0 feet feet Drop Off Coefficient:20.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 59.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 84.875.7 L25 78.5 L2 83.7 L8 82.077.9 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 50.0Reference (Sample) -2.8-2.8 -2.8 -2.8-2.8-2.869.0Distance Attenuation 70.661.5 64.3 69.567.863.7 10.0Shielding (Barrier Attenuation)-11.4-11.4 -11.4 -11.4-11.4-11.4 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R2 70.661.5 64.3 69.567.863.760 Condition:Construction Barrier Elevation:20.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 PA2019-249 Project Name:2510 PCH Mixed-Use Job Number:12954 Analyst:B. Lawson Source:Grading Activities 10.0 NOISE MODEL INPUTS Noise Distance to Barrier: 217.0Noise Distance to Observer feet feet Noise Source Elevation:20.0 Observer Elevation:67.0 feet feet Barrier Height:16.0 Noise Source Height:8.0 feet feet Drop Off Coefficient:20.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 207.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 84.875.7 L25 78.5 L2 83.7 L8 82.077.9 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 50.0Reference (Sample) -12.7-12.7 -12.7 -12.7-12.7-12.7217.0Distance Attenuation 60.951.8 54.6 59.858.154.0 10.0Shielding (Barrier Attenuation)-11.2-11.2 -11.2 -11.2-11.2-11.2 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R3 60.951.8 54.6 59.858.154.060 Condition:Construction Barrier Elevation:20.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 Project Name:2510 PCH Mixed-Use Job Number:12954 Analyst:B. Lawson Source:Grading Activities 10.0 NOISE MODEL INPUTS Noise Distance to Barrier: 37.0Noise Distance to Observer feet feet Noise Source Elevation:20.0 Observer Elevation:18.0 feet feet Barrier Height:16.0 Noise Source Height:8.0 feet feet Drop Off Coefficient:20.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 27.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 84.875.7 L25 78.5 L2 83.7 L8 82.077.9 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 50.0Reference (Sample) 2.62.6 2.6 2.62.62.637.0Distance Attenuation 71.962.8 65.6 70.869.165.0 10.0Shielding (Barrier Attenuation)-15.5-15.5 -15.5 -15.5-15.5-15.5 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R4 71.962.8 65.6 70.869.165.060 Condition:Construction Barrier Elevation:20.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 PA2019-249 Project Name:2510 PCH Mixed-Use Job Number:12954 Analyst:B. Lawson Source:Grading Activities 10.0 NOISE MODEL INPUTS Noise Distance to Barrier: 67.0Noise Distance to Observer feet feet Noise Source Elevation:20.0 Observer Elevation:20.0 feet feet Barrier Height:16.0 Noise Source Height:8.0 feet feet Drop Off Coefficient:20.0 20 = 6 dBA per doubling of distance 15 = 4.5 dBA per doubling of distance 57.0Barrier Distance to Observer:feet Barrier Type (0-Wall, 1-Berm):0 Leq LmaxL50 84.875.7 L25 78.5 L2 83.7 L8 82.077.9 Noise Level NOISE MODEL PROJECTIONS Distance (feet) 50.0Reference (Sample) -2.5-2.5 -2.5 -2.5-2.5-2.567.0Distance Attenuation 68.058.9 61.7 66.965.261.1 10.0Shielding (Barrier Attenuation)-14.3-14.3 -14.3 -14.3-14.3-14.3 Raw (Distance + Barrier) Observer Height:5.0 feet Observer Location:R5 68.058.9 61.7 66.965.261.160 Condition:Construction Barrier Elevation:20.0 feet Minute Hourly Adjustment STATIONARY SOURCE NOISE PREDICTION MODEL 10/13/2019 PA2019-249 This page intentionally left blank PA2019-249