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Home My WebLink About20210208_WQHP_2-3-2020Priority Project Water Quality and Hydrology Plan (WQHP) Project Name: NORTON RESIDENCE Prepared for: Sean Norton 6806 W. Ocean Front Newport Beach, CA 92663 Tel: (949) 281-8200 Prepared by: Toal Engineering, Inc. 139 Avenida Navarro San Clemente, CA 92672 Tel: (949) 492-8586 Engineer: Adam L. Toal, PE Registration No.: RCE 59275 Prepared on: February 03, 2020 PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE Owner’s Cer!fica!on 21002-wqhp-body This Water Quality Management Plan (WQMP) has been prepared for Sean Norton by Toal Engineering, Inc. The WQMP is intended to comply with the requirements of the local NPDES Stormwater Program requiring the preparation of the plan. The undersigned, while it owns the subject property, is responsible for the implementation of the provisions of this plan and will ensure that this plan is amended as appropriate to reflect up-to-date conditions on the site consistent with the current Orange County Drainage Area Management Plan (DAMP) and the intent of the non-point source NPDES Permit for Waste Discharge Requirements for the County of Orange, Orange County Flood Control District and the incorporated Cities of Orange County within the Santa Ana Region. Once the undersigned transfers its interest in the property, its successors-in-interest shall bear the aforementioned responsibility to implement and amend the WQMP. An appropriate number of approved and signed copies of this document shall be available on the subject site in perpetuity. Owner: Name/Title Sean Norton Company N/A Address 6806 W. Oceanfront, Newport Beach, CA 92663 Email N/A Telephone # (949) 637-5220 Signature Date Project Owner’s Certification Permit/Application No. PA 2021-____ Grading Permit No. N/A Tract/Parcel Map No. Seashore Colony Por. Lots 3 & 4, Block H Building Permit No. N/A CUP, SUP, and/or APN (Specify Lot Numbers if Portions of Tract) 6806 W. Oceanfront, Newport Beach APN 045-033-17 2/8/21 ,,..J s·~~M~ I I PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE Table of Contents 21002-wqhp-body Contents Page No. I Discretionary Permit(s) and Water Quality Conditions…………….3 II.1 Project Description ............................................................................. 4 II.2 Potential Stormwater Pollutants ...................................................... 6 II.5 Property Ownership/Management ................................................... 8 III.1 Physical Setting ................................................................................... 9 III.3 Watershed Description ....................................................................... 11 IV. 1 Project Performance Criteria ............................................................ 12 IV.3.1 Hydrologic Source Controls ..................................................................... 16 IV.3.2 Infiltration BMPs ....................................................................................... 17 Table 2.7: Infiltration BMP Feasibility Worksheet .................................................... 18 Table 2.7: Infiltration BMP Feasibility Worksheet (continued) ................................ 19 IV.3.3 Evapotranspiration, Rainwater Harvesting BMPs ................................. 20 IV.3.4 Biotreatment BMPs .................................................................................. 22 IV.3.5 Hydromodification Control BMPs ............................................................ 23 IV.3.6 Regional/Sub-Regional LID BMPs .......................................................... 23 IV.3.7 Treatment Control BMPs ......................................................................... 23 IV.3.8 Non-structural Source Control BMPs ..................................................... 24 IV.3.9 Structural Source Control BMPs ............................................................. 26 IV.4.1 Water Quality Credits .................................................................. 28 IV.4.2 Alternative Compliance Plan Information ................................ 29 V Inspection/Maintenance Responsibility for BMPs………………...23 VI Site Plan and Drainage Plan…………………………..…………………24 VII Educational Materials…………………………………..…………………25 Attachments Attachment A…………………………………………………..……………………… BMP Fact Sheets Attachment B……………………………………………………………….……Educational Materials Attachment C…………………………………..……………………………………………Location Map Attachment D……...……..…………….……………………………Operation & Maintenance Plan Attachment E……………….…… Soils Report Groundwater pages and infiltration approval PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 3 Section I Discretionary Permit(s) and Water Quality Conditions Project Infomation Permit/Application No. PA 2021-____ Tract/Parcel Map No. Seashore Colony Por. Lots 3 & 4, Block H Additional Information/ Comments: 6806 W. Ocean Front, Newport Beach, CA 92663 APN 045-033-17 Water Quality Conditions Water Quality Conditions (list verbatim) 1.A WQHP shall be required for a development of water quality concern that requires a coastal development permit and has the potential for adverse water quality or hydrologic impacts to coastal waters, including development that entails construction or entails activities or changes in land use other than construction. 2.Seventy-Five (75) Percent Impervious Surface Area. Development where seventy-five percent or more of the sites surface area will be impervious surfaces. Watershed-Based Plan Conditions Provide applicable conditions from watershed -based plans including WIHMPs and TMDLS. The project site is located in the Newport Bay Watershed, located in the Santa Ana region. At the time of this report, a WIHMP for the "Newport Bay- Newport Coast" Watershed has not been approved. TMDL information is provided in Section III.3. PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 4 Section II Project Description II.1 Project Description Description of Proposed Project Development Category (Verbatim from WQMP): 1.A WQHP shall be required for a development of water quality concern that requires a coastal development permit and has the potential for adverse water quality or hydrologic impacts to coastal waters, including development that entails construction or entails activities or changes in land use other than construction. 2.Seventy-Five (75) Percent Impervious Surface Area. Development where seventy-five percent or more of the sites surface area will be impervious surfaces. Project Area (ft2): 2,255 Number of Dwelling Units: 1 SIC Code: 1521 Narrative Project Description: The proposed project consists of: 1) the demolition and removal of on- site improvements within the proposed development limits; and 2) construction of a custom single family residence, and appurtenant hardscape and drainage improvements. Project Area Pervious Impervious Area (acres or sq ft) Percentage Area (acres or sq ft) Percentage Pre-Project Conditions 725 sq. ft. 32% 1,530 sq. ft. 68% Post-Project Conditions 0 sq. ft. 0% 2,255 sq. ft. 100% Drainage Patterns/Connections The developed portion of the site runoff currently sheet flows northerly into the Alley along the front of the property where it enters the existing city storm drain system and ultimately discharged into the Pacific Ocean. ••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••T••••••••••••••••••••••••••••••••••••••••••••••••• ················································. ···························································r···························································· . . . . ~••••••••••••••••••••••••••••••T•••••••••••••••••••••••••••~•••••••••••••••••••••••••••••••T•••••••••••••••••••••••• • • • ■ . . . . ■ • • ■ . . . . ■ • • ■ . . . . • • • ■ . . . . • • • ■ ................................................ : .............................. : ........................... : ............................... : ....................... . ......................................................................................................................................................................... . . . . ■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■ ......................................................................................................................... . PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 5 The project consists of the construction of a new single family residence with appurtenant hardscape and walls. Areas, as well as total percentage of the project area, of each different type of improvement are listed below: Lot size: 2,255 sf (0.052 ac) Project Area (Disturbed Area): 2,255 sf (0.052ac) Building footprint:1,432 sf (0.033 ac) 63% Of project area Total proposed hardscape areas (excluding buildings): 823 sf (0.019 ac) 37% Total proposed landscape areas: 0 sf (0.0 ac) 0% Total impervious area (roof/hardscape) tributary to planter box treatment units: 2,255 sf (0.052 ac) Walkways connecting driveways, patios, and other hardscape features are minimal for this small lot. All runoff discharging to the infiltration trench at the front yard as described and designed in Section IV of this report. Run-off from high intensity storm events will overflow the infiltration trench gravity flow to the flowline at alley in the front of the site where it will enter the city storm drain system and ultimately the Pacific Ocean. The Plot Plan in Section VI shows the site improvements to scale. PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 6 II.2 Potential Stormwater Pollutants Pollutants of Concern Pollutant Choose One: E=Expected to be of concern N=Not Expected to be of concern Additional Information and Comments Suspended-Solid/ Sediment E N Expected pollutant for residential development. Nutrients E N Expected pollutant for residential development. Heavy Metals E N Pathogens (Bacteria/Virus) E N Expected pollutant for residential development. Pesticides E N Expected pollutant for residential development. Oil and Grease E N Expected pollutant for residential development. Toxic Organic Compounds E N Trash and Debris E N Expected pollutant for residential development. PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 7 II.3 Hydrologic Conditions of Concern Determine if streams located downstream from the project area are determined to be potentially susceptible to hydromodification impacts. No – Show map Yes – Describe applicable hydrologic conditions of concern below. http://nbgis.newportbeachca.gov/NewportHTML5Viewer/?viewer=newportbeachgis Runoff enters lined city storm drain catch basin and storm drain system at the Sea Shore street. See image below showing runoff direction. Per the Orange County Watershed Susceptibility map, the site is not within potential areas of erosion. Site [8J □ 1~.,-WKID: 4326 l.aVlong A \_ Lat: 33.62923" N Lon: 117.95396" W / e------i 0 50 100ft PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 8 II.4 Post Development Drainage Characteristics The site drainage system is designed to treat and partially retain runoff via INF-2 Infiltration Trench prior to discharge in order to eliminate direct discharge into the Pacific Ocean. The side yards and rearyard have been designed to discharge to infiltration trench via concrete swale. The roof downspouts at front yard will discharge directly to the infiltration trench drain. All other downspouts will be discharged directly to the concrete swales along the side yards which will flow into the Infiltration trench at the front of the property for treatment prior to discharge. Drainage from paved areas shall be directed to flow away from the building foundation prior to collection by the proposed area drain system. The proposed BMPs will remove sediment and pollutants through volume reduction before the runoff enters the City drainage system. In large storms, overflows of clean runoff will overflow and bypass the BMPs and flow directly to the Alley then to Seashore Drive where it enters the existing city storm drain system and ultimately into the Pacific Ocean. Refer to the WQHP Plot Plan located in Section VI II.5 Property Ownership/Management The property is a single family private residence and will be owned and maintained by Mr. Sean Norton. Maintenance contractors may be hired by the owner to perform maintenance duties. However, all storm water facilities will remain the responsibility of the homeowner. PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 9 Section III Site Description III.1 Physical Setting Planning Area/ Community Name Far West Newport Residence Association Location/Address 707 Saint James Road, Newport Beach, CA 92663 Project Area Description The subject site is a single-family residential lot located on the Southside of West Oceanfront. The property is currently developed with a residential building, and associated hardscape features such as walkways, patios, concrete driveway, side yard screen walls, and fences. The project site is bounded on the south by beach area, on the north by Alley, and on the east and west by similarly sized residential properties. Land Use RS-D: Single-Unit Residential Detached Zoning RLD-9 Acreage The site measures 2,255 square feet (0052 acres). The entire site will be disturbed as a result of this development. The proposed redevelopment results in the addition/replacement of 2,255 sq. ft. of impervious surfaces. Predominant Soil Type Per the Orange County Hydrology Manual, the project is located in an area with Type HSG-A soils. PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 10 III.2 Site Characteristics Precipitation Zone Per the Orange County Rainfall Zones Map, the project site is within the rainfall zone with a Design Capture Storm Depth of 0.70 inches. Topography The rectangular-shaped lot currently is the site of a single-family residence with hardscape features. The site has a fall of 1’ toward the alley. There is a beach area behind the site. Drainage Patterns/Connections Existing drainage patterns. The project site is located in the Santa Ana river Watershed, located in the Santa Ana region. Site runoff currently discharges to the existing city storm drain system at the Alley and ultimately into the Pacific Ocean. Proposed drainage patterns: The proposed drainage plan will collect runoff via concrete swale along side yards, which will flow into an infiltration trench, and discharge to the existing flow line in Alley then discharges to Sea Shore Drive and ultimately into the Pacific Ocean. Soil Type, Geology, and Infiltration Properties This site is within an area designated “Soil Type HSG-A” per the Orange County Hydrology Manual. Site Characteristics (continued) Hydrogeologic (Groundwater) Conditions Per the project soils report prepared by LGC Geotechnical Inc, The groundwater was encountered during our recent subsurface exploration at a depth of approximately 8’ to 10’ below the existing ground surface correlating to an approximate elevation of 5 to 3 feet above mean sea level (msl). Fluctuation in site groundwater should be anticipated as a result of tidal variations due to the close proximity to the ocean. See Attachment E. Geotechnical Conditions (relevant to infiltration) The site is underlain by Soil Type A. The soils report has indicated groundwater at a depth of 8’ to 10’ below the existing ground surface. This will put the bottom of the infiltration trench 5 to 7 feet above the groundwater level. Off-Site Drainage None. Utility and Infrastructure Information Service laterals will be taken from utility main lines within the adjacent street and alley rights-of-way. PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 11 III.3 Watershed Description Receiving Waters Newport bay, Pacific Ocean. 303(d) Listed Impairments Low Newport Bay is 303(d) listed by the State Water Resources Control Board for the following impairments: Chlordane, Copper, DDT, Indicator Bacteria, Nutrients, PCBs, and Pesticides. Applicable TMDLs Total Maximum Daily Loads (TMDLs) have been established for Copper, Indicator Bacteria, Nutrients, Pesticides and Sediment; TMDLs are proposed for the remaining 303(d) listed pollutants, but are not currently in effect. Pollutants of Concern for the Project Please see page 5. Environmentally Sensitive and Special Biological Significant Areas Newport Bay is an ESA, as it is a waterbody listed on the CW Section 303(d) list of impaired waters. Site runoff will be treated prior to off-site discharge. See section IV for BMP sizing. PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 12 Section IV Best Management Practices (BMPs) IV. 1 Project Performance Criteria Describe project performance criteria. Several steps must be followed in order to determine what performance criteria will apply to a project. These steps include: • If the project has an approved WIHMP or equivalent, then any watershed specific criteria must be used and the project can evaluate participation in the approved regional or sub- regional opportunities. The local Permittee planning or NPDES staff should be consulted regarding the existence of an approved WIHMP or equivalent. • Determine applicable hydromodification control performance criteria. • Determine applicable LID performance criteria. • Determine applicable treatment control BMP performance criteria. • Calculate the LID design storm capture volume for the project. Is there an approved WIHMP or equivalent for the project area that includes more stringent LID feasibility criteria or if there are opportunities identified for implementing LID on regional or sub- regional basis? YES NO If yes, describe WIHMP feasibility criteria or regional/sub-regional LID opportunities. N/A. □ ~ PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 13 Project Performance Criteria (continued) If HCOC exists, list applicable hydromodification control performance criteria (Section 7.II-2.4.2.2 in MWQMP) For projects that may have an impact on the site’s hydrologic regime, an assessment of potential hydromodification impacts and appropriate controls is required. If an HCOC exists, priority projects shall implement on-site or regional hydromodification controls such that: • Post-development runoff volume for the two-year frequency storm does not exceed that of the predevelopment condition by more than five percent, and • Time of concentration of post-development runoff for the two-year storm event is not less than that for the predevelopment condition by more than five percent. List applicable LID performance criteria (Section 7.II-2.4.3 from MWQMP) • Priority Projects must infiltrate, harvest and use, evapotranspirate, or biotreat/biofilter, the 85th percentile, 24-hour storm event (Design Capture Volume). • A properly designed biotreatment system may only be considered if infiltration, harvest and use, and evapotranspiration (ET) cannot be feasibly implemented for the full design capture volume. In this case infiltration, harvest and use, and ET practices must be implemented to the greatest extent feasible and biotreatment may be provided for the remaining design capture volume. List applicable treatment control BMP performance criteria (Section 7.II-3.2.2 from MWQMP) • If treatment control BMPs can treat all of the remaining unmet volume and have a medium to high effectiveness for reducing the primary POCs, the project is considered to be in compliance. • If the cost of providing treatment control BMPs greatly outweighs the pollution control benefits they would provide, a waiver of treatment control and LID requirements can be requested and alternative compliance approaches must be used to fulfill the remaining unmet volume. Calculate LID design storm capture volume for Project. V = C * d * A * 43,560 sq. ft./acre * 1/12 in./ft Where: C = runoff coefficient = 0.75 * imp + 0.15 (imp = impervious area fraction = 0.90) = 0.90 d = Design Capture Storm Depth (0.70 in. per Orange County Rainfall Zones Map) A = project area = 0.052 acres (2,255 sq. ft.) V = 0.90 * 0.70 in. * 0.052 * 43560 sq. ft./acre * 1/12 in./ft V = 119 cu. ft. PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 14 Worksheet B: Simple Design Capture Volume Sizing Method Step 1: Determine the design capture storm depth used for calculating volume 1 Enter design capture storm depth from Figure III.1, d (inches) d= 0.7 inches 2 Enter the effect of provided HSCs, dHSC (inches) (Worksheet A) dHSC= - inches 3 Calculate the remainder of the design capture storm depth, dremainder (inches) (Line 1 – Line 2) dremainder= 0.7 inches Step 2: Calculate the DCV 1 Enter Project area tributary to BMP (s), A (acres) A= 0.052 acres 2 Enter Project Imperviousness, imp (unitless) imp= 1.0 3 Calculate runoff coefficient, C= (0.75 x imp) + 0.15 C= 0.90 4 Calculate runoff volume, Vdesign= (C x dremainder x A x 43560 x (1/12)) Vdesign= 119 cu-ft Step 3: Design BMPs to ensure full retention of the DCV Step 3a: Determine design infiltration rate 1 Enter measured infiltration rate, Kmeasured (in/hr) (Appendix VII) Kmeasured= In/hr 2 Enter combined safety factor from Worksheet H, Sfinal (unitless) Sfinal= 3 Calculate design infiltration rate, Kdesign = Kmeasured / Sfinal Kdesign= In/hr Step 3b: Determine minimum BMP footprint 4 Enter drawdown time, T (max 48 hours) T= Hours 5 Calculate max retention depth that can be drawn down within the drawdown time (feet), Dmax = Kdesign x T x (1/12) Dmax= feet 6 Calculate minimum area required for BMP (sq-ft), Amin = Vdesign/ dmax Amin= sq-ft PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 15 IV.2. SITE DESIGN AND DRAINAGE PLAN The following Site Design Practices have been considered for the proposed residential development: - Preserve Existing Drainage Patterns and Time of Concentration (to the MEP) - Disconnect Impervious Area (by providing landscape improvements between, and adjacent to, proposed impervious walkways and driveway, where possible) - Minimize Construction Footprint (construction will be limited to only the area designated for improvements) The proposed site improvements include the residence, driveway, exterior impervious walkways, patios, and hardscaep improvements. The construction footprint shall be limited to only the areas designated for improvements per the Precise Grading and Drainage Plans prepared by Toal Engineering, Inc. There is one Drainage Management Areas (DMA) for this single-family residential development. The selected LID BMP will be used to meet the calculated Design Flow for the project DMA: - Infiltration Trench unit (Infiltration BMP-INF 2) – located on front yard, per City standard DMA Area (sq. ft.) % Impervious BMP Type Size 1 2,255 1 INF-2: Infiltration Trench 11 CF See discussion for the selected BMP in Section IV.3.1. See the WQMP Site Plan provided in Section VI of this report for locations of site improvements and the selected Infiltration BMP. the GIS coordinate for onsite BMP is: 33° 37’ 40.57” - 117° 57’ 11.65” I I PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 16 IV.3 LID BMP SELECTION AND PROJECT CONFORMANCE ANALYSIS IV.3.1 Hydrologic Source Controls Name Included? Localized on-lot infiltration Impervious area dispersion (e.g. roof top disconnection) Street trees (canopy interception) Residential rain barrels (not actively managed) Green roofs/Brown roofs Blue roofs Impervious area reduction (e.g. permeable pavers, site design) Impervious roof dispersion and localized on-lot infiltration have not been used because of the site constraints. Planter areas were not used because of the small available space in both the sideyards and the rear deck area. The entire DCV is being treated/retained with the use of an infiltration trench. □ □ □ □ □ □ □ PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 17 IV.3.2 Infiltration BMPs Name Included? Bioretention without underdrains Rain gardens Porous landscaping Infiltration planters Retention swales Infiltration trenches Infiltration basins Drywells Subsurface infiltration galleries French drains Permeable asphalt Permeable concrete Permeable concrete pavers Other: Other: The sizing has been done per the City of Newport Beach’s prescriptive requirements of “One 15’ long French drain per maximum of 2,000 sf of impervious area”. Therefore the sizing for this lot is: 2,255 s.f. x (15’ Long French drain)/(2,000 s.f. of impervious area) = 17’ (minimum length) French drain by 1’ wide and 1’ deep. The provided French drain length for this project= 30’ …..OK A French drain detail (1’ wide x 3’ deep) has been used for this project. Please see the BMP exhibit Site Plan in Section VI for infiltration trench location and details. □ □ □ □ □ ~ □ □ □ □ □ □ □ □ □ PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 18 Table 2.7: Infiltration BMP Feasibility Worksheet Infeasibility Criteria Yes No 1 Would Infiltration BMPs pose significant risk for groundwater related concerns? Refer to Appendix VII (Worksheet I) for guidance on groundwater-related infiltration feasibility criteria. X See soils engineer approval for infiltration due to high groundwater in Attachment E. 2 Would Infiltration BMPs pose significant risk of increasing risk of geotechnical hazards that cannot be mitigated to an acceptable level? (Yes if the answer to any of the following questions is yes, as established by a geotechnical expert): The BMP can only be located less than 50 feet away from slopes steeper than 15 percent The BMP can only be located less than eight feet from building foundations or an alternative setback. A study prepared by a geotechnical professional or an available watershed study substantiates that stormwater infiltration would potentially result in significantly increased risks of geotechnical hazards that cannot be mitigated to an acceptable level. X See soils engineer approval for infiltration due to high groundwater in Attachment E. 3 Would infiltration of the DCV from drainage area violate downstream water rights? X See soils engineer approval for infiltration due to high groundwater in Attachment E. PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 19 Table 2.7: Infiltration BMP Feasibility Worksheet (continued) Partial Infeasibility Criteria Yes No 4 Is proposed infiltration facility located on HSG D soils or the site geotechnical investigation identifies presence of soil characteristics which support categorization as D soils? X Per the O.C. Hydrology Manual Plate B, the project is underlain by soil Type A. Per the O.C. Hydrology manual, Soil Type A have high infiltration rates. 5 Is measured infiltration rate below proposed facility less than 0.3 inches per hour? This calculation shall be based on the methods described in Appendix VII. X Per the O.C. Hydrology Manual Plate B, the project is underlain by soil Type A. Per the O.C. Hydrology manual, Soil Type A have high infiltration rates. 6 Would reduction of over predeveloped conditions cause impairments to downstream beneficial uses, such as change of seasonality of ephemeral washes or increased discharge of contaminated groundwater to surface waters? X See soils engineer approval for infiltration due to high groundwater in Attachment E. 7 Would an increase in infiltration over predeveloped conditions cause impairments to downstream beneficial uses, such as change of seasonality of ephemeral washes or increased discharge of contaminated groundwater to surface waters? X See soils engineer approval for infiltration due to high groundwater in Attachment E. PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 20 IV.3.3 Evapotranspiration, Rainwater Harvesting BMPs Name Included? All HSCs; See Section IV.3.1 Surface-based infiltration BMPs Biotreatment BMPs Above-ground cisterns and basins Underground detention Other: Other: Other: The project site does not have an irrigation demand large enough to justify partial capture for irrigation demand. See Worksheet J from Section X of the TGD on the following page. □ □ □ □ □ □ □ □ PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 21 Worksheet J: Summary of Harvested Water Demand and Feasibility 1 What demands for harvested water exist in the tributary area (check all that apply): 2 Toilet and urinal flushing □ 3 Landscape irrigation □ 4 Other: _ _ _ □ 5 What is the design capture storm depth? (Figure III.1) d 0.7 inches 6 What is the project size? A 0.052 ac 7 What is the acreage of impervious area? IA 0.052 ac For projects with multiple types of demand (toilet flushing, irrigation demand, and/or other demand) 8 What is the minimum use required for partial capture? (Table X.6) gpd 9 What is the project estimated wet season total daily use (Section X.2)? gpd 10 Is partial capture potentially feasible? (Line 9 > Line 8?) For projects with only toilet flushing demand 11 What is the minimum TUTIA for partial capture? (Table X.7) 12 What is the project estimated TUTIA? 13 Is partial capture potentially feasible? (Line 12 > Line 11?) For projects with only irrigation demand 14 What is the minimum irrigation area required based on conservation landscape design? (Table X.8) 0.84 x 0.052 = 0.044 ac 15 What is the proposed project irrigated area? (multiply conservation landscaping by 1; multiply active turf by 2) 0.0 ac 16 Is partial capture potentially feasible? (Line 15 > Line 14?) No Provide supporting assumptions and citations for controlling demand calculation: PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 22 IV.3.4 Biotreatment BMPs Name Included? Bioretention with underdrains Stormwater planter boxes with underdrains Rain gardens with underdrains Constructed wetlands Vegetated swales Vegetated filter strips Proprietary vegetated biotreatment systems Wet extended detention basin Dry extended detention basins Other: The entire DCV is treated/retained via an infiltration trench. □ □ □ □ □ □ □ □ □ □ PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 23 IV.3.5 Hydromodification Control BMPs Hydromodification Control BMPs BMP Name BMP Description N/A As shown in Section II.3 of this report, HCOCs do not exist for this project. IV.3.6 Regional/Sub-Regional LID BMPs Regional/Sub-Regional LID BMPs N/A - This project will not participate in any Regional or Sub-Regional LID BMPs IV.3.7 Treatment Control BMPs Treatment Control BMPs BMP Name BMP Description N/A Treatment Control BMPs are not required for this project. PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 24 IV.3.8 Non-structural Source Control BMPs Fill out non-structural source control check box forms or provide a brief narrative explaining if non- structural source controls were not used. Non-Structural Source Control BMPs Identifier Name Check One If not applicable, state brief reason Included Not Applicable N1 Education for Property Owners, Tenants and Occupants N2 Activity Restrictions N3 Common Area Landscape Management N4 BMP Maintenance N5 Title 22 CCR Compliance (How development will comply) N/A; residential construction N6 Local Industrial Permit Compliance N/A; residential construction N7 Spill Contingency Plan N/A; residential construction N8 Underground Storage Tank Compliance No underground storage tanks. N9 Hazardous Materials Disclosure Compliance No bulk storage of hazardous materials N10 Uniform Fire Code Implementation No bulk storage of hazardous materials N11 Common Area Litter Control N/A; residential construction N12 Employee Training N/A; residential construction N13 Housekeeping of Loading Docks No loading docks present N14 Common Area Catch Basin Inspection Covered under N3 for SFR. N15 Street Sweeping Private Streets and Parking Lots Street sweeping performed by City of Newport Beach. N16 Retail Gasoline Outlets N/A to this development. □ ···············································································[8]···············0···················································· ................... , ...................................................................................................................................... . □ ......................................................................... ······C8l······· ········o········ ........................................... . ................... , ....................................................................... , ............................................................... . □ ' □ ' [8] ......................................................................... ······o······· ········C8l········ ........................................... . □ □ ................... , ....................................................................... , ............................................................... . □ ......................................................................... ······o······· ········C8l········ ........................................... . ················································································o················~······················································ ......................................................................... ······o······· ········C8l········ ........................................... . ················································································o···············~····················································· ................... , ....................................................................... , ............................................................... . □ ......................................................................... ······o······· ········C8l········ ........................................... . PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 25 N1 – Education: The Owner must understand purpose of all BMPs and how they work. The contractor who installs the BMP shall educate the owner and the owner shall share the information with any maintenance personnel. Additionally, the owner shall keep a copy of this WQHP, as well as the Operations and Maintenance Plan. Practical information materials shall be provided to the first residents /occupants/tenants on general housekeeping practices that contribute to the protection of stormwater quality. These materials will be initially developed and provided to first residents/occupants/tenants by the developer. N2 – Activity Restrictions: The following actions are prohibited on the project site: (1) car washing on any portion of the property, (2) disposal of solid waste on the property except in designated trash areas, (3) disposal of liquid waste into any solid waste container, (4) placement of hazardous waste in any solid waste container. Any activities that would violate the City of Newport Beach Water Quality Ordinance (Municipal Code Chapter 14.36). N3 – Common Area Landscape Management: The Owner shall keep garden areas clean, planted, and weed free. The Owner shall verify that landscape activities are consistent with those in the County Water Conservation Resolution (or city equivalent) that include fertilizer and/or pesticide usage consistent with Management Guidelines for Use of Fertilizers (DAMP Section 5.5). N4 – BMP Maintenance: The owner shall be responsible for each non-structural BMP and scheduled cleaning and/or maintenance of all structural BMP facilities. Visual inspection shall be performed by the owner or contracted personnel. More thorough inspection should be required if ponding water sits for more than 48 hours PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 26 IV.3.9 Structural Source Control BMPs Fill out structural source control check box forms or provide a brief narrative explaining if Structural source controls were not used. Structural Source Control BMPs Identifier Name Check One If not applicable, state brief reason Included Not Applicable S1 Provide storm drain system stenciling and signage There is no inlet proposed on private property. S2 Design and construct outdoor material storage areas to reduce pollution introduction No outdoor material storage areas S3 Design and construct trash and waste storage areas to reduce pollution introduction S4 Use efficient irrigation systems & landscape design, water conservation, smart controllers, and source control No landscape area S5 Protect slopes and channels and provide energy dissipation There are no significant on-site slopes requiring protection. Incorporate requirements applicable to individual priority project categories (from SDRWQCB NPDES Permit) S6 Dock areas No dock areas. S7 Maintenance bays No maintenance bays S8 Vehicle wash areas No designated vehicle wash areas S9 Outdoor processing areas No outdoor processing areas. S10 Equipment wash areas No designated equipment wash areas. S11 Fueling areas No onsite fueling areas. S12 Hillside landscaping No onsite hillside areas. S13 Wash water control for food preparation areas No outdoor food preparation areas. S14 Community car wash racks N/A; residential development □ ~ □ ~ ~ □ □ ~ □ ~ □ ~ □ ~ □ ~ □ ~ □ ~ □ ~ □ ~ □ ~ □ ~ PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 27 S3 – Trash Enclosures: The Owner shall keep trash storage areas clean and orderly to reduce pollutant introduction. All trash container areas shall be paved with an impervious surface, designed not to allow run-on, screened or walled to prevent off-site transport of trash, and be provided with a roof or awning to prevent direct precipitation. PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 28 IV.4 ALTERNATIVE COMPLIANCE PLAN (IF APPLICABLE) IV.4.1 Water Quality Credits Determine if water quality credits are applicable for the project. Description of Proposed Project Project Types that Qualify for Water Quality Credits (Select all that apply): Redevelopment projects that reduce the overall impervious footprint of the project site. Brownfield redevelopment, meaning redevelopment, expansion, or reuse of real property which may be complicated by the presence or potential presence of hazardous substances, pollutants or contaminants, and which have the potential to contribute to adverse ground or surface WQ if not redeveloped. Higher density development projects which include two distinct categories (credits can only be taken for one category): those with more than seven units per acre of development (lower credit allowance); vertical density developments, for example, those with a Floor to Area Ratio (FAR) of 2 or those having more than 18 units per acre (greater credit allowance). Mixed use development, such as a combination of residential, commercial, industrial, office, institutional, or other land uses which incorporate design principles that can demonstrate environmental benefits that would not be realized through single use projects (e.g. reduced vehicle trip traffic with the potential to reduce sources of water or air pollution). Transit-oriented developments, such as a mixed use residential or commercial area designed to maximize access to public transportation; similar to above criterion, but where the development center is within one half mile of a mass transit center (e.g. bus, rail, light rail or commuter train station). Such projects would not be able to take credit for both categories, but may have greater credit assigned Redevelopment projects in an established historic district, historic preservation area, or similar significant city area including core City Center areas (to be defined through mapping). Developments with dedication of undeveloped portions to parks, preservation areas and other pervious uses. Developments in a city center area. Developments in historic districts or historic preservation areas. Live-work developments, a variety of developments designed to support residential and vocational needs together – similar to criteria to mixed use development; would not be able to take credit for both categories. In-fill projects, the conversion of empty lots and other underused spaces into more beneficially used spaces, such as residential or commercial areas. Calculation of Water Quality Credits (if applicable) Water Quality Credits are not applicable to this two-unit residential development. -□------------------------------------------□ -□ -□-------------------------------------------□ -□---------------------------------------- -------------------------------------------------------+-,□---~--□ -□---------------------------------------- □ □ -------------------------------------~~---~---~------~---------------------------------------------- PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 29 IV.4.2 Alternative Compliance Plan Information Describe an alternative compliance plan (if applicable). Include alternative compliance obligations (i.e., gallons, pounds) and describe proposed alternative compliance measures. An Alternative Compliance Plan is not needed for this development, where the water quality design volume has been met using Hydrologic Source Control BMPs. PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 30 Section V Inspection/Maintenance Responsibility for BMPs Prepare and attach an Operation and Maintenance Plan. Identify the mechanism through which BMPs will be maintained. Inspection and maintenance records must be kept for a minimum of five years for inspection by the regulatory agencies. See ATTACHMENT “A” of this WQMP. PA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 31 Section VI Site Plan and Drainage Plan VI.1 SITE PLAN AND DRAINAGE PLAN Include a site plan and drainage plan sheet containing the following minimum information: • Project location • Site boundary • Land uses and land covers, as applicable • Suitability/feasibility constraints • Structural BMP locations • Drainage delineations and flow information • Drainage connections • BMP details PA2021-024 ALLEYFD. L&TRCE 24668FD. L&TLS 6921FD. L&TLS6921RESIDENCE RESIDENCERESIDENCE RESIDENCEOCEAN FRONTPROPOSED RESIDENCEFF=14.50GARAGE139 Avenida NavarroSan Clemente, CA 92672949.492.8586www.toalengineering.comCIVIL ENGINEERINGLAND SURVEYINGSTORMWATER QUALITYWQMP LEGENDPROPOSED HARDSCAPE AREAPROPOSED BUILDING ADDITIONRUNOFF FLOW DIRECTIONPROJECT AREA BOUNDARYPROPOSED INFILTRATION BMPDMA TABLEDETAILINFILTRATION TRENCHPA2021-024 Water Quality and Hydrology Plan (WQHP) 6806 West Oceanfront, Newport Beach, CA NORTON RESIDENCE 21002-wqhp-body Page 32 Section VII Educational Materials Refer to the Orange County Stormwater Program (ocwatersheds.com) for a library of materials available. For the copy submitted to the Permittee, only attach the educational materials specifically applicable to the project. Other materials specific to the project may be included as well and must be attached. Education Materials Residential Material (http://www.ocwatersheds.com) Check If Applicable Business Material (http://www.ocwatersheds.com) Check If Applicable The Ocean Begins at Your Front Door Tips for the Automotive Industry Tips for Car Wash Fund-raisers Tips for Using Concrete and Mortar Tips for the Home Mechanic Tips for the Food Service Industry Homeowners Guide for Sustainable Water Use Proper Maintenance Practices for Your Business Household Tips Other Material Check If Attached Proper Disposal of Household Hazardous Waste Recycle at Your Local Used Oil Collection Center (North County) R-4 Home and Garden Care Activities Recycle at Your Local Used Oil Collection Center (Central County) Recycle at Your Local Used Oil Collection Center (South County) Tips for Maintaining a Septic Tank System Responsible Pest Control Sewer Spill Tips for the Home Improvement Projects Tips for Horse Care Tips for Landscaping and Gardening Tips for Pet Care Tips for Pool Maintenance Tips for Residential Pool, Landscape and Hardscape Drains Tips for Projects Using Paint PA2021-024 ATTACHMENT A BMP Fact Sheet PA2021-024 TECHNICAL GUIDANCE DOCUMENT APPENDICES XIV-5 December 20, 2013 HSC-2: Impervious Area Dispersion Impervious area dispersion refers to the practice of routing runoff from impervious areas, such as rooftops, walkways, and patios onto the surface of adjacent pervious areas. Runoff is dispersed uniformly via splash block or dispersion trench and soaks into the ground as it move slowly across the surface of pervious areas. Minor ponding may occur, but it is not the intent of this practice to actively promote localized on-lot storage (See HSC-1: Localized On-Lot Infiltration). Feasibility Screening Considerations  Impervious area dispersion can be used where infiltration would otherwise be infeasible, however dispersion depth over landscaped areas should be limited by site-specific conditions to prevent standing water or geotechnical issues. Opportunity Criteria  Rooftops and other low traffic impervious surface present in drainage area.  Soils are adequate for infiltration. If not, soils can be amended to improve capacity to absorb dispersed water (see MISC-2: Amended Soils).  Significant pervious area present in drainage area with shallow slope  Overflow from pervious area can be safely managed. OC-Specific Design Criteria and Considerations □ Soils should be preserved from their natural condition or restored via soil amendments to meet minimum criteria described in Section . □ A minimum of 1 part pervious area capable of receiving flow should be provided for every 2 parts of impervious area disconnected. □ The pervious area receiving flow should have a slope ≤ 2 percent and path lengths of ≥ 20 feet per 1000 sf of impervious area. □ Dispersion areas should be maintained to remove trash and debris, loose vegetation, and protect any areas of bare soil from erosion. □ Velocity of dispersed flow should not be greater than 0.5 ft per second to avoid scour. Calculating HSC Retention Volume  The retention volume provided by downspout dispersion is a function of the ratio of impervious to pervious area and the condition of soils in the pervious area.  Determine flow patterns in pervious area and estimate footprint of pervious area receiving dispersed flow. Calculate the ratio of pervious to impervious area.  Check soil conditions using the soil condition design criteria below; amend if necessary.  Look up the storm retention depth, dHSC from the chart below. Simple Downspout Dispersion Source: toronto.ca/environment/water.htm Also known as: Downspout disconnection Impervious area disconnection Sheet flow dispersion  PA2021-024 TECHNICAL GUIDANCE DOCUMENT APPENDICES XIV-6 December 20, 2013  The max dHSC is equal to the design storm depth for the project site. Soil Condition Design Criteria □ Maximum slope of 2 percent □ Well-established lawn or landscaping □ Minimum soil amendments per criteria in MISC-2: Amended Soils. Configuration for Use in a Treatment Train  Impervious area disconnection is an HSC that may be used as the first element in any treatment train  The use of impervious area disconnection reduces the sizing requirement for downstream LID and/or treatment control BMPs Additional References for Design Guidance  SMC LID Manual (pp 131) http://www.lowimpactdevelopment.org/guest75/pub/All_Projects/SoCal_LID_Manual/SoCalL ID_Manual_FINAL_040910.pdf  City of Portland Bureau of Environmental Services. 2010. How to manage stormwater – Disconnect Downspouts. http://www.portlandonline.com/bes/index.cfm?c=43081&a=177702  Seattle Public Utility: http://www.cityofseattle.org/util/stellent/groups/public/@spu/@usm/documents/webcontent/sp u01_006395.pdf  Thurston County, Washington State (pp 10): http://www.co.thurston.wa.us/stormwater/manual/docs-faqs/DG-5-Roof-Runoff- Control_Rev11Jan24.pdf 1 Pervious area used in calculation should only include the pervious area receiving flow, not pervious area receiving only direct rainfall or upslope pervious drainage. PA2021-024 TECHNICAL GUIDANCE DOCUMENT APPENDICES XIV-50 December 20, 2013 XIV.5. Biotreatment BMP Fact Sheets (BIO) Conceptual criteria for biotreatment BMP selection, design, and maintenance are contained in Appendix XII. These criteria are generally applicable to the design of biotreatment BMPs in Orange County and BMP-specific guidance is provided in the following fact sheets. 24 Note: Biotreatment BMPs shall be designed to provide the maximum feasible infiltration and ET based on criteria contained in Appendix XI.2. BIO-1: Bioretention with Underdrains Bioretention stormwater treatment facilities are landscaped shallow depressions that capture and filter stormwater runoff. These facilities function as a soil and plant-based filtration device that removes pollutants through a variety of physical, biological, and chemical treatment processes. The facilities normally consist of a ponding area, mulch layer, planting soils, and plants. As stormwater passes down through the planting soil, pollutants are filtered, adsorbed, biodegraded, and sequestered by the soil and plants. Bioretention with an underdrain are utilized for areas with low permeability native soils or steep slopes where the underdrain system that routes the treated runoff to the storm drain system rather than depending entirely on infiltration. Bioretention must be designed without an underdrain in areas of high soil permeability. Feasibility Screening Considerations x If there are no hazards associated with infiltration (such as groundwater concerns, contaminant plumes or geotechnical concerns), bioinfiltration facilities, which achieve partial infiltration, should be used to maximize infiltration. 24 Not all BMPs presented in this section are considered “biofiltration BMPs” under the South Orange County Permit Area. Biofiltration BMPs are vegetated treat-and-release BMPs that filter stormwater through amended soil media that is biologically active, support plant growth, and also promote infiltration and/or evapotranspiration. For projects in South Orange County, the total volume of storage in surface ponding and pores spaces is required to be at least 75% of the remaining DCV that the biofiltration BMP is designed to address. This prevents significant down- sizing of BMPs which otherwise may be possible via routing calculations. Biotreatment BMPs that do not meet this definition are not considered to be LID BMPs, but may be used as treatment control or pre-treatment BMPs. See Section III.7 and Worksheet SOC-1 for guidance. Also known as: ¾Rain gardens with underdrains ¾Vegetated media filter ¾Downspout planter boxes Bioretention Source: Geosyntec Consultants PA2021-024 TECHNICAL GUIDANCE DOCUMENT APPENDICES XIV-51 December 20, 2013 x Bioretention with underdrain facilities should be lined if contaminant plumes or geotechnical concerns exist. If high groundwater is the reason for infiltration infeasibility, bioretention facilities with underdrains do not need to be lined. Opportunity Criteria x Land use may include commercial, residential, mixed use, institutional, and subdivisions. Bioretention may also be applied in parking lot islands, cul-de-sacs, traffic circles, road shoulders, road medians, and next to buildings in planter boxes. x Drainage area is ≤ 5 acres. x Area is available for infiltration. x Site must have adequate relief between land surface and the stormwater conveyance system to permit vertical percolation through the soil media and collection and conveyance in underdrain to stormwater conveyance system. OC-Specific Design Criteria and Considerations □ Ponding depth should not exceed 18 inches; fencing may be required if ponding depth is greater than 6 inches to mitigate drowning. □ The minimum soil depth is 2 feet (3 feet is preferred). □ The maximum drawdown time of the bioretention ponding area is 48 hours. The maximum drawdown time of the planting media and gravel drainage layer is 96 hours, if applicable. □ Infiltration pathways may need to be restricted due to the close proximity of roads, foundations, or other infrastructure. A geomembrane liner, or other equivalent water proofing, may be placed along the vertical walls to reduce lateral flows. This liner should have a minimum thickness of 30 mils. □ If infiltration in bioretention location is hazardous due to groundwater or geotechnical concerns, a geomembrane liner must be installed at the base of the bioretention facility. This liner should have a minimum thickness of 30 mils. □ The planting media placed in the cell shall be designed per the recommendations contained in MISC-1: Planting/Storage Media □ Plant materials should be tolerant of summer drought, ponding fluctuations, and saturated soil conditions for 48 hours; native place species and/or hardy cultivars that are not invasive and do not require chemical inputs should be used to the maximum extent feasible □ The bioretention area should be covered with 2-4 inches (average 3 inches) or mulch at the start and an additional placement of 1-2 inches of mulch should be added annually. □ Underdrain should be sized with a 6 inch minimum diameter and have a 0.5% minimum slope. Underdrain should be slotted polyvinyl chloride (PVC) pipe; underdrain pipe should be more than 5 feet from tree locations (if space allows). □ A gravel blanket or bedding is required for the underdrain pipe(s). At least 0.5 feet of washed aggregate must be placed below, to the top, and to the sides of the underdrain pipe(s). □ An overflow device is required at the top of the bioretention area ponding depth. □ Dispersed flow or energy dissipation (i.e. splash rocks) for piped inlets should be provided at basin inlet to prevent erosion. □ Ponding area side slopes shall be no steeper than 3:1 (H:V) unless designed as a planter box BMP with appropriate consideration for trip and fall hazards. PA2021-024 TECHNICAL GUIDANCE DOCUMENT APPENDICES XIV-52 December 20, 2013 Simple Sizing Method for Bioretention with Underdrain If the Simple Design Capture Volume Sizing Method described in Appendix III.3.1 is used to size a bioretention with underdrain facility, the user selects the basin depth and then determines the appropriate surface area to capture the DCV. The sizing steps are as follows: Step 1: Determine DCV Calculate the DCV using the Simple Design Capture Volume Sizing Method described in Appendix III.3.1. Step 2: Verify that the Ponding Depth will Draw Down within 48 Hours The ponding area drawdown time can be calculated using the following equation: DDP = (dP / KMEDIA) × 12 in/ft Where: DDP = time to drain ponded water, hours dP = depth of ponding above bioretention area, ft (not to exceed 1.5 ft) KMEDIA = media design infiltration rate, in/hr (equivalent to the media hydraulic conductivity with a factor of safety of 2; KMEDIA of 2.5 in/hr should be used unless other information is available) If the drawdown time exceeds 48 hours, adjust ponding depth and/or media infiltration rate until 48 hour drawdown time is achieved. Step 3: Determine the Depth of Water Filtered During Design Capture Storm The depth of water filtered during the design capture storm can be estimated as the amount routed through the media during the storm, or the ponding depth, whichever is smaller. dFILTERED = Minimum [ ((KMEDIA × TROUTING)/12), dP] Where: dFILTERED = depth of water that may be considered to be filtered during the design storm event, ft KMEDIA = media design infiltration rate, in/hr (equivalent to the media hydraulic conductivity with a factor of safety of 2; KMEDIA of 2.5 in/hr should be used unless other information is available) TROUTING = storm duration that may be assumed for routing calculations; this should be assumed to be no greater than 3 hours. If the designer desires to account for further routing effects, the Capture Efficiency Method for Volume-Based, Constant Drawdown BMPs (See Appendix III.3.2) should be used. dP = depth of ponding above bioretention area, ft (not to exceed 1.5 ft) Step 4: Determine the Facility Surface Area A = DCV/ (dP + dFILTERED) Where: A = required area of bioretention facility, sq-ft DCV = design capture volume, cu-ft dFILTERED = depth of water that may be considered to be filtered during the design storm event, ft dP = depth of ponding above bioretention area, ft (not to exceed 1.5 ft) In South Orange County, the provided ponding plus pore volume must be checked to demonstrate that it is greater than 0.75 of the remaining DCV that this BMP is designed to address. See Section III.7 and Worksheet SOC-1. PA2021-024 TECHNICAL GUIDANCE DOCUMENT APPENDICES XIV-53 December 20, 2013 Capture Efficiency Method for Bioretention with Underdrains If the bioretention geometry has already been defined and the user wishes to account more explicitly for routing, the user can determine the required footprint area using the Capture Efficiency Method for Volume-Based, Constant Drawdown BMPs (See Appendix III.3.2) to determine the fraction of the DCV that must be provided to manage 80 percent of average annual runoff volume. This method accounts for drawdown time different than 48 hours. Step 1: Determine the drawdown time associated with the selected basin geometry DD = (dp / KDESIGN) × 12 in/ft Where: DD = time to completely drain infiltration basin ponding depth, hours dP = bioretention ponding depth, ft (should be less than or equal to 1.5 ft) KDESIGN = design media infiltration rate, in/hr (assume 2.5 inches per hour unless otherwise proposed) If drawdown is less than 3 hours, the drawdown time should be rounded to 3 hours or the Capture Efficiency Method for Flow-based BMPs (See Appendix III.3.3) shall be used. Step 2: Determine the Required Adjusted DCV for this Drawdown Time Use the Capture Efficiency Method for Volume-Based, Constant Drawdown BMPs (See Appendix III.3.2) to calculate the fraction of the DCV the basin must hold to achieve 80 percent capture of average annual stormwater runoff volume based on the basin drawdown time calculated above. Step 3: Determine the Basin Infiltrating Area Needed The required infiltrating area (i.e. the surface area of the top of the media layer) can be calculated using the following equation: A = Design Volume / dp Where: A = required infiltrating area, sq-ft (measured at the media surface) Design Volume = fraction of DCV, adjusted for drawdown, cu-ft (see Step 2) dp = ponding depth of water stored in bioretention area, ft (from Step 1) This does not include the side slopes, access roads, etc. which would increase bioretention footprint. If the area required is greater than the selected basin area, adjust surface area or adjust ponding depth and recalculate required area until the required area is achieved. In South Orange County, the provided ponding plus pore volume must be checked to demonstrate that it is greater than 0.75 of the remaining DCV that this BMP is designed to address. See Section III.7 and Worksheet SOC-1. Configuration for Use in a Treatment Train x Bioretention areas may be preceeded in a treatment train by HSCs in the drainage area, which would reduce the required design volume of the bioretention cell. For example, bioretention could be used to manage overflow from a cistern. x Bioretention areas can be used to provide pretreatment for underground infiltration systems. Additional References for Design Guidance x CASQA BMP Handbook for New and Redevelopment: http://www.cabmphandbooks.com/Documents/Development/TC-32.pdf PA2021-024 TECHNICAL GUIDANCE DOCUMENT APPENDICES XIV-54 December 20, 2013 x SMC LID Manual (pp 68): http://www.lowimpactdevelopment.org/guest75/pub/All_Projects/SoCal_LID_Manual/SoCalL ID_Manual_FINAL_040910.pdf x Los Angeles County Stormwater BMP Design and Maintenance Manual, Chapter 5: http://dpw.lacounty.gov/DES/design_manuals/StormwaterBMPDesignandMaintenance.pdf x San Diego County LID Handbook Appendix 4 (Factsheet 7): http://www.sdcounty.ca.gov/dplu/docs/LID-Appendices.pdf Los Angeles Unified School District (LAUSD) Stormwater Technical Manual, Chapter 4: http://www.laschools.org/employee/design/fs-studies-and- reports/download/white_paper_report_material/Storm_Water_Technical_Manual_2009-opt- red.pdf?version_id=76975850 x County of Los Angeles Low Impact Development Standards Manual, Chapter 5: http://dpw.lacounty.gov/wmd/LA_County_LID_Manual.pdf PA2021-024 ATTACHMENT B PA2021-024 Did You Know? ■ ~Ion people bcliC\'C that the largest source of,,-.. ucr pollution in urban areas comes rrom SJJt·cific sources !!olldl as factu1ll's .and st•W'dgt· trcauucnt planlS. In fact, Lhc largest source of water pollution comes from city st.reelS, neighborhoods, construction sites and parking lot.s. This type ofpollu1ion is sometimes called "non•poim .source" polhnion. ■There are two types of non-point source pollmion: stormw-ater and urban runoff pollmion. ■Stonnwatcr nmoIT rcsuhs from rainfall. When rainstom1s cause large \'Olumcs of water to 1insc the urban landscape. picking up pollu:ants along 1.he way. ■Urban runoff can happen any time of the year when cxccssh·c water use from irrigation, vehicle washing and 01her sources carries 1rash, lawn clippings and other urban pollur.anu into 5tonn drains. Where Does It Go? ■Anything we uie out11ide home!, vebjcle! and businesses -like motor oil, paint, pesticides, fertilizers and cleaners -can be blown or washed into stonn drains. ■A little w:ater from a garden hose or rain can also send mat.criah into .nonn drains. ■Stonn drains arc separate fmrn our sanitary sewer !)'SleJru; unlike water in sanitary sewers (from sinks or toilcu)i water in storm drains is not treated before eni.eri.ng our waten\"3.)"S. UI O .J • 's: p ;) l( S .l ~ l P. ,'\\ :, 0 " ,\\ ,\\ }',\ uu0J llop.icw:bH UD1qwd uo~nnod .Dlll'!i\,\ ~U!tD-O (<<>L•L69-LLl!-ll Tllds-69-LLll-l :.u!Pl)H Bu1u~ t={qOJJ U0!11'1lJ0d .1:.1"',\\ .1no1ttt .Quno::, :dub() S~tL·L6S (LU) · · • • · • · 1iwlo.ld nll"jt,LWO}S Muno::, ~twJO 81.ll:196 (Ht)· Suµ))U~U] Tpun CQ-JOA 9t+J: 111."'968 (f'IL) ' •.• Ju~»u~u3/'1.1l'IA\)!IC't1'd J;,lfU'!U.OA,\\ OOn-866 (t,lt)' ' ' . " • ' " •.. !uj.1))U,!u3 '.1J~ !:Ill.A o,;;1i'i:Li; (tCl) · ' · ' · ·iuµ:.:>u~UJ/qJ0,A\)!fClfld Ufl"U. ►!)XX i1,g&'6,Li; (tlL) ' •••• ''1;J0,\\3flql\J UOltmS LI~ L7.S7.·t~'t (t9!i) ' . ' .. ' j~~UJIOJ ~ (e:,S Qij\'.1,, ... l.t9 (tit.)'.... . V':IJ0M>nqnJl!:UVQU~ S: I ~'7; (6t,6) . ' . . . . ... llu!,J:1:IU~U] OU'E.fll!{I'() u1:nr lll!S S:H9"t9• 0091~,g ~Vii.8't66 08t'9-t£'S ~ltt::·M'9 911ffl:1ll'1 st~·m OSli:·1911 000>6"9 tc,1,.69£ OC196·l0l 8lt0-l61 0 1"1)6') 66L6-';i06 !ilW-NiL ltl"!i-9f;~ 9%S-ll•L $</89il$L IVM.-S:6~ Mi~S:ilN, 01>!9"(;;.~ ttt~+~t. C.i~·c:9c; 9CJt)t.i)66 ~l (6t6) · · · · · nuu!o.JJ: pnu=:1wu1UJ.\U] :;i1u:aw:»J:) Ul!S (6t6). . ' .. ' l:lµdJtrJ~ rltrn'S l'.HpUttH (>id .. (lrll)' (616). ' ' • ' 'fl!,>◄>.\\ )!l•t"d '1!11.1~.>.:1J · r'Jl,10,\\ .>!1c1uJ :;iSm~.1O '111:uu~.>JOJU:-t .<t!llll'lh J;llr.;\\ :a' .">po:) ••pi:~ J.J(Kl~~ (f1lf1) • • · • • • · · • · · ' q_JO_\\ )11qn,1 of:»tA urnm1\'. (t9~)' ' • " • • ' • ' " '~\:)Q ,(l!UIUIIUJQ::} SOl!IIR!fV M'J (61·6)" . . • • ' • . . i"'J!JO,\\ .:>!jqllJ 1'-.JlO.i ::ll1!7 (61·6) • · · • • • • • · ' -~.JO,\\ ::l!l'IIIJ q>OO,\\ v.un.SY"] (61·6) · · · ''1.10,\\ ;)!f<tOd 1~~!~ l!utiSri (61·6) .. ' .. "Q.l!,U~ ']1qnJ 'll!J I l!llfiSt:7 (61·6) · · · · ·.<t!l~nb J.111!:\\ tpl':;)Q l!lll'81!7 (t-lL)' • ' ' ·~,a,o,\\ ~lt(IIJ lltHIVJ 1q (t9';) .•• (616)" " (ML)"" • ·~J.)!AJ:,,S .)!IC'lllJ t.1tp:1-l 'C'"] ·qJO,\\ ::io!1qnJ ::iu~uJ ll')!JO.\\ Jo!IC"!nJ tp1!;){1 1101li'upun11 ( I• I'-)· • · • ' • • \".fiJO,\\ J!tfl"d 3..\0J:) uap . .rn:) (ML)· • · · · ·,dao £uµ~'lu!8u3 llOP~lll.i (1>1!.)• • · · · · Sl{JO,\PlJql\j ,btJI!.\ ll~lllllO.i (6N,i) · ·q Jo,\\ :,!1qnd lU!OJ l:Ul!Q ( t-1 !) · · i":1Jo,\\ :1!1qnJ tt.nd\.') (ML)· · ·s:>;>!,U~ .>!lqnJ llY.)I\! t.1So:J (tld · • f1JO,\\ :>!IcII\J '''"d t:u.-.119 (ML)· · · · · ·Supa:,u!~u3 ~J\l (l•ld · · · · · · • • n.t0f1"..1:;"HIQ \"llJO,\\ )!lflllJ wp111:uv Sources of No11-Poi11t Sow·ce Pollution ■Automoth·e leaks and spills. ■ Improper disposal of used oil ;md other engine Ouids. ■ Metals found in \'Chicle exhaust, weathered paim, nist, metal plating and tires. ■ Pesticides and fertilizers from lawns. gardc1ls a11d famlS. ■ Improper disposal of cleaners, paint and paint rcmo"crs. ■Soil erosion and chm debris from landscape and constn1ction activities. ■ Liner, lawn clippinE,rs, animal waste. and other organic matter. ■Oil stains on parking lots and paved s11rfaces. wOO'fP::i11i.a~...,,.,:,n·1111au!nfoJu,...:.l~n1on Ol lflt'XI:, ft pu.,t :>ft:llld 'l'!I ~tp lf!Of Ol. ·nu::un:14:, nl"C-ISrudJn 11np'1u2nt:111dw1 :.qi p•~lJ()llnJ ucqm pU't J)lf."'UUOIS Ol ~lll!l)J PJdo, pu1: 11:)1'1"11noq1: u:;im ~! luomt p.:,p! ~ln!lf)D pur f'IJO!}Pnb :ll'Jl"-1 •1uori"Q!unmwo:i, :llflffi,e,J 01 lf!I Bum,w )!DQ.ll»)~ m: Ql't.l~pom pUY p;tlt).t:, fflf anuSoJJ J::r!~CUJClS Altmo:) :lilllll'JO :1iu, wO:)·it1,1:t):)n·MM.M \!f!.\.JO 9"91-80L (J,IL) aumoa »0.>pn~ .J~lffPJ ~fi WO)''qOOfllJlnlldUJqV·M..lf'..\\ 11£!1'. ,aooqpmff ~p:>'IJd 10:.waJ•osw: lNU ,1a1eM.1DJ0lS WOYWWoolieJO'M.M.M l!lfAJO OOIL·Ltt (t,ll) .UDO~ ~(lUµlv ':)'0 uo~anol ;)lft."'-P!101 pm: ua1u";11:> Xu1pb;u •u~,ua:, U0!-')):)110) :)lS'EM, fflOP-Jl?ttq p10,pmo4 uo UOf)ElWOJlf! JOJ lUOYSJl!Jllt.rv.'J-:>n·,,\\\.\\ 1!5~\ JO 6~l9i,t;'8 (f,Jl) A.Jun<>:> aju11JQ JO ·1d:10 1uawai11U1:·w :»tR,\\ pa1u.8a101 WOYOJU!lFJt:;>(1)0',\\.o\\M l!f~ JO 00t,91si;t, (ML) 3ll!110J-I jllf'I-S"OJ t)ll\", .;t.Jll!iQf:) J;»ll!'t,\ ,(119 pm! tff.>.>Q s,.bua!\f a.11:::, 'fllUH l!Jo ·dnm:.>l.l0081 '·\"""'"' l!i.!,,,JO dnu~>OOS-1 ll0!11!Ul.lOJ\II ll?Hl.>HIUOJ~\U'3 :,1Jp:XIR-,(]!ll0Ullllo:)• 116 \{IJ\,"3 ,\08'\!)'5PJCO<l);Jl~\\',\"LA\.\\ p.nou IO.QUO~ sa11nOS'<f}I Jall!'ft\ :>1~lS .\'JS·v.:nil111:x,·,,\M..\\ IU3Wss.lSS"\f plBZl!H tp[llaH ~uawuru~,03 JO aa9JO A01h!)'QUl,M!Y-'\i\\.\\ pnoa 1uama31:un~ autv1\\ p:uuja1n1 ,\01J·~:,·.)S11>·.,\.\\.\\ IMllo:) S3:>we1sqns :>,!"XOJ. JO 1uaunnd~Q ,,o~h::ndp".:t·o\1.M .. ,1. llOf'll:('lJ:Jll .lPF>!l~d J<> IU;)UQ.n:d:10 .,o~·c:,·q..1l!',,\.\\.'1 p.U:Off U.UftOS)lf J!V AOlle:n:da1~·.,\,\\\ ,(.-,u:;ijy UO!')!)~IQ.&d (1tlu:MUUG.l!,,l.,ll3 W!UJOJffe-.) The Effect on. the Ocean Non-point source pollution can ha.·c a serious impact on water quality in Orange County. Pollur.ant.s from Lhe ____ <_, __ _.J storm drain S}'Jtem can harm marine life as well as c:oa.nal and wetland habitats. They can also degradr. recreation areas .such aJ beaches, harbors and bays. Stormwater quality management programs ha\'e been de\·eloped throughout Orange County to educate and encourage the public to protect water quality, monitor runoff in the storm drain ~'Stem, inw,,tigaie illegal dumping and maintain stonn druins. Support from Orange County re!ident., and bwinesses i! needed to imprm•e water quality and reduce urban runoffpollucion. Proper use and di,po,al of material, will help <top pollution before it reache! the ~tonn drain and the ocean. - ~ -. -----~. -_ .. -._,., ·-. -. ,- PA2021-024 FolJow these simplcslcps to help reduce water pollution: Household Activities ■ Do not rinse spills with water. Use dry cleanup methods such as applying cat liner or another absorbcm material, sweep and dispose of in the trash. Take iu:ms such as used or excess baucrics, oven cleaners, automotive nuids, painting producu and cathode ra)' IUbcs, like TVs and compu1ei· monito1-s, to a J louschold Ha,ardous Waste Collec,ion Center ( 111 IWCC). ■For a III IWCC near )'OU call (7141 83+-6752 o,· visi1 ww,,.ocla,1dfiils.coo1. ■ Oo not hose clown your dri\'cway, sidewalk or patio 10 1hc s1rec1, gutter or storm drain. Sweep up debris and dispose ofiL in the LraSh. Automotive ■·lake your vchiclelO a commctcial car ,'lash ,vhcnever-p<>Ssiblc. lryou ,va3h your \'Chicle at home, <hoosc soaps, cleaners, or dctcrgems labeled norHox.ic, phosphat<. ... free or biodegradable. Vegetable and citrus•bascd products arc typically safest for the environment. ■ Do not allow washwatcr from vehicle washing to drain inlO 1hc street, guucr or stonn dr.1in. Excess washw·a1crshould be disposed ofin the sanitary se,•:cr (through a sink or toilet) or-onto an absorbent surface like your lawn. ■Monitor your vehicles for leaks and place a pan under leaks. Keep your vehicles well maintained to stop and prevent leaks. ■ Never pour oil or anti.freeze in the street, gutter- or storm drain. Recycle these substances at a service statioo, a waste oil collection center-or used oil rcqdii"'lgcemcr. 1-.. or the nearest Used Oil Collcc,ion Center call 1-800.CLEA:--IL'l' or visit Mn-.,.1800dc;.inup.org. Pool Mai11te11a11ce ■ Pool and spa water must be dechlorinated and free of excess acid, alkali or color to be allowed in the street, guuer or stor'lll drain. ■When 11 is not raining, drain dechlorinated pool and spa water directly into the sanitary sewer. ■Some cities may ha,·e ordinances that do 1101 allow pool \\later to be disposed or in the stonn drain. Check ,,ith your city. Landscape and Garde11i11g ■ Do not over-water. Water your lawn and garden by hand to control the amount of water you use or set irriga1ion srstems to rdlec1 seasonal ,v-,11c1 needs. If ,vatc1· nows off yout yard onto you1 driveway 01 sidewalk. your system is ovcM,,.ucring. Pc,iodically in:spcc1 cmd fi;\. kal,..,, .:md 1oi.:idi1cuc-d :sp1iu1Jcu. ■ Do not rake or blow lca"es, clippings or pruning wasLc into the street, guucr or Slonn drai11. hutead. dispose of wasLc by compoSLi1lg, hauling it to a pc1111itu•d lan<lfill, or as 1-!r,•c·n wa!t1c~ 1hrn11gh ynm city"s recycling program. ■ follow directions on pesticides and fertilizer, (measure, do not estimate amounts) ;md do not use if rain is predicted within 48 hours. ■Take unwamed pesticides to a l·ll lWCC to be rec)'clccl. For locations and hours of 1-1 HWCC, call (714) 8346752 or visit ww,\.ocla11clfills.corn. Trash ■Place trash and liner that cannot be recycled in securel)' covered lrash cans. ■Whenever possible, buy recycled products. ■ Remember: Reduce, Reuse, ReC)'clc. Pet Care ■Ah,m)'S pick up after your pet. Flush waste down the toilet or dispose ofiL in the 1rash. Pct waste, if left outdoors, can wash imo the street, gutter or stonn drain. ■If possible, bathe )'Our pets indoors. If you must bathe your pct outside, wash ii on your lawn or another absorbent/penneable .surface to keep the wash water from emering the street, gutter or storm drain. ■ Follow dircclions for use of pct. care products and di.spo5~ of any um15ed producu at a I-II-IWCC. PA2021-024 For more informatio n, please call the Orange County Stormwater Program a t 1-877-89-SPILL (1-877-897-7455) or visit www.ocwatersheds.com To Report Illegal Dumping of Household Hazardous Waste call 1-800-69-TOXIC To report a spill, call the Orange County 24-Hour Water Pollution Problem Reporting Hotline 1-877-89-SPILL (1-877-897-7455). For emergencies, dial 911. ' RCCYCLE USED O il. () P1i11tcd on Recycled Paper 'our .t'ront Uoor PROJECT Po33wt,on PREVENTION PA2021-024 Leftover household products that contain corrosive, toxic, ignitable, or reactive ivt 1/:A ' POSS/BU~. l !Sf:' .VO.V-1 l,\'/AR/)Ol IS OU 1.r:ss-11'\ '/Jlf U JOl 1s PRO/Jl '(,"IS. ingredients are considered to be "household hazardous waste" or "HHW." HHW can be found throughout your home, including the bathroom, kitchen, laundry room and garage. Disposal of HHW down the drain, on the ground, into storm drains, or in the trash is illegal and unsafe. Proper disposal of HHW is actually easy. Simply drop them off at a Household Hazardous Waste Collection Center (HHWCC) for free disposal and recycling. Many materials including anti-freeze, latex- based paint, motor oil and batteries can be recycled. Some centers have a "Stop & Swap" program that lets you take partially used home, garden, and automobile products free of charge. There are four HHWCCs in Orange County: Anaheim: .................. 1071 N. Blue Gum St Huntington Beach: ......... 17121 Nichols St Irvine: ............................ 6411 Oak Canyon Sanjuan Capistrano: ... 32250 La Pata Ave Centers are open Tuesday-Saturday, 9 a.m.- 3 p.m. Centers are closed on rainy days and major holidays. For more information, call (714) 834-6752 or visit www.oclandfills.com. Common househoul hazardous wastes ■ Batteries ■ Paint and paint products ■ Adhesives ■ Drain openers ■ Household cleaning products ■ Wood and metal cleaners and polishes ■ Pesticides ■ Fungicides/wood preservatives ■ Automotive products (antifreeze, motor oil, fluids) ■ Grease and rust solvents ■ Fluorescent lamps ■ Mercury (th ermometers & thermostats) ■ All forms of electronic waste including computers and microwaves ■ Pool & spa chemicals ■ Cleaners ■ Medications ■ Propane (camping & BBQ) ■ Mercury-containing lamps ■ Television & monitors (CRTs, flatscreens) Tips for household hazardous waste ■ Never dispose of HHW in the trash, street, gutter, storm drain or sewer. ■ Keep these materials in closed, labeled containers and store materials indoors or under a cover. ■ When possible, use non-hazardous products. ■ Reuse products whenever possible or share with family and friends. ■ Purchase only as much of a product as you'll need. Empty containers may be disposed of in the trash. ■ HHW can be harmful to humans, pets and the environment. Report emergencies to 911. PA2021-024 For more information, please call the Orange County Stormwater Program at 1-877-89-SPILL (1-877-897-7455) or visit www.ocwatersheds.com UCCE Master Gardener Hotline: (714) 708-1646 To report a spill, call the Orange County 24-Hour Water Pollution Problem Reporting Hotline 1-877-89-SPILL (1-877-897-7455). For emergencies, dial 9 11. The tips contained in this brochure provide usefnl information to help prevent water pollution while landscaping or gardening. lf you have other suggestions, please contact your city's stormwater representatives or call the O range County Stormwater Program . • # .. ... .., Printed on Recycled Paper at Your Front D R O J I C Po33tttio: PA2021-024 Never allow gardening products or polluted water to enter the street, gutter or storm drain. General Landscaping Tips ■ Protect stockpiles and materials from wind and rain by storing them under tarps or secured plastic sheeting. ■Prevent erosion of slopes by planting fast-growing, dense ground covering plants. These will shield and bind the soil. ■Plant native vegetation to reduce the amount of water, fertilizers, and pesticide applied to the landscape. ■Never apply pesticides or fertilizers when rain is -- predicted within the next 48 hours. Garden & Lawn Maintenance ■Do not overwater. Use irrigation practices such as drip irrigation, soaker hoses or micro spray systems. Periodically inspect and fix leaks and misdirected sprinklers. ■ Do not rake or blow leaves, clippings or pruning waste into the street, gutter or storm drain. Instead, dispose of green waste by composting, hauling it to a permitted landfill, or recycling it through your city's program. ■ Use slow-release fertilizers to minimize leaching, and use organic fertilizers. ■ Read labels and use only as directed. Do not over-apply pesticides or fertilizers. Apply to spots as needed, rather than blanketing an entire area. ■ Store pesticides, fertilizers and other chemicals in a dry covered area to prevent exposure that may result in the deterioration of containers and packaging. ■ Rinse empty pesticide containers and re-use rinse water as you would use the product. Do not dump rinse water down storm d rains. Dispose of empty containers in the trash. ■When available, use non-toxic alternatives to traditional pesticides, and use pesticides specifically designed to control the pest you are targeting. For more information, visit www.ipm.ucdavis.edu. ■ If fertilizer is spilled, sweep up the spill before irrigating. If the spill is liquid, apply an absorbent material such as cat litter, and then sweep it up and dispose of it in the trash. ■ Take unwanted pesticides to a Household Hazardous Waste Collection Center to be recycled. Locations are provided below. PA2021-024 For more infor mation , please call the Orange County Stormwater Program at 1-877-89-SPILL (1-877-897-7455) or visit www.ocwatersheds.com To report a spill, call the Orange County 24-Hour Water Pollution Reporting Hotline 1-877-89-SPILL (1-877-897-7455). For emergencies, dial 911. The rips contained in this brochure provide useful information to help prevent water pollution while maintaining your pool. If you have other suggestions, please contact your city's stormwater representatives or call the Orange County Stormwater Program. rTlie Ocean Begins at Your Front Door PR o ,J E CT PoJi~t,on P R E V E N T-1 0 N PA2021-024 Many pools are plumbed to allow the pool to drain directly to the sanitary sewer. If yours is not, follow these instructions for disposing of pool and spa water. Acceptable and Preferred Method of Disposal When you cannot dispose of pool water in the sanitary sewer, the release of dechlorinated swimming pool water is allowed if all of these tips are followed: ■ The residual chlorine does not exceed 0.1 mg/1 (parts per million). ■The pH is between 6.5 and 8.5. ■The water is free of any unusual coloration, dirt or algae. ■ There is no discharge of filter media. ■There is no discharge of acid cleaning wastes. ■ Some cities may have ordinances that do not allow pool water to be disposed into a storm drain. Check with your city. How to Know if You're Following the Standards You can find out how much chlorine is in your water by using a pool testing kit. Excess chlorine can be removed by discontinuing the use of chlorine for a few days prior to discharge or by purchasing dechlorinating chemicals from a local pool supply company. Always make sure to follow the instructions that come with any products you use. ~~~~ * +-:"-·--""i-. --~1 . . . . __ • . J_ ·- Doing Your Part By complying with these guidelines, you will make a significant contribution toward keeping pollutants out of Orange County's creeks, streams, rivers, bays and the ocean. This helps to protect organisms that are sensitive to pool chemicals, and helps to maintain the health of our environment. Pll:OJl<T Po~!ut,0 11 PRIVENTION •◄◄ PA2021-024 ATTACHMENT C PA2021-024 Source : Goolge Earth site PA2021-024 ATTACHMENT D PA2021-024 Operations and Maintenance (O&M) Plan for Norton Residence 6806 West Oceanfront Newport Beach, California 92663 APN 045-033-17 Overall Responsible Party/Owner: Sean Norton 6806 West Oceanfront Newport Beach, California 92663 (949)637-5220 PA2021-024 Exhibit B, Operations and Maintenance Plan BMP Applicable? Yes/No BMP Name and BMP Implementation, Maintenance and Inspection Procedures Implementation, Maintenance, and Inspection Frequency and Schedule Person or Entity with Operation & Maintenance Responsibility Non-Structural Source Control BMPs Yes N1. Education for Property Owners, Tenants and Occupants Practical information materials will be provided to the first residents/occupants/tenants on general housekeeping practices that contribute to the protection of stormwater quality. These materials will be initially developed and provided to first residents/occupants/tenants by the developer. Owner shall keep up to date with BMP requirements, and be responsible for educating maintenance personnel; As required. Owner Yes N2. Activity Restrictions The following actions are prohibited on the project site: (1) car washing on any portion of the property, (2) disposal of solid waste on the property except in designated trash areas, (3) disposal of liquid waste into any solid waste container, (4) placement of hazardous waste in any solid waste container. Any activities that would violate the City of Newport Beach Water Quality Ordinance (Municipal Code Chapter 14.36). Owner Yes N3. Common Area Landscape Management Identify on-going landscape maintenance requirements that are consistent with those in the County Water Conservation Resolution (or city equivalent) that include fertilizer and/or pesticide usage consistent with Management Guidelines for Use of Fertilizers (DAMP Section 5.5). Statements regarding the specific applicable guidelines must be included in the project WQMP. Keep garden areas clean, planted, and weed free. Weekly. Owner or contracted maintenance personnel Yes N4. BMP Maintenance The project WQMP shall identify responsibility for implementation of each non-structural BMP and scheduled cleaning and/or maintenance of all structural BMP facilities. Visual Inspection, perform more thorough inspection if ponding water sits for more than 48 hours. Twice yearly and immediately following each storm event. Owner or contracted maintenance personnel No N5. Title 22 CCR Compliance PA2021-024 Exhibit B, Operations and Maintenance Plan Page 2 of 10 BMP Applicable? Yes/No BMP Name and BMP Implementation, Maintenance and Inspection Procedures Implementation, Maintenance, and Inspection Frequency and Schedule Person or Entity with Operation & Maintenance Responsibility No N6. Local Water Quality Permit Compliance No N7. Spill Contingency Plan No N8. Underground Storage Tank Compliance No N9. Hazardous Materials Disclosure Compliance No N10. Uniform Fire Code Implementation No N11. Common Area Litter Control No N12. Employee Training No N13. Housekeeping of Loading Docks No N14. Common Area Catch Basin Inspection No N15. Street Sweeping Private Streets and Parking Lots Structural Source Control BMPs No S1. Provide Storm Drain System Stenciling and Signage No S2. Design Outdoor Hazardous Material Storage Areas to Reduce Pollutant Introduction Yes S3. Design Trash Enclosures to Reduce Pollutant Introduction Design trash storage areas to reduce pollutant introduction. All trash container areas shall be paved with an impervious surface, designed not to allow run-on, screened or walled to prevent off-site transport of trash, and be provided with a roof or awning to prevent direct precipitation. Keep trash storage areas clean and orderly. Weekly. Owner or contracted maintenance personnel No S4. Use Efficient Irrigation Systems and Landscape Design No S5. Protect Slopes and Channels No S6. Loading Dock Areas No S7. Maintenance Bays and Docks PA2021-024 Exhibit B, Operations and Maintenance Plan Page 3 of 10 BMP Applicable? Yes/No BMP Name and BMP Implementation, Maintenance and Inspection Procedures Implementation, Maintenance, and Inspection Frequency and Schedule Person or Entity with Operation & Maintenance Responsibility No S8. Vehicle Wash Areas No S9. Outdoor Processing Areas No S10. Equipment Wash Areas No S11. Fueling Areas No S12. Site Design and Landscape Planning No S13. Wash Water Controls for Food Preparation Areas No S14. Community Car Wash Racks PA2021-024 Exhibit B, Operations and Maintenance Plan Page 4 of 10 BMP Name and BMP Implementation, Maintenance and Inspection Procedures Implementation, Maintenance, and Inspection Frequency and Schedule Person or Entity with Operation & Maintenance Responsibility Low Impact Development BMPs Infiltration Trench (Biotreatment). INF-2  Visual inspection for debris, standing water.  Gravel/media replacement  Twice yearly and after each storm event  Every 10 years as required Owner via maintenance contractors PA2021-024 Exhibit B, Operations and Maintenance Plan Attachments Required Permits This section must list any permits required for the implementation, operation, and maintenance of the BMPs. Possible examples are:  Permits for connection to sanitary sewer  Permits from California Department of Fish and Game  Encroachment permits If no permits are required, a statement to that effect should be made. Forms to Record BMP Implementation, Maintenance, and Inspection The form that will be used to record implementation, maintenance, and inspection of BMPs is attached. Recordkeeping All records must be maintained for at least five (5) years and must be made available for review upon request. PA2021-024 RECORD OF BMP IMPLEMENTATION, MAINTENANCE, AND INSPECTION Today’s Date: Name of Person Performing Activity (Printed): Signature: BMP Name (As Shown in O&M Plan) Brief Description of Implementation, Maintenance, and Inspection Activity Performed PA2021-024 ATTACHMENT E PA2021-024 ProjectNo.20210Ǧ01Page4December18,2020 2.0GEOTECHNICALCONDITIONS 2.1 GeneralizedGeologicConditions ȋ ǡʹͲͲͶȌǡǦ ȋǦȌȋǦȌǤǡ Ǧ ȋȌǤǡǡ ǡ ǦǤ Ǧ ǡǡǡǤǡ Ǥ Ǥ 2.2Groundwater ͹ǤͷǦ ǡ ͵ ȋ ǡ ʹͲͲͳȌǤ ǡ ͺͳͲ ͷ͵ȋȌǤ Ǥ 2.3SeismicDesignCriteria ͳ͸ǡ ͳ͸ͳ͵ʹͲͳͻȋȌ͹Ǧͳ͸ ǤPleasenotethatthefollowingseismicparametersare onlyapplicableforcodeǦbasedaccelerationresponsespectraandarenotapplicablefor wheresiteǦspecificgroundmotionproceduresarerequiredbyASCE7Ǧ16. ͵͵Ǥ͸ʹ͹ͻǦͳͳ͹Ǥͻͷ͵͵ Ǥ ȋȌ ȋͳȌ ȋͳȌͳǤ ǡ ͹Ǧͳ͸Ǥ ȋǤǤǡǡ ǡǤȌǦǤ PA2021-024 2 139 Avenida Navarro San Clemente, CA 92672 Tel: (949) 492‐8586 www.toalengineering.com From: Kelby Styler <kstyler@lgcgeotechnical.com> Sent: Tuesday, February 2, 2021 10:31 AM To: Adam Toal <AToal@toalengineering.com> Cc: Kevin Dyekman <kevind@lgcgeotechnical.com> Subject: RE: 6806 W Oceanfront ‐ Infiltration Ha! Not a great job, I have definitely met some peskier people. Long story short, we would be comfortable with this style of infiltration if you make the trench a bit deeper. Would you be able to deepen it to 36 inches? That would put the water infiltrating below the historic high we used in our analysis (3 ft below existing surface) and keep the trench bottom > ~ 5ft above our measured groundwater elevation (8 to 10 ft below existing surface). Please note that infiltrating below the alleyway may cause some settling of the flatwork/pavement back there. Hard to say if it will or won’t happen, just that it is a possibility. Thank you, Kelby Styler, PE Project Engineer <image001.png> 131 Calle Iglesia, Suite 200 San Clemente, CA 92672 office (949) 369‐6141 cell (949) 375‐4300 kstyler@lgcgeotechnical.com www.lgcgeotechnical.com From: Adam Toal <AToal@toalengineering.com> Sent: Tuesday, February 02, 2021 8:55 AM To: Kelby Styler <kstyler@lgcgeotechnical.com> Subject: RE: 6806 W Oceanfront ‐ Infiltration Good morning Kelby, Trying my hand at being a pest about this! How am I doing? Toal Engineering, Inc. Adam Toal, PE C: (949)683‐2934 CIVIL ENGINEERS ● LAND SURVEYORS 139 Avenida Navarro San Clemente, CA 92672 Tel: (949) 492‐8586 www.toalengineering.com PA2021-024 3 From: Kelby Styler <kstyler@lgcgeotechnical.com> Sent: Friday, January 29, 2021 5:36 PM To: Adam Toal <AToal@toalengineering.com> Cc: Eric Aust <aust.architect@gmail.com>; Walter Clendenon <wclendenon@toalengineering.com> Subject: Re: 6806 W Oceanfront ‐ Infiltration Adam, Thank you, will review next week and let you know our thoughts. Have a great weekend, Kelby Styler Project Engineer O: 949.369.6141 M: 949.375.4300 LGC Geotechnical, Inc. From: Adam Toal <AToal@toalengineering.com> Sent: Friday, January 29, 2021 5:04:01 PM To: Kelby Styler <kstyler@lgcgeotechnical.com> Cc: Eric Aust <aust.architect@gmail.com>; Walter Clendenon <wclendenon@toalengineering.com> Subject: 6806 W Oceanfront ‐ Infiltration Kelby, Pursuant to our telephone conversation earlier today, attached please find a progress copy of our preliminary grading plan showing the proposed infiltration trench along the alley frontage. Please let us know if this type of infiltration can be considered geotechnically feasible for the site. We are open to making modifications to the detail, and you can call me on my cell anytime to discuss. Thanks and best regards, Toal Engineering, Inc. Adam Toal, PE C: (949)683‐2934 CIVIL ENGINEERS ● LAND SURVEYORS 139 Avenida Navarro San Clemente, CA 92672 Tel: (949) 492‐8586 www.toalengineering.com CAUTION: This email originated from outside of the organization. Do not click links or open attachments unless you recognize the sender and know the content is safe. CAUTION: This email originated from outside of the organization. Do not click links or open attachments unless you recognize the sender and know the content is safe. PA2021-024