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Home My WebLink AboutCT 13-03; Robertson Ranch West Village Rancho Costera; Storm Water Management Plan for Rancho Costera; 2015-07-08STORM WATER MANAGEMENT PLAN FOR RANCHO COSTERA (ROBERTSON RANCH WEST VILLAGE PLANNING AREAS 1-11,13, & 23A C, C.T. 13-03, DRAWING NO. 480-3 & 480-3A) SWMP No. 13-19 July 8, 2015 Wayne W. Chiang, MS, PE^^I^ QMS Civil Engineering - Hydroiogy ° Hydraulics ° Sedimentation P.O. Box 9496 Rancho Santa Fe, CA 92067 (858) 692-0760 ChangtBQ -TABLE OF CONTENTS - 1.0 Introduction 1 1.1 Vicinity Map 2 1.2 Project Description 2 1.3 Site Map 3 1.4 Constraints and Opportunities 3 2.0 Water Quality Environment 4 2.1 Beneficial Uses 4 2.1.1 Inland Surface Waters 5 2.1.2 Groundwater 5 3.0 Pollutants and Conditions of Concem 6 3.1 Pollutants from Project Area 6 3.2 Pollutants of Concern in Receiving Waters 7 4.0 Permanent Storm Water Best Management Practices 8 4.1 Standard Site Design BMPs 8 4.2 Source Control BMPs 9 4.3 Low Impact Development Site Design BMPs 12 4.4 Treatment Control BMPs 12 4.5 Hydromodification 13 5.0 Storm Water BMP Maintenance 15 6.0 Summary/Conclusions 16 7.0 Certifications 17 Storm Water Standards Questionnaire, E-34 2010 303(d) List APPENDIX A. Low Impact Development and Hydromodification Analyses MAP POCKET Single Sheet BMP Plan (includes Site Plan and DMAs) 1 1.0 INTRODUCTION This Storm Water Management Plan (SWMP) addresses water quality requirements associated with final engineering of the Rancho Costera project (Vesting Tentative Map for Planning Areas 1-11, 13, and 23A-C of the Robertson Ranch Master Plan) in the city of Carlsbad. The proposed site development varies by planning area (PA): PA 1 and 23A-C are designated as open space; PA 2 is a community facility site; PA 3, 5, 6, 9, 10, and 13 are single-family residential developments; PA 4 is for community recreation, PA 7 and 8 are multi-family residential; and PA 11 is designated village center/commercial. The project is subject to hydromodification requirements because it is a priority development project. This SWMP accompanies the final engineering plans by the project's civil engineer, O'Day Consultants, and follows the criteria outlined in the City of Carlsbad's January 14, 2011, Standard Urban Storm Water Management Plan (SUSMP). At this stage the development and engineering plans will only construct the single-family residences. The community recreation, community facility, multi-family residential, and village center/commercial planning areas are merely being mass-graded. Future projects will develop these areas. It is possible that the community recreation will be developed with the current single-family residential project, but a site plan has not been provided. According to the City's Storm Water Standards Questionnaire E-34 (attached following this report text), the current development is subject to priority development project requirements. The SUSMP outlines the SWMP objectives, which are to identify site opportunities and constraints, identify pollutants and conditions of concem, follow low impact development design objectives, describe best management practices (BMPs), and outline maintenance requirements. BMPs will be utilized to the maximum extent practicable to provide a long- term solution for addressing runoff water quality. BMPs were selected by O'Day Consultants and approved during the entitlement process (aka, with the Vesting Tentative Map) to meet the objectives. 1.1 Vicinity Map CITY OF OCEANSIDE SITE CITY OF VISTA PACIFIC OCEAN CITY OF SAN MARCOS CITY OF ENCINITAS 1.2 Project Description This Storm Water Management Plan was prepared to support final engineering for Planning Areas 1-11, 13 & 23A-C of the Robertson Ranch Master Plan, also known as Rancho Costera. The project is located south of Calavera Hills Unit 1, CT 76-12, east of Tamarack Avenue, west of Cannon Road and north of El Camino Real. The proposed site development varies by planning area (PA): PA 1 and 23A-C are designated as open space; PA 2 is a community facility site; PA 3, 5, 6, 9, 10, and 13 are single-family residential developments; PA 4 is for community recreation, PA 7 and 8 are multi-family residential; and PA 11 is designated village center/commercial. The current project will construct single-family residences on over 300 detached lots. The project will mass grade, but not develop, the community, multi-family residential, and village center/commercial planning areas. Access to the site will be provided via the existing Glasgow Drive and Edinburgh Drive from the north. Tamarack Avenue from the west, and El Camino Real from the south. Glasgow Drive and Edinburgh Drive will be extended into the site, while new streets will establish a connection to Tamarack Avenue (via proposed Robertson Road) and El Camino Real (via proposed West Ranch Street). Under pre-project conditions, the Rancho Costera site supports agricultural activities. Storm runoff from the site generally flows towards the south and occurs as sheet flow over the natural ground or as surface flow within natural drainage courses. The majority of the runoff is conveyed to an existing double 8-foot by 4-foot reinforced concrete box culvert (RCB) under El Camino Real east of Kelly Drive or to an existing 8-foot by 8-foot RCB under El Camino Real west of Cannon Road. Some of the runoff will also flow onto El Camino Real where it will be collected by public storm drain systems along with the roadway runoff. The runoff from all of these areas is ultimately conveyed to Agua Hedionda Creek, which outlets into Agua Hedionda Lagoon and then the Pacific Ocean. Under post-project conditions, proposed storm drain systems (drainage ditches, underground storm drain, and streets) will be constructed to serve Rancho Costera. El Camino Real will also be improved as part of the overall project, but the improvements are covered under a separate SWMP by O'Day Consultants. The storm runoff will continue to be conveyed to Agua Hedionda Creek/Lagoon and the Pacific Ocean. The on-site runoff from the proposed residential areas will be treated by a series of bioretention basins at various locations throughout the site. Runoff from the mass-graded pads will be directed to a series of temporary desiltation basins. Future development within the mass-graded pads will be responsible for their own SWMPs and associated permanent BMPs. The BMPs in this report were established during project entitlement and are consistent with the Vesting Tentative Map. 1.3 Site Map A Single Sheet BMP Plan containing the Site Map is included in the map pocket. 1.4 Constraints and Opportunities As shown on the Site Map, the development will occur within a primarily moderate to steeply sloping area that has historically been used for agriculture. The pre-project drainage patterns are being maintained by the project. The current development is a fairly typical hillside subdivision consisting of detached single- family residences served by public streets, cul-de-sacs, and containing common landscape areas. The landscaping within the private yards provides opportunities to treat runoff through contact and bio-filtration by vegetation. Bioretention basins are proposed at twenty-nine different areas within the development footprint. The bioretention basins will be used to meet both treatment and hydromodification requirements. O'Day Consultants plans contain more details on the bioretention basins. Additional LID/hydromodification BMPs outlined in the City of Carlsbad SUSMP include pervious pavements, flow-through planters, dry wells, inflitration basins, and cisterns. Pervious pavements are not being proposed because the streets will be public. The bio- retention basins are being sized using the flow-through planter criteria to account for impervious liners (see Section 4.5), so flow-through planters are in effect being proposed. Dry wells and infiltration basins are not being proposed because the majority of the site contains hydrologic soil group D, which has a low infiltration rate. Finally, cisterns are typically not preferred for single-family homes for aesthetic reasons, space considerations, and low volume of flow capture. As mentioned in the Introduction, the community recreation, community facility, multi- family residential, and village center/commercial planning areas currently are merely being mass-graded. Future projects will develop these areas to the ultimate end use. As a result, the BMPs for these areas should currently be selected that collect sediment, i.e., desiltation basins are proposed. In the future when final development occurs within these areas, the developer and engineer must implement LID and hydromodification BMPs that satisfy the required criteria for the proposed development. 2.0 WATER QUALITY ENVIRONMENT 2.1 Beneficial Uses The beneficial uses for the hydrologic unit (see Section 3.1) are included in Tables 1 and 2. These tables were obtained from the Water Quality Control Plan for the San Diego Basin (9) compiled on August 28, 2012. The following contains definitions of the beneficial uses in the tables: MUN - Municipal and Domestic Supply: Includes uses of water for community, military, or individual water supply systems including, but not limited to, drinking water supply. AGR - Agricultural Supply: Includes uses of water for farming, horticulture, or ranching including, but not limited to, irrigation, stock watering, or support of vegetation for range grazing. IND - Industrial: Includes uses of water for industrial activities that do not depend primarily on water quality including, but not limited to, mining, cooling water supply, hydraulic conveyance, gravel washing, fire protection, or oil well re-pressurization. RECl - Contact Recreation: Includes uses of water for recreational activities involving body contact with water, where ingestion of water is reasonably possible. These uses include, but are not limited to, swimming, wading, water-skiing, skin and SCUBA diving, surfing, white water activities, fishing, or use of natural hot springs. REC2 - Non-Contact Recreation: Includes the uses of water for recreational involving proximity to water, but not normally involving body contact with water, where ingestion of water is reasonably possible. These uses include, but are not limited to, picnicking, sunbathing, hiking, camping, boating, tide pool and marine life study, hunting, sightseeing, or aesthetic enjoyment in conjunction with the above activities. BIOL - Biology: Includes uses of water that support designated areas or habitats, such as established refuges, parks, sanctuaries, ecological reserves, or Areas of Special Biological Significance (ASBS), where the preservation or enhancement of natural resources requires special protection. WARM - Warm Freshwater Habitat: Includes uses of water that support warm water ecosystems including, but not limited to, preservation or enhancement of aquatic habitats, vegetation, fish or wildlife, including invertebrates. WILD - Wildlife Habitat: Includes uses of water that support terrestrial ecosystems including, but not limited to, preservation and enhancement of terrestrial habitats, vegetation, wildlife, (e.g., mammals, birds, reptiles, amphibians, invertebrates), or wildlife water and food sources. 2.1.1 Inland Surface Waters Inland surface waters for the Agua Hedionda Hydrologic Area (see Section 3.1) have the beneficial uses shown in Table 1: Table 1. Beneficial Uses for Inland Surface Waters Hydrologic Unit Code c -o o 2 o o <L> tN o <u o /arm "o 2 u is pwn Unit Code < OH o Pi pi, s U Pi 904.31 • • • • • • • • + Exempted by the Regional Board from the municipal used designation. • Existing Beneficial Use 2.1.2 Groundwater Groundwater beneficial uses for the Los Monos Hydrologic Subrea are shown in Table 2: Table 2. Beneficial Uses for Groundwater Hydrologic Unit Code c o bb < s fc c/1 fc o 904.31 • • • Existing Beneficial Use 3.0 POLLUTANTS AND CONDITIONS OF CONCERN 3.1 Pollutants from Project Area The project is located within the Los Monos Hydrologic Subarea (904.31) of the Agua Hedionda Hydrologic Area (904.30) of the Carlsbad Hydrologic Unit (904.00), which is within the San Diego Basin, Region 9. The total drainage area of the hydrologic unit is approximately 210 square miles. Runoff from the majority of the hydrologic subarea ultimately drains to Agua Hedionda Lagoon, which is west of the project site. The project site represents less than one percent of the Carlsbad Hydrologic Unit. The USGS Quadrangle San Luis Rey Quadrangle Map covers the site and was most recently published in 2012. The USGS map shows one intermittent (blue line) stream within the site. The blue line corresponds to the primary unnamed drainage course that flows in a southerly direction through the middle of the site. The blue line stream confluences with Agua Hedionda Creek on the southwest side of El Camino Real. Agua Hedionda Creek continues southwesterly as a blue line stream to Agua Hedionda Lagoon. The Pacific Ocean is the ultimate discharge location for these blue line features. Table 3 lists pollutants of concem that are anticipated or can potentially exist at proposed priority development project sites. The pollutants are from the City of Carlsbad's SUSMP. This project includes detached residential development; hillside development; and streets, highways & freeways priority project categories (highlighted yellow in the table). All of the listed pollutants are either anticipated or can potentially exist at the developed site. As mentioned in the Introduction, the project will mass grade large pads that will ultimately be developed with multi-family and commercial uses. However, the ultimate development is not currently part of this project and will be subject to a future SWMP and BMPs during their final engineering. Once these future projects are developed they will likely be within the attached residential, commercial development, restaurants, and park lots categories from Table 3. Table 3. Priority Project Pollutants Priority Project Categories Sediments Nutrients Heavy Metals Organic Compounds Trash & Debris Oxygen Demanding Substances Oil & Grease Bacteria & Viruses Pesticides Detached Residential Development X X X X X X X Attached Residential Development X X X p(i) p(2) P X Commercial Development > one acre pd) p(i) X p(2) X p(5) X p(3) p(5) Heavy Industry X X X X X X Automotive Repair Shops X X(")(5) X X Restaurants X X X X p(l) Hillside Development >5,000 tf X X X X X X Parking Lots pd) pd) X X pd) X pd) Retail Gasoline Outlets X X X X X Streets, Highways & Freeways X p(l) X X(4) X p(S) X X p(l) X = Anticipated P = Potential (1) A potential pollutant if landscaping exists on-site (2) A potential pollutant if the project includes uncovered parking areas (3) A potential pollutant if land use involves food or animal waste products (4) Including petroleum hydrocarbons (5) Including solvents 3.2 Pollutants of Concern in Receiving Waters The receiving waters for the site include Agua Hedionda Creek and Agua Hedionda Lagoon. According to the January 26, 2010 303(d) list approved by the State Water Resources Control Board, Agua Hedionda Creek is 303(d) listed for enterococcus, fecal coliform, manganese, phosphorus, selenium, sulfates, total dissolved solids, total nitrogen as N, and toxicity. Agua Hedionda Creek is identified with total maximum daily loads (TMDLs) "still required." Agua Hedionda Lagoon is not 303(d) listed. Based on this information, the project generates pollutants of concern in the receiving waters for nutrients (nitrogen and phosphorus), heavy metals (manganese), and bacteria & viruses (enterococcus, fecal coliform). For the subject project, a primary source of nutrients is from fertilizers. In addition, heavy metals are contributed from fuels, adhesives, paints, and other coatings. Bacteria and viruses are frequently generated from animal fecal wastes. 4.0 PERMANENT STORM WATER BEST MANAGEMENT PRACTICES To address water quality for the project, best management practices (BMPs) will be implemented. The following discusses the Standard Site Design, Source Control, and Low Impact Development design BMPs for the project. 4.1 Standard Site Design BMPs The City of Carlsbad's standard objectives are required for all projects. The project will accomplish these goals through the following standard site design BMPs, which are from the Carlsbad SUSMP dated January 14, 2011: Standard Stormwater Requirements Minimize Impervious Surfaces. The project incorporates pervious surfaces, where feasible, through landscaping within the development area, decomposed granite trails, landscaped medians, and playing fields/natural surfaces within the recreation areas. Disconnect Discharges. Roof drains will discharge to adjacent landscape areas, where feasible. The proposed sidewalks within the single-family residential development are being designed with a landscaped parkway between the sidewalks and curbs to allow runoff to drain over adjacent landscape areas. The public street, curb, gutter, and sidewalk runoff will be directed into proposed bio-retention basins to the maximum extent practicable. The residential lot's hardscape, driveway, and roof runoff will also be directed into bioretention basins. Conserve Natural Areas. The majority of the natural areas beyond the historic agricultural lands and other previously disturbed areas will be conserved by the project. The existing major drainage courses within the site will be untouched except at two proposed road crossings. Stenciling Inlets and Signage. The drainage inlets within the project will be stenciled with prohibitive language such as "No Dumping - I live downstream" or approved similar. Approved signage will be installed at trailheads, along open space areas, and along public access to the major drainage courses. Landscape Design. A landscape plan will be prepared that uses drought-tolerant species in accordance with the City's landscape manual. Native trees and shrubs will be preserved beyond the majority of the mass-graded pads in order to maximize canopy interception and promote water conservation. The project will only use water as needed to support the landscaping. Trees, bushes, grasses, and other plants will be installed in the street medians, parkways, and common areas in accordance with approved landscape plans. Water Efficient Irrigation. The irrigation systems will be designed to each landscaped areas water requirements to avoid over irrigation. Rain shutoff devices will be used to prevent irrigation after rain events. Drip irrigation shall be utilized, where feasible. Protect Slopes And Channels. The proposed manufactured slopes will contain drainage terraces as required by City criteria and will be landscaped with native and drought tolerant vegetation to the extent feasible. The grading design will prevent runoff from flowing uncontrolled over the tops of the manufactured slopes. This will be accomplished by designing building pads and other areas along the top of slopes so that they slope at least 1 percent away from the top of slope. In addition, slope rounding and drainage ditches along the top of slopes shall be implemented in accordance with City of Carlsbad Standard Drawing GS-14, where applicable. Riprap energy dissipaters will be used at storm drain outfalls to reduce outlet velocities to non-erosive rates in accordance with local engineering standards. The major drainage channels within the site will be preserved. The development is govemed by a Habitat Management Plan (HMP) that defines open space for preservation of existing channels, wetlands, and habitat areas. Trash Receptacles. Each single-family residence will have personal, covered trash receptacles. Covered trash receptacles shall be installed at appropriate locations within the proposed recreation areas. Trash receptacles will also ultimately be required in the future multi-family and commercial/community center areas. These are not required for the current project, but shall be specified in the future SWMPs required during final engineering of these areas. Material Storage Areas. The project does not propose outdoor material storage areas. Homeowner's shall be required to store any materials having the potential to contaminate stormwater under cover. 4.2 Source Control BMPs Source control BMPs will consist of measures to prevent polluted runoff. The following addresses the source control BMPs from Appendix 1 of the Carlsbad SUSMP: Table 4. Pollutant Sources and Source Control Checklist Potential Source of Runoff Pollutants Permanent Source Control BMPs Operational Source Control BMPs On-site storm drain inlets Mark all inlets with "No Dumping -1 live downstream' Maintain and periodically repaint inlet markings Provide stormwater pollution information to owners, lessees, and operators (Fact sheet SC- 44 from the CASQA Stormwater Quality Handbook at www.cabmphandbooks.com) Owner/lessee agreements shall state "Tenant shall not allow anyone to discharge anything to storm drains or to store or deposit materials so as to create a potential discharge to storm drains. Need for future indoor & structural pest control Buildings shall be designed to avoid openings that would encourage entry of pests. Integrated Pest Management (e.g., the EPA's Citizen's Guide to Pest Control and Pesticide Safety) information shall be provided to owners, lessees, and operators. Landscape/Outdoor Pesticide Use Final landscape plans will accomplish all of the following. • Preserve existing native trees, shrubs, and ground cover to the maximum extent possible. • Design landscaping to minimize irrigation and runoff, to promote surface inflitration where appropriate, and to minimize the use of fertilizers and pesticides that can contribute to stormwater pollution. • Where landscaped areas can retain or detain stormwater, specify plants that are tolerant of saturated soil conditions. • Consider using pest-resistant plants, especially adjacent to hardscape. • To ensure successful establishment, select plants appropriate to site soils, slopes, climate, sun, wind, rain, land use, air movement, ecological consistency, and plant interactions Maintain landscaping using minimum or no pesticides. See applicable operational BMPs in Fact Sheet SC-41, "Building and Grounds Maintenance," and TC- 30, "Vegetated Swale," in the CASQA Stormwater Quality Handbooks at www.cabmphandbooks.com Integrated Pest Management (e.g., the EPA's Citizen's Guide to Pest Control and Pesticide Safety) information shall be provided to owners, lessees, and operators. Vehicle and equipment cleaning The CC&Rs will define car washing requirements and restrictions at the site. The HOA will be responsible for enforcing the requirements and restrictions. Vehicle/Equipment Repair and Maintenance The CC&Rs will prohibit repair and maintenance activities in areas exposed to precipitation and storm fiows. The HOA will be responsible for enforcing this requirement. Roofing, gutters, and trim The architectural design will avoid roofing, gutters, and trim made of copper or other unprotected metals that may leach into runoff. Plazas, sidewalks, and parking lots. Plazas, sidewalks, and parking lots shall be swept regularly to prevent the accumulation of litter and debris. Debris from pressure washing shall be collected to prevent entry into the storm drain system. Wash water containing any cleaning agent or degreaser shall be collected and discharged to the sanitary sewer and not discharged to a storm drain. Pools, spas, ponds, decorative fountains, and other water feachres. Water features shall be plumbed to the sanitary sewer as required by local codes. See applicable operational BMPs in Fact Sheet SC-72, "Fountain and Pool Maintenance," in the CASQA Stormwater Quality Handbooks at www.cabmDhandbooks.com. Refuse areas • Weekly curb-side refuse pickup will be provided for each residential lot. • The HOA shall provide maintenance staff that perform refuse collection and removal on a weekly basis (or more, as needed) from the recreation areas. Each single-family residence will be provided with refuse and recycling containers as specified by the refuse collection company. Additional refuse containers shall be provided in the recreation areas. These containers shall be individually covered or under a covered area. See Fact Sheet SC-34, "Waste Handling and Disposal" in the CASQA Stormwater Quality Handbooks at www.cabmphandbooks.com 11 4.3 Low Impact Development Site Design BMPs Low Impact Development (LID) BMPs must be incorporated into the site design to meet the City of Carlsbad's January 14, 2011 SUSMP requirements. The integrated LID outlines four strategies: 1. Optimize the site layout by preserving natural drainage features and designing buildings and circulation to minimize the amount of roofs and paving. 2. Use pervious surfaces such as turf, gravel, or pervious pavement—or use surfaces that retain rainfall. All drainage from these surfaces is considered to be "self-retained". 3. Disperse runoff from impervious surfaces on to adjacent pervious surfaces (e.g., direct a roof downspout to disperse runoff onto a lawn). 4. Drain impervious surfaces to engineered Integrated Management Practices (IMPs), such as bioretention facilities. IMPs infiltrate runoff to groundwater and/or percolate runoff through engineered soil and allow it to drain away slowly. The project design is in compliance with these strategies. The site layout has been designed to preserve natural areas beyond the previously disturbed areas in conformance with the HMP. The perimeter trails will be constructed with pervious decomposed granite. Runoff from sidewalks will be directed to landscaped parkways between the sidewalks and streets. Runoff from the roofs will flow towards pervious landscape areas, where possible. Bioretention basins will be used to treat on-site runoff from the proposed residential areas and to meet hydromodification requirements (discussed in next section). Bioretention basins provide high to medium removal effectiveness for the pollutants generated by the project, which are listed in Table 3. Sizing is included in Appendix A of this report using County of San Diego's BMP Sizing Spreadsheet, which now supersedes the online BMP Sizing Calculator. The sizing addresses both LID and hydromodification requirements. 4.4 Treatment Control BMPs Treatment control BMPs were selected that most efficiently treat the project pollutants of concem identified in Table 3. Bioretention basins will be used because they have a medium to high pollutant removal efficiency for the project's pollutants of concem. For treatment control only, a bioretention basin's surface area must be at least 4 percent of the total area determined from the Drainage Management Areas. For the project, the bioretention basins will also provide hydromodification flow control. The sizing is discussed in the next section. Desiltation basins will be used to capture sediment from the mass-graded pads that will support future development. The pads will not support activities and the primary pollutants generated by the pads will be sediment, so desiltation basins are appropriate. Each future development will be responsible for establishing its own SWMP and BMPs during their final engineering. The Carlsbad SUSMP identifies additional treatment control BMPs that were not selected for the project. The following discusses each of these and the reason they were not selected. Wet 12 ponds and constructed wetlands were not selected because the project does not contain a perennial water source to support wet ponds or wetlands. These BMPs could also create vector issues. Infiltration facilities were not selected because the site primarily includes hydrologic soil group D, which has a very slow infiltration rate. Media filters, higher-rate bio/media filters (e.g., tree-pit style unit), trash racks, and hydrodynamic devices were not selected because these types of proprietary devices are not preferred when more accepted BMPs such as bioretention basins can be implemented. In addition, the pollutant removal efficiency of some of these devices is low. Vegetated swales were not selected because bioretention basins are preferred and provide improved removal efficiency. In addition to the reasons just cited, none of these additional BMPs provides hydromodification benefits, so an additional storage facility would be required. Per O'Day Consultants, Lots 1 through 11 adjacent to Glen Avenue, are continuing to treat storm water on PA 20. The PA 20 treatment area was calculated with C.T. 02-16 that included portions PA 13 and PA 12. Now all of the Carlsbad Fire Station and more than half of PA 13 are treating storm water on-site, and the amount of area from PA 13 originally treated in PA 20 is greatly reduced. 4.5 Hydromodification The January 14, 2011 SUSMP requires hydromodification (flow control) for priority development projects to ensure that post-development peak flows do not exceed pre- development peak flows. Rancho Costera is a priority development project and must meet the hydromodification requirement. The project does not qualify for any of the exemption criteria identified in Figure 2-1 HMP Applicability Determination from the Carlsbad SUSMP. Hydromodification can be accomplished by sizing bioretention facilities using the criteria in the SUSMP and the County of San Diego's BMP Sizing Spreadsheet. The proposed project will have twenty-nine bioretention basins spread throughout the site (see the Single Sheet BMP Plan in Appendix A). The County's BMP Sizing Spreadsheet was used for the bioretention basin sizing. The County is discontinuing use of the online BMP Sizing Calculator and replacing it with the spreadsheet. Since the bioretention basins will contain an impervious liner, they were sized using the fiow-through planter option. This option accounts for an impervious liner and will yield slightly larger sizing requirements than the bioretention option. Data entry for the BMP Sizing Spreadsheet includes the lower fiow threshold, soil group, slope, and rain gage. A lower flow threshold of O.5Q2 was used because this was determined by a downstream channel screening assessment {Hydromodification Screening for Rancho Costera and El Camino Real Widening dated June 19, 2013) by Chang Consultants, which was approved by the City of Carlsbad. The site is within the Oceanside rainfall basin. O'Day Consultant's Drainage Study for Rancho Costera (flnal report date not yet established), which is currently being processed through final engineering indicates that the study area contains soil group D. The average slope at the existing site is over 15 percent, which is within the "steep" category. These selections are consistent with the values used in the entitlement SWMP by O'Day Consultants. 13 The bioretention sizing analyses are included in Appendix A using the flow-through planter option. The Single Sheet BMP Plan in Appendix A delineates the drainage management areas tributary to each of the twenty-nine bioretention basins. The drainage basin boundaries were provided by O'Day Consultants and based on their hydrology study. Each drainage area tributary to a bioretention basin is subdivided into its streets (asphalt pavement), concrete (curb, gutter, sidewalks, and driveway ramps contiguous to the sidewalks), and landscaping/lots. The streets and concrete are impervious. Each residential lot will contain impervious area from its house, hardscape, and driveway. O'Day Consultants' tentative map SWMP established the impervious area for each lot's house and hardscape at up to 60 percent of the associated Planning Area's lot size category. O'Day Consultants indicated that this is a conservative value. The same approach was used for this SWMP, but based on 49 to 60 percent. The impervious home and hardscape area for the 4,000, 5,000, and 8,500 square foot lot categories are 1,960/2,400, 2,450/3,000, and 5,100 square feet, respectively. In addition, each driveway was assumed to cover 320 square feet of impervious surface. The remainder of the tributary area not containing streets, concrete, homes, hardscape, or driveways will be pervious and primarily support landscaping. The pervious area was determined by subtracting the sum of the impervious areas from the total drainage area. The "Drainage Management Areas (DMA) Data" spreadsheet provided Appendix A summarizes the impervious and pervious areas for each of the twenty-nine drainage areas. The impervious and pervious areas from the DMA Data spreadsheet were entered into the County's BMP Sizing Spreadsheet in Appendix A. The BMP Sizing Spreadsheet combines all impervious areas together since these have the same runoff factor of 1.0. DMA 1 in the BMP Sizing Spreadsheet represents the total impervious area in each drainage basin while DMA 2 represents the total pervious area. The results are summarized in Table 5. Table 5 contains the minimum treatment control surface area for each bioretention basin as well as the necessary storage volumes and oriflce sizing. The bioretention basins shown on the grading plans should meet the surface area from the BMP Sizing Spreadsheet. Furthermore, the County of San Diego's Final HMP states that the ponding layer and storage layer are converted to volumes "so that the project designer can flexibly configure the ponding layer and storage layer to meet site constraints" (see excerpt in Appendix A). This has been done on O'Day Consultant's plans, where necessary. If the available lot area can support the sizing from the Spreadsheet, the basin was graded to provide the sizing or more. Otherwise, the basin footprint was reduced to fit within the lot. For instance, the standard County bioretention basin design shows a 4-foot layer below the surface (1.5 feet of growing medium and 2.5 feet of gravel). This depth can be increased above 4 feet by increasing the gravel depth to meet the volume requirements in instances where the available surface area is less than the standard required surface area. The surface and subsurface storage volumes provided must meet or exceed the minimum calculated volumes in Table 5. Furthermore, the surface area provided must meet or exceed the Treatment Control Surface Area in Table 5 to satisfy treatment control sizing. The Treatment Control Surface Area is calculated on the DMA Data spreadsheet in Appendix A and based on 4 percent of the total DMA x runoff factor value for each tributary area. 14 Table 5. Summary of Bioretention Basin Sizing Hyd romodification Requirements Treatment Control Surface Area, sf Treatment Lot Number Bioretention Basin Surface Area, sf Surface Storage Volume Subsurface Storage Volume Orifice Diameter, Treatment Control Surface Area, sf Control Surface Area on Surface Area, sf (VI), cf (V2), cf in Treatment Control Surface Area, sf Plans, sf 345 1 3,517 2,933 2,110 3.4 2,814 3,650 346 2 3,726 3,108 2,236 3.3 2,981 3,870 61 3 8,433 7,033 5,060 4.8 6,746 6,805 246 4 9,835 8,202 5,901 5.0 7,868 8,045 150 5 3,207 2,675 1,924 3.6 2,566 2,745 151 6 2,421 2,019 1,453 2.6 1,937 1,950 152 7 4,085 3,407 2,451 3.4 3,268 3,275 153 8 2,510 2,094 1,506 2.5 2,008 2,745 247 9 1,562 1,303 937 2.1 1,250 3,030 155 10 2,724 2,272 1,634 2.7 2,179 2,940 157 11 5,785 4,825 3,471 4.2 4,628 5,240 344 (W) 12 1,453 1,212 872 1.9 1,162 1,540 344 (E) 13 1,700 1,418 1,020 2.1 1,360 1,445 342 14 1,076 898 646 1.9 861 1,315 340 15 973 811 584 1.6 778 1,315 340 16 2,101 1,753 1,261 2.6 1,681 2,115 339 17 1,826 1,523 1,095 2.3 1,461 2,125 248 18 2,754 2,297 1,653 2.7 2,204 2,945 249 19 3,764 3,139 2,258 3.8 3,011 3,020 250 20 2,591 2,161 1,554 2.6 2,073 2,555 251 21 2,785 2,323 1,671 2.8 2,228 3,760 327 22 4,220 3,520 2,532 3.3 3,376 3,500 347 23 2,207 1,840 1,324 2.3 1,765 1,770 328 24 6,332 5,281 3,799 4.4 5,066 5,180 329 25 6,049 5,045 3,629 4.2 4,839 4,960 346 26 5,391 4,496 3,234 3.8 4,313 7,145 347 (N) 27 4,494 3,748 2,696 3.8 3,595 3,600 347(S) 28 1,630 1,360 978 2.1 1,304 1,400 24 29 3,764 3,139 2,258 3.5 3,011 4,470 Note: The hydromodification portion of the bioretention basins planter option. The Treatment Control Surface Area is surface area. were sized using the flow-through the minimum bioretention basin 5.0 STORM WATER BMP MAINTENANCE The developer will be responsible for funding and implementing the operations and maintenance of the project BMPs. Provisions will be made to transfer operations and maintenance to the new developer in the event of a change in ownership prior to formation of 15 the homeowner's association. The provisions include providing this final approved SWMP to the new developer during escrow, so that they are aware of the water quality requirements. The homeowner's association will ultimately be responsible for ongoing operations and maintenance within common areas, and individual homeowner's will be responsible for their private lots as outlined in the CC&Rs. The following describes the specific BMP maintenance. Bioretention basins The drainage outlet from the basins shall be inspected monthly and after large storm events. Debris, sediment, and other obstructions shall be removed immediately from the outlet. The habitat shall also be inspected annually and replanted as needed to maintain an adequate cover. Landscaping and Vegetated Swales Maintenance will be performed by landscaping personnel. The vegetation will be maintained and inspected on a monthly basis by landscape maintenance staff and will be replaced or replanted, as necessary, to maintain a dense, healthy cover. The vegetation will also be inspected after major storm events. Maintenance shall include periodic mowing, weed control, irrigation, reseeding/replanting of bare areas, and clearing of debris. A design grass height of 6 inches is recommended. Grass clippings shall not be left in grass swales. The private drainage system will shall be kept clear of debris and inspect prior to and during the rainy season to ensure it is free-flowing. Efficient Irrigation The landscaping personnel shall inspect and maintain the irrigation system on a regular basis. This will occur during the routine maintenance activities. All valves, heads, shutoff devices, lines, etc. shall be kept in a properly functioning condition. Any defective parts shall be replaced immediately. The irrigation system shall be adjusted to prevent excessive runoff from landscape areas. The irrigation schedule shall be adjusted based on seasonal needs. Inlet Stenciling Any stenciling shall be inspected at the beginning and end of each rainy season and repaired or replaced, as needed. Hazardous Wastes Suspected hazardous wastes will be analyzed to determine disposal options. Hazardous materials are not expected to be generated on-site; however, if discovered, hazardous materials will be handled and disposed of according to local, state, and federal regulations. A solid or liquid waste is considered a hazardous waste if it exceeds the criteria listed in the Califomia Code of Federal Regulations, Title 22, Article 11 (State of Califomia, 1985). 6.0 SUMMARY/CONCLUSIONS This final SWMP has been prepared in accordance with the City of Carlsbad's January 14, 2011, Standard Urban Storm Water Management Plan, and has evaluated and addressed potential pollutants associated with the Rancho Costera project and its effects on water 16 quality. This SWMP has been based on the final engineering plans by O'Day Consultants. A summary of the facts and findings associated with the project and the measures addressed by this SWMP are as follows: • The beneficial uses for the receiving waters have been identified. BMPs will be used to protect the beneficial uses as outlined by the SUSMP. • The project will not significantly alter drainage pattems and will meet hydromodification requirements. • A Storm Water Pollution Prevention Plan for construction activities has been prepared to address construction-related water quality objectives. • Permanent BMPs will be incorporated into the project design in the form of site design, source control, and LID treatment control. • Details for the treatment control bioretention BMPs are included after this text. • The proposed BMPs address mitigation measures to protect water quality and beneficial uses to the maximum extent practicable. 7.0 CERTIFICATIONS The selection, sizing, and preliminary design of stormwater treatment and other control measures in this plan meet the requirements of Regional Water Quality Control Board Order R9-2007-0001 and subsequent amendments. July 8,2015 Wayne W. Chang^E 46548 Date 1 certify that, as owner/developer of the property described herein, I have read and understand the requirements of this Storm Water Management Plan (SWMP) and that I am responsible for ensuring that all storm water treatment measures described within said SWMP will be properly implemented, monitored, and maintained. Name: Date 17 C City of Carlsbad STORM WATER STANDARDS QUESTIONNAIRE E-34 Development Services Land Development Engineering 1635 Faraday Avenue 760-602-2750 www.carlsbadca.gov INSTRUCTIONS :i» To address post-development pollutants that may be generated from development projects, the City requires that new development and significant redevelopment priority projects incorporate Permanent Storm Water Best Management Practices (BMP's) into the project design per the City's Standard Urban Stonnwater Management Plan (SUSMP). To view the SUSMP, refer to the Engineering Standards (Volume 4, Chapter 2). Initially this questionnaire must be completed by the applicant In advance of submitting for a development application (subdivision, discretionary pennits and/or construction permits). The results of the questionnaire detennine the level of stonn water standards that must be applied to a proposed development or redevelopment project. Depending on the outcome, your project will either be subject to 'Standard Stonnwater Requirements' or be subject to additional criteria called 'Priority Development Project Requirements'. Many aspects of project site design are dependent upon the storm water standards applied to a project. Your responses to the questionnaire represent an Initial assessment of the proposed project conditions and Impacts. City staff has responsibility for making the final assessment after submission of the development application. If staff determines that the questionnaire was incorrectly filled out and is subject to more stringent storm water standards than Initially assessed by you, this will result In the return of the development application as Incomplete. In this case, please make the changes to the questionnaire and resubmit to the City. If you are unsure about the meaning of a question or need help In determining how to respond to one or more of the questions, please seek assistance from Land Development Engineering staff. A separate completed and signed questionnaire must be submitted for each new development application submission. Only one completed and signed questionnaire Is required when multiple development applications forthe same project are submitted concurrently. In addition to this questionnaire, you must also complete, sign and submit a Project Threat Assessment Form with construction pennits for the project. Ptease start by completing Step 1 and follow the instructions. When completed, sign the form at the end and submit this with your application to the city. STEPI i TO BE COMPLETED FOR ALL PROJECTS To determine If your project Is a priority development project, please answer the following questions: YES NO 1. Is your project LIMITED TO constructing new or retrofitting paved sidewalks, bicycle lanes or trails that meet the following criteria: (1) Designed and constructed to direct storm water runoff to adjacent vegetated areas, or other non-erodible permeable areas; OR (2) designed and constructed to be hydraulically disconnected from paved streets or roads; OR (3) designed and constructed with penneable pavements or surfaces In accordance with USEPA Green Streets guidance? X 2. Is your project LIMITED TO retrofitting or redeveloping existing paved alleys, streets, or roads that are designed and constructed In accordance with the USEPA Green Streets guidance? X If you answered "yes" to one or more ofthe above questions, then your project is NOT a priority development project and therefore Is NOT subject to the storm water criteria required for priority development projects. Go to step 4, mark the last box stating "my project does not meet PDP requirements" and complete applicant information. Ifyou answered "no" to both questions, then go to Step 2. E-34 Page 1 of 3 Effective 6/27/13 <f City of (j]arlsbad STORM WATER STANDARDS QUESTIONNAIRE E-34 Development Services Land Development Engineering 1635 FaradayAvenue 760-602-2750 www.carlsbadca.gov r'l-' 'ii' *-•'"•••• '.^sTEP^^ _ , «_ , To determine if your project is a priority development project, please answer the following questions: YES NO 1. is your project a new development that creates 10,000 square feet or more of Impervious surfaces collectively over the entire project site? This includes commercial, industrial, residential, mixed-use, and public development projects on public or private land. X 2. Is your project creating or replacing 5,000 square feet or more of Impervious surface collectively over the entire project site on an existing site of 10,000 square feet or more of impervious surface? This includes commercial, industrial, residential, mixed-use, and public development projects on public or private land. X 3. Is your project a new or redevelopment project that creates 5,000 square feet or more of Impervious surface collectively over the entire project site and supports a restaurant? A restaurant is a facility that sells prepared foods and drinks for consumption, including stationary lunch counters and refreshment stands selling prepared foods and drinks for immediate consumption. X 4. Is your project a new or redevelopment project that creates 5,000 square feet or more of impervious surface collectively over the entire project site and supports a hillside development project? A hillside development project includes development on any natural slope that is twenty-five percent or greater X 5. Is your project a new or redevelopment project that creates 5,000 square feet or more of Impervious surface collectively over the entire project site and supports a parking lot. A parking lot is a land area or facility for the temporary parking or storage of motor vehicles used personally for business or for commerce. X 6. Is your project a new or redevelopment project that creates 5,000 square feet or more of Impervious surface collectively over the entire project site and supports a street, road, highway freeway or driveway? A street, road, highway, freeway or driveway is any paved impervious surface used for the transportation of automobiles, trucks, motorcycles, and other vehicles. X 7. Is your project a new or redevelopment project that creates or replaces 2,500 square feet or more of Impervious surface collectively over the entire site, and discharges directly to an Environmentally Sensitive Area (ESA)? "Discharging Directly to" includes flow that is conveyed overland a distance of 200 feet or less from the project to the ESA, or conveyed in a pipe or open channel any distance as an Isolated flow from the project to the ESA (i.e. not commingles with flows from adjacent lands).* X 8. Is your project a new development that supports an automotive repair shop? An automotive repair shop is a facility that is categorized in any one of the following Standard Industrial Classification (SIC) codes: 5013, 5014, 5541, 7532-7534, or 7536-7539. X 9. Is your project a new development that supports a retail gasoline outlet (RGO)? This category Includes RGO's that meet the following criteria: (a) 5,000 square feet or more or (b) a project Average Daily Traffic (ADT) of 100 or more vehicles per day. X 10. Is your project a new or redevelopment project that results In the disturbance of one or more acres of land and are expected to generate pollutants post construction? X 11.1s your project located within 200 feet of the Pacific Ocean and (1) creates 2,500 square feet or more of impervious surface or (2) Increases Impervious surface on the property by more than 10%? X If you answered "yes" to one or more of the above questions, you ARE a priority development project and are therefore subject to Implementing structural Best Management Practices (BMP's) In addition to Implementing Standard Storm Water Requirements such as source control and low Impact development BMP's. A Storm Water Management Plan (SWMP) must be submitted with your application(s) for development. Go to step 3 for redevelopment projects. For new projects, go to step 4 at the end of this questionnaire, check the "my project meets PDP requirements" box and complete applicant information. If you answered "no" to all of the above questions, you ARE NOT a priority development project and are therefore subject to Implementing only Standard Storm Water Requirements such as source controi and low impact development BMP's required for all development projects. A Storm Water Management Plan (SWMP) is not required with your applicatlon(s) for development. Go to step 4 at the end of this questionnaire, check the "my project does not meet PDP requirements" box and complete applicant information. E-34 Page 2 of 3 Effective 6/27/13 C City of (parlsbad STORM WATER STANDARDS QUESTIONNAIRE E-34 Development Services Land Development Engineering 1635 Faraday Avenue 760-602-2750 www.carlsbadca.gov . STEP 3 .Vv • , ••.•••/•'..u'l':. ••)-. TO BE COMPLETED FOR REDEVELOPMENT PROJECTS THAT ARE PRIORITY DEVELOPEMENT PROJECTS ONLY . Complete the questions below regarding your redevelopment project: YES NO Does the redevelopment project result in the creation or replacement of impervious surface in an amount of less than 50% ofthe surface area of the previously existing development? Ifyou answered "yes," the structural BMP's required for Priority Development Projects apply only to the creation or replacement of Impervious surface and not the entire development. Go to step 4, check the "my project meets PDP requirements" box and complete applicant information. Ifyou answered "no," the structural BMP's required for Priority Development Projects apply to the entire development. Go to step 4, check the "my project meets PDP requirements" box and complete applicant information. CHECK THE APPROPRIATE BOX AND COMPLETE APPLICANT INFORMATION • My project meets PRIORITY DEVELOPMENT PROJECT (PDP) requirements and must comply with additional stonnwater criteria per the SUSMP and I understand I must prepare a Storm Water Management Plan for submittal at time of application. I understand flow control (hydromodification) requirements may apply to my project. Refer to SUSMP for details. My project does not meet PDP requirements and must only comply with STANDARD STORMWATER REQUIREMENTS per the SUSMP. As part of these requirements, I will Incorporate low impact development strategies throughout my project. Applicant Information and Signature Box North of El Camino Real between Tamarack Av and Cannon Rd. Address: Accessor's Parcel Number(s): 208-010-41 Applicant Name: Peter Kim Applicant Title: Director of Land Development Date: 7/ -^//^ This Box for City Use Only City Concurrence: YES NO City Concurrence: By: Date: Project ID: * Environmentally Sensitive Areas include but are not limited to all Clean Water Act Section 303(d) impaired water bodies; areas designated as Areas of Special Biological Significance by the State Water Resources Control Board (Water Quality Control Plan forthe San Diego Basin (1994) and amendments); water bodies designated with the RARE beneficial use by the State Water Resources Control Board (Water Quality Control Plan for the San Dlego Basin (1994) and amendments); areas designated as preserves or their quivalent under the Multi Species Conservation Program within the Cities and County of San Dlego; and any other equivalent environmentally sensitive areas which have been identified by the Copermittees. E-34 Page 3 of 3 Effective 6/27/13 CATEGORY 5 Regional Board 9 - San Diego Region January 26, 2010 2008 CALIFORNIA 303(d) LIST OF WATER QUALITY LIMITED SEGMENTS Draft 2008 California 305(b)/303(d) Integrated Report Category 5 criteria: 1) A water segment where standards are not met and a TMDL is required, but not yet completed, for at least one of the pollutnats being listed for this segment. * USGS HUC = US Geological Survey Hydrologic Unit Code. Calwater = State Water Resources Control Board hydrological subunit area or even smaller planning watershed. ** TMDL requirement status definitions for listed pollutants are: A= TMDL still required, B= being addressed by USEPA approved TMDL, C= being addressed by action other than a TMDL *** Dates relate to the TMDL requirement status, so a date for A= TMDL scheduled completion date, B= Date USEPA approved TMDL, and C= Completion date for action other than a TMDL REGION WATER BODY NAME WATER TYPE WATERSHED* CALWATER/ USGS HUC POLLUTANT POTENTIAL SOURCES Relevant Notes ESTIMATED FIRST TMDL AREA YEAR REQUIREMENT DATE*** ASSESSED LISTED STATUS** Agua Hedionda Creek River & 90431000 / Stream 18070303 Enterococcus ° Natural Sources ° Unknown Nonpoint Source ° Urban Runoff/Storm Sewers 7 Miles 2008 5A 2019 Fecal Coliform ° Natural Sources ° Unknown Nonpoint Source ° Urban Runoff/Storm Sewers 7 Miles 2008 5A 2019 Manganese ° Source Unknown 7 Miles 2006 5A 2019 Phosphorus ° Natural Sources ° Unknown Nonpoint Source 7 Miles 2008 5A 2019 6/7/2014 REGION WATER BODY NAME WATER TYPE WATERSHED* CALWATER/ USGS HUC POLLUTANT POTENTIAL SOURCES Relevant Notes ESTIMATED FIRST TMDL AREA YEAR REQUIREMENT DATE*** ASSESSED LISTED STATUS** Urban Runoff/Storm Sewers Selenium ° Source Unknown 7 Miles 2006 5A 2019 Sulfates ° Other Urban Runoff ° Point Source ° Unknown Nonpoint Source ° Unknown Point Source 7 Miles 2006 5A 2019 Total Dissolved Solids ° Unknown Nonpoint Source ° Unknown Point Source ° Urban Runoff/Storm Sewers 7 Miles 2002 5A 2019 Total Nitrogen as N ° Natural Sources ° Unknown Nonpoint Source ° Urban Runoff/Storm Sewers 7 Miles 2008 5A 2019 Toxicity ° Natural Sources ° Unknown Nonpoint Source ° Urban Runoff/Storm Sewers 7 Miles 2008 5A 2019 6/7/2014 APPENDIX A LOW IMPACT DEVELOPMENT AND HYDROMODIFICATION ANALYSES SUMMARY The SUSMP requires that Drainage Management Areas (DMA) be delineated for various surface types. The drainage basin boundaries were provided by O'Day Consultants and based on their hydrology study. Each drainage area tributary to a bioretention basin is subdivided into its DMA's, which include streets (asphalt pavement), concrete (curb, gutter, sidewalks, and driveway ramps contiguous to the sidewalks), and landscaping/lots. The DMAs are illustrated on the exhibit in the map pocket. The streets and concrete are impervious. Each residential lot will contain impervious area from its house, hardscape, and driveway. O'Day Consultants' tentative map SWMP established the impervious area for each lot's house and hardscape at 60 percent of the associated Planning Area's lot size category. O'Day Consultants indicated that this is a conservative value. The same approach was used for this SWMP. The impervious home and hardscape area for the 4,000, 5,000, and 8,500 square foot lot categories are 2,400, 3,000, and 5,100 square feet, respectively. In addition, each driveway was assumed to cover 320 square feet of impervious surface. The impervious and pervious areas associated with the DMAs are included on the attached DMA Data spreadsheet. The impervious and pervious areas from the DMA Data spreadsheet were then entered into the attached County BMP Sizing Spreadsheet. The BMP Sizing Spreadsheet combines all impervious areas together since these have the same runoff factor of 1.0. DMA 1 in the BMP Sizing Spreadsheet represents the total impervious area in each drainage basin while DMA 2 represents the total pervious area. The BMP Sizing Spreadsheet provides the necessary bioretention basin sizing, which is based on the flow-through planter factors since the basins will contain an impervious liner. Section 7 Hydromodiflcation Management Plan Table 7-4. Sizing Factors for Flow-Through Planters Lower Flow Threshold Soil Group Slope Rain Gauge A Vi V2 0.5Q2 C Moderate Oceanside 0.075 0.0625 0.0450 0.5Q2 C Steep Oceanside 0.065 0.0542 0.0390 0.5Q2 D Flat Oceanside 0.070 0.0583 0.0420 0.5Q2 D Moderate Oceanside 0.070 0.0583 0.0420 0.5Q2 D Steep Oceanside 0.050 0.0417 0.0300 0.5Q2 A Flat L Wohlford N/A N/A N/A 0.5Q2 A Moderate L Wohlford N/A N/A N/A 0.5Q2 A Steep L Wohlford N/A N/A N/A 0.5Q2 B Flat L Wohlford N/A N/A N/A 0.5Q2 B Moderate L Wohlford N/A N/A N/A 0.5Q2 B Steep L Wohlford N/A N/A N/A 0.5Q2 C Flat L Wohlford 0.070 0.0583 0.0420 0.5Q2 C Moderate LWotilford 0.070 0.0583 0.0420 0.5Q2 C Steep L Wohlford 0.050 0.0417 0.0300 0.5Q2 D Flat LWotilford 0.055 0.0458 0.0330 0.5Q2 D Moderate L Wohlford 0.055 0.0458 0.0330 0.5Q2 D Steep L Wohlford 0.045 0.0375 0.0270 0.3Q2 A Flat Lindbergh N/A N/A N/A 0.3Q2 A Moderate Lindbergh N/A N/A N/A 0.3Q2 A Steep Lindbergh N/A N/A N/A 0.3Q2 B Flat Lindbergh N/A N/A N/A 0.3Q2 B Moderate Lindbergh N/A N/A N/A 0.3Q2 B Steep Undbergh N/A N/A N/A 0.3Q2 C Flat Undbergh 0.130 0.1083 0.0780 0.3Q2 C Moderate Undbergh 0.130 0.1083 0.0780 0.3Q2 C Steep Lindbergh 0.100 0.0833 0.0600 0.3Q2 D Flat Lindbergh 0.105 0.0875 0.0630 0.3Q2 D Moderate Lindbergh 0.105 0.0875 0.0630 0.3Q2 D Steep Lindbergh 0.075 0.0625 0.0450 0.3Q2 A Flat Oceanside N/A N/A N/A 0.3Q2 A Moderate Oceanside N/A N/A N/A 0.3Q2 A Steep Oceanside N/A N/A N/A 0.3Q2 B Flat Oceanside N/A N/A N/A 0.3Q2 B Moderate Oceanside N/A N/A N/A 0.3Q2 B Steep Oceanside N/A N/A N/A 0.3Q2 C Flat Oceanside 0.105 0.0875 0.0630 0.3Q2 C Moderate Oceanside 0.105 0.0875 0.0630 0.3Q2 C Steep Oceanside 0.085 0.0708 0.0510 0.3Q2 D Flat Oceanside 0.090 0.0750 0.0540 Brown Caldwell 7-12 Use of contents on this slieet is subject to the limitations specified at the end of this document S:\Projects\San Diego County\133904 - SDCo Hydromod Management Plan\WP\HMP\08_Final HMP Jan20f 1\I04720 FINAL San Diego HMP. Jan2011 docx RANCHO COSTERA DRAINAGE MANAGEMENT AREAS (DMA) DATA BMPI 129,098 Total Area 7 Number of Lots 5100 Footprint of Each House 320 Driveway Area per Lot 37,940 Total Impervious Area in All Lots Surface Impervious Pervious BMP 2 Homes, Driveways, Hardscape Streets 37,940 18,572 0 0 Curb, Gutter, Sidewalk 7,302 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 63,814 1.0 63,814 65,284 65,284 0.1 6,528 129,098 70,342 Total 2,814 4% of Total 123,780 Total Area 8 Number of Lots 5100 Footprint of Each House 320 Driveway Area per Lot 43,360 Total impervious Area in All Lots Surface Impervious Pervious BMP 3 Homes, Driveways, Hardscape Streets 43,360 17,954 0 0 Curb, Gutter, Sidewalk 7,743 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 69,057 1.0 69,057 54,723 54,723 0.1 5,472 123,780 74,529 Total 2,981 4% of Total 252,290 Total Area 21 Number of Lots 5100 Footprint of Each House 320 Driveway Area per Lot 113,820 Total Impervious Area in All Lots Surface Impervious Pervious Homes, Driveways, Hardscape Streets 113,820 28,933 0 0 Curb, Gutter, Sidewalk 15,506 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 158,259 1.0 158,259 104,031 104,031 0.1 10,403 262,290 168,662 Total 6,746 4% ofTotal BMP 4 288,492 Total Area 38 Number of Lots 3000 Footprint of Each House 320 Driveway Area per Lot 126,160 Total Impervious Area in All Lots Surface Impervious Pervious BMPS Homes, Driveways, Hardscape Streets 126,160 38,429 0 0 Curb, Gutter, Sidewalk 21,909 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 186,498 1.0 185,498 101,994 101,994 0.1 10,199 288,492 196,697 Total 7,868 4% of Total 147,538 Total Area 11 Number of Lots 2400 Footprint of Each House 320 Driveway Area per Lot 29,920 Total Impervious Area in All Lots Surface Impervious Pervious BMPS Homes, Driveways, Hardscape Streets 29,920 17,239 0 0 Curb, Gutter, Sidewalk 7,715 0 Landscaping Total Runoff Factor DM A Area x Runoff Factor 0 54,874 1.0 54,874 92,664 92,664 0.1 9,266 147,538 64,140 Total 2,566 4% ofTotal 75,355 Total Area 9 Number of Lots 1960 Footprint of Each House 320 Driveway Area per Lot 20,520 Total Impervious Area in All Lots Surface Impervious Pervious Homes, Driveways, Hardscape 20,520 Streets Curb, Gutter, Sidewalk 16,630 8,282 0 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 45,432 1.0 45,432 29,923 29,923 0.1 2,992 75,355 48,424 Total 1,937 4% OfTotal BMP 7 132,851 Total Area 17 Number of Lots 1960 Footprintof Each House 320 Driveway Area per Lot 38,760 Total Impervious Area in All Lots Surface Impervious Pervious BMPS Homes, Driveways, Hardscape Streets 38,760 25,271 0 0 Curb, Gutter, Sidewalk 11,975 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 76,007 1.0 76,007 56,844 56,844 0.1 5,684 132,851 81,691 Total 3,268 4% of Total 74,870 Total Area 9 Number of Lots 2400 Footprint of Each House 320 Driveway Area per Lot 24,480 Total Impervious Area in All Lots Surface Impervious Pervious BMP 9 Homes, Driveways, Hardscape Streets 24,480 15,011 0 0 Curb, Gutter, Sidewalk 7,974 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 47,465 1.0 47,465 27,405 27,405 0.1 2,741 74,870 50,206 Total 2,008 4% of Total 48,944 Total Area 6 Number of Lots 3000 Footprint of Each House 320 Driveway Area per Lot 19,920 Total Impervious Area in All Lots Surface Impervious Pervious Homes, Driveways, Hardscape Streets 19,920 5,727 0 0 Curb, Gutter, Sidewalk 3,628 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 29,275 1.0 29,275 19,669 19,669 0.1 1,967 48,944 31,242 Total 1,250 4% of Total BMP 10 81,379 9 2400 320 24,480 Total Area Number of Lots Footprint of Each House Driveway Area per Lot Total Impervious Area in All Lots Surface Impervious Pervious BMP 11 201,968 25 1960 320 56,360 Homes, Driveways, Hardscape 24,480 0 Total Area Streets Curb, Gutter, Sidewalk Landscaping 17,740 9,265 0 0 0 29,894 Total Runoff Factor DMA Area x Runoff Factor 51,485 1.0 51,485 29,894 0.1 2,989 81,379 54,474 Total 2,179 4% of Total Number of Lots (Assume each of the two Rec Areas contains impervious area equivalent to single-family lot) Footprint of Each House Driveway Area per Lot (based on 23 residential lots only) Total Impervious Area in All Lots Surface Homes, Driveways, Hardscape Impervious 56,360 Pervious 0 BMP 12 41,215 Totai Area 3 Number of Lots 2400 Footprint of Each House 320 Driveway Area per Lot 8,160 Total Impervious Area in All Lots Streets Curb, Gutter, Sidewalk Landscaping 34,600 16,800 0 0 0 94,208 Total 107,760 94,208 201,968 Runoff Factor DMA Area x Runoff Factor 1.0 0.1 107,760 9,421 117,181 4,687 Total 4% of Total Surface Impervious Pervious Homes, Driveways, Hardscape Streets 8,160 15,787 0 0 Curb, Gutter, Sidewalk 3,757 0 Landscaping Total Runoff Factor DM A Area x Runoff Factor 0 27,704 1.0 27,704 13,512 13,512 0.1 1,351 41,216 29,055 Total 1,162 4% ofTotal BMP 13 51,043 3 2400 320 8,160 Total Area Numberof Lots Footprint of Each House Driveway Area per Lot Total Impervious Area in All Lots Surface Impervious Pervious BMP 14 40,693 0 0 0 0 Homes, Driveways, Hardscape 8,160 Total Area Numberof Lots Footprint of Each House Driveway Area per Lot Total Impervious Area in All Lots Streets Curb, Gutter, Sidewalk 14,299 9,645 0 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 32,104 1.0 32,104 18,939 18,939 0.1 1,894 51,043 33,998 Total 1,360 4% ofTotal Surface Homes, Driveways, Hardscape Impervious 0 Pervious 0 BMP 15 30,574 Total Area 0 Number of Lots 0 Footprint of Each House 0 Driveway Area per Lot 0 Total Impervious Area in All Lots Streets Curb, Gutter, Sidewalk 14,458 4,942 0 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 19,400 1.0 19,400 21,293 21,293 0.1 2,129 40,693 21,529 Total 861 4% of Total Surface Impervious Pervious Homes, Driveways, Hardscape Streets 0 13,518 0 0 Curb, Gutter, Sidewalk 4,697 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 18,215 1.0 18,215 12,359 12,359 0.1 1,236 30,574 19,451 Total 778 4% of Total BMP 16 78,168 0 0 0 0 Total Area Number of Lots Footprint of Each House Driveway Area per Lot Total Impervious Area in All Lots Surface Impervious Pervious BMP 17 60,010 0 0 0 0 Homes, Driveways, Hardscape 0 0 Total Area Number of Lots Footprint of Each House Driveway Area per Lot Total Impervious Area in All Lots Streets 30,931 0 Curb, Gutter, Sidewalk 7,080 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 38,011 1.0 38,011 40,157 40,157 0.1 4,016 78,168 42,027 Total 1,681 4% of Total Surface Homes, Driveways, Hardscape Impervious 0 Pervious 0 BMP 18 83,561 Total Area 10 Number of Lots 3000 Footprint of Each House 320 Driveway Area per Lot 33,200 Total Impervious Area in All Lots Streets 28,176 0 Curb, Gutter, Sidewalk 5,728 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 33,904 1.0 33,904 26,106 26,106 0.1 2,611 60,010 36,515 Total 1,461 4% of Total Surface Impervious Pervious Homes, Driveways, Hardscape Streets 33,200 12,321 0 0 Curb, Gutter, Sidewalk 6,403 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 51,924 1.0 51,924 31,637 31,637 0.1 3,164 83,561 55,088 Total 2,204 4% of Total BMP 19 168,913 15 2450 320 41,550 Total Area Number of Lots Footprint of Each House Driveway Area per Lot Total Impervious Area in All Lots Surface Homes, Driveways, Hardscape Impervious 41,550 Pervious 0 BMP 20 79,929 Total Area 10 Number of Lots 3000 Footprint of Each House 320 Driveway Area per Lot 33,200 Total Impervious Area in All Lots Streets Curb, Gutter, Sidewalk 13,408 9,912 0 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 64,870 1.0 64,870 104,043 104,043 0.1 10,404 168,913 75,274 Total 3,011 4% OfTotal Surface Impervious Pervious BMP 21 87,064 Homes, Driveways, Hardscape 33,200 0 Total Area Streets 9,585 0 Curb, Gutter, Sidewalk 5,908 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 48,693 1.0 48,693 31,236 31,236 0.1 3,124 79,929 51,817 Total 2,073 4% of Total 11 Number of Lots 3000 Footprint of Each House 320 Driveway Area per Lot 36,520 Total Impervious Area in All Lots Surface Impervious Pervious Homes, Driveways, Hardscape 36,520 Streets Curb, Gutter, Sidewalk 9,737 5,964 0 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 52,221 1.0 52,221 34,843 34,843 0.1 3,484 87,064 55,705 Total 2,228 4% of Total BMP 22 127,142 13 3600 320 50,960 Total Area Number of Lots Footprint of Each House Driveway Area per Lot Total Impervious Area in All Lots Surface Impervious Pervious BMP 23 61,497 Homes, Driveways, Hardscape 50,960 0 Total Area Streets Curb, Gutter, Sidewalk 20,975 7,719 0 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 79,654 1.0 79,654 47,488 47,488 0.1 4,749 127,142 84,403 Total 3,376 4% OfTotal 5 Number of Lots 3600 Footprint of Each House 320 Driveway Area per Lot 19,600 Total Impervious Area in All Lots Surface Impervious Pervious BMP 24 218,973 19 2940 320 61,940 Homes, Driveways, Hardscape 19,600 0 Total Area Number of Lots Footprint of Each House Driveway Area per Lot Total Impervious Area in All Lots Streets Curb, Gutter, Sidewalk 15,558 7,044 0 0 Landscaping Total Runoff Factor DM A Area x Runoff Factor 0 42,202 1.0 42,202 19,295 19,295 0.1 1,930 61,497 44,132 Total 1,765 4% ofTotal Surface Impervious Pervious Homes, Driveways, Hardscape 61,940 Streets Curb, Gutter, Sidewalk 38,434 16,004 0 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 116,378 1.0 116,378 102,595 102,595 0.1 10,260 218,973 126,638 Total 5,066 4% OfTotal BMP 25 203,952 19 2940 320 61,940 Total Area Number of Lots Footprint of Each House Driveway Area per Lot Total Impervious Area in All Lots Surface Impervious Pervious BMP 26 169,190 3600 320 31,360 Homes, Driveways, Hardscape 61,940 0 Total Area Number of Lots Footprint of Each House Driveway Area per Lot Total Impervious Area in All Lots Streets Curb, Gutter, Sidewalk Landscaping 34,439 15,378 0 0 0 92,195 Total 111,757 92,195 203,952 Runoff Factor DMA Area x Runoff Factor 1.0 0.1 111,757 9,220 120,977 4,839 Total 4% of Total Surface Impervious Pervious BMP 27 163,564 11 3600 320 43,120 Homes, Driveways, Hardscape 31,360 0 Total Area Number of Lots Footprint of Each House Driveway Area per Lot Total Impervious Area in All Lots Streets 50,414 0 Curb, Gutter, Sidewalk 19,222 0 Landscaping 0 68,194 Total 100,996 68,194 169,190 Runoff Factor DMA Area x Runoff Factor 1.0 0.1 100,996 6,819 107,815 4,313 Total 4% ofTotal Surface Impervious Pervious Homes, Driveways, Hardscape Streets 43,120 27,150 0 0 Curb, Gutter, Sidewalk 11,419 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 81,689 1.0 81,689 81,875 81,875 0.1 8,188 163,564 89,877 Total 3,595 4% of Total BMP 28 49,588 0 0 0 0 Total Area Number of Lots Footprint of Each House Driveway Area per Lot Total Impervious Area in All Lots Surface Homes, Driveways, Hardscape Impervious 0 Pervious 0 BMP 29 137,671 Total Area 12 Number of Lots 3000 Footprint of Each House 320 Driveway Area per Lot 39,840 Total Impervious Area in All Lots Streets Curb, Gutter, Sidewalk 22,416 8,299 0 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 30,715 1.0 30,715 18,873 18,873 0.1 1,887 49,588 32,602 Total 1,304 4% of Total Surface Impervious Pervious Homes, Driveways, Hardscape Streets 39,840 20,857 0 0 Curb, Gutter, Sidewalk 7,648 0 Landscaping Total Runoff Factor DMA Area x Runoff Factor 0 68,345 1.0 68,345 69,326 69,326 0.1 6,933 137,671 75,278 Total 3,011 4% of Total Project Info Project Name: Rancho Costera Project Applicant: Toll Brothers Jurisdiction: City of Carlsbad Parcel (APN): 208-010-41 Hydrologic Unit: Carlsbacl Rain Gauge: Oceanside Total Project Area: 78.5 Channel Susceptibility: Low Page 1 of 61 BMP#1 BMPType: Flow-Through Planter Low Flow Threshold: 0.5Q2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soil Type Slope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 63814 D Steep 1.0 0.05 0.0417 0.03 3191 2661 1914 DMA2 65284 D Steep 0.1 0.05 0.0417 0.03 326 272 196 DMA3 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 3517.12 2933 2110 Note: HMP Sizing Factors per Section 7 of HMP Page 2 cf 61 Orifice #1 (1) Q=Cd X A X (2gH)0.5 Orifice Discharge Equation (2) A= [%Q2 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Area Equation (%Q2 is low flow threshold) g=32.2 ft/s2 H= 1.5 ft Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 10" Ponding 18" Amended Soil 1 30" Storage Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor DMA Area (ac) Orifice Flow - %Q2 Orifice Area (in2) Soil Type Cover Slope (cfs/ac) (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 1.465 0.179 4.36 DMA2 Oceanside D Scrub Steep 0.244 1.499 0.183 4.46 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.362 8.83 3.35 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.3 (Must be less than 96 Hrs) Page 3 of 61 BMP #2 BMP Type: Flow-Through Planter Low Fiow Threshoid: 0.5Q2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP size Area (sf) Soii Type Siope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 69057 D Steep 1.0 0.05 0.0417 0.03 3453 2880 2072 DMA2 54723 D Steep 0.1 0.05 0.0417 0.03 274 228 164 DMA3 0 0 C 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA9 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 3726.465 3108 2236 Note: HMP Sizing Factors per Section 7 of HMP Page 4 of 61 Orifice #2 (1) Q=Cd X A X (2gH)0.5 Orifice Discharge Equation (2) A=[%Q2xADMAl/Cdx(2gH)0.5 Cd= 0.6 dimensionless Orifice Area Equation (%Q2 is low flow threshold) ^ 10" Ponding g=32.2 ft/s2 H= 1.5 ft t 18" Amended Soil 1 Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2'(Typical for Vault) 30" Storage T 18" A. Flow Control Orifice Bioretention / Flow-Through Planter A = Cross Sectiona Area of Orifice Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 1.585 0.193 4.72 DMA2 Oceanside D Scrub Steep 0.244 1.256 0.153 3.74 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA7 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.347 8.47 3.28 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.5 (Must be less than 96 Hrs) Page 5 of 61 BMP #3 BMP Type: Flow-Through Planter Low Flow Threshold: 0.5Q2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP >ize Area (sf) Soil Type Slope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 1582S9 D Steep 1.0 0.05 0.0417 0.03 7913 6599 4748 DMA2 104031 D Steep 0.1 O.OS 0.0417 0.03 520 434 312 DMA3 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA? 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA9 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Totai 8433.105 7033 5060 Note: HMP Sizing Factors per Section 7 of HMP Page 6 of 61 Orifice #3 (1) Q=Cd X A X (2gH)0.5 Orifice Discharge Equation (2) A= [%Q2 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Area Equation (%Q2 is low flow threshold) g=32.2 ft/s2 H= 1.5 ft Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice ^ 10" Ponding 18" Amended Soil i ^ 30" Storage Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (In2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (In2) DMAl Oceanside D Scrub Steep 0.244 3.633 0.443 10.82 DMA2 Oceanside D Scrub Steep 0.244 2.3S8 0.291 7.11 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA7 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 Drawdown (Hrs) 0.735 17.94 4.78 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) 2.7 (Must be less than 96 Hrs) Page 7 of 61 BMP #4 BMP Type: Flow-Through Planter Low Fiow Threshold: 0.5Q2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soil Type stope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 1S6498 D Steep 1.0 0.05 0.0417 0.03 9325 7777 S595 DMA2 101994 D Steep 0.1 0.05 0.0417 0.03 510 425 306 DMA3 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA9 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Totai 9S34.S7 8202 5901 Note: HMP Sizing Factors per Section 7 ot HMP Page a of 61 Orifice #4 (1) Q=Cd X A X (2gH)0.5 Orifice Discharge Equation (2) A= [%Q2 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Area Equation (%Q2 is low flow threshold) ¥ 10" Ponding g=32.2 ft/s2 H= 1.5 ft 18" Amended Soil Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 30" Storage Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 4.281 0.522 12.75 DMA2 Oceanside D Scrub Steep 0.244 2.341 0.286 6.98 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA7 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.808 19.73 5.01 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.8 (Must be less than 96 Hrs) Page 9 of 61 BMP #5 BMF Type: Flow-Through Planter Low Fiow Threshoid: 0.5Q2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (st) Soli Type siope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 54874 D steep 1.0 0.05 0.0417 0.03 2744 2288 1646 DMA2 92664 D Steep 0.1 0.05 0.0417 0.03 463 386 278 DMA3 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA9 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 3207.02 2675 1924 Note: HMP Sizing Factors per Section 7 of HMP Page 10 of 61 Orifice #5 (1) Q=Cd X A X (2gH)0.5 Orifice Discharge Equation (2) A=[%Q2xADMA]/Cdx(2gH)0.5 Cd= 0.6 dimensionless Orifice Area Equation (%Q2 is low flow threshold) g=32.2 ft/s2 H= 1.5 ft Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice ^ 10" Ponding 18" Amended Soil 30" Storage Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 1.260 0.154 3.75 DMA2 Oceanside D Scrub Steep 0.244 2.127 0.260 6.34 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA7 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 Drawdown (Hrs) 0.413 10.09 3.58 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) l.S (Must be less than 96 Hrs) Page 11 of 61 BMP #6 BMP Type: Flow-Through Planter Low Fiow Threshold: 0.5Q2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soil Type Slope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 45432 D Steep 1.0 0.05 0.0417 0.03 2272 1895 1363 DMA2 29923 D Steep 0.1 O.OS 0.0417 0.03 150 125 90 DMA3 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA9 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Totai 2421.215 2019 1453 Note: HMP Sizing Factors per Section 7 of HMP Page 12 of 61 Orifice #6 (1) Q=CdxAx(2gH)0.5 (2) A= [%Q2 x ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 is low flow threshold) ^ 10" Ponding t g=32.2 ft/s2 H = 1.5 ft 18" Amended Soil ."^V-oToi^"*!:. I |, %-.i^ :'«'='L''i. Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 30" Storage Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 1.043 0.127 3.11 DMA2 Oceanside D Scrub Steep 0.244 0.68? 0.084 2.05 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.211 Tot. Orifice Flow (cfs) 5.15 Tot. Orifice Area (in2) 2.56 Orifice Dia (in) Drawdown (Hrs) 2.7 (Must be less than 96 Hrs) Page 13 of 61 BMP #7 BMP Type: Flow-Through Planter Low Flow Threshold: 0.SQ2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soil Type Siope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 76007 D Steep 1.0 0.05 0.0417 0.03 3800 3169 2280 DMA2 56844 D steep 0.1 O.OS 0.0417 0.03 284 237 171 DMA3 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA9 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 4084.57 3407 2451 Note: HMP Sizing Factors per Section 7 of HMP Page 14 of 61 Orifice #7 (1) Q=Cd X A X (2gH)0.5 (2) A= [%02 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 is low flow threshold) g=32.2 ft/s2 H = 1.5 ft Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 10" Ponding 18" Amended Soil 18" 30" Storage L Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor DMA Area (ac) Orifice Flow - %Q2 Orifice Area (In2) Soil Type Cover Slope (cfs/ac) (cfs) DMAl Oceanside D Scrub Steep 0.244 1.745 0.213 5.20 DMA2 Oceanside D Scrub Steep 0.244 1.305 0.159 3.89 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.372 9.09 3.40 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.5 (Must be less than 96 Hrs) Page 15 of 61 BMP #8 BMP Type: Flow-Through Planter Low Fiow Threshoid: 0.SQ2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soil Type Slope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 47465 D Steep 1.0 0.05 0.0417 0.03 2373 1979 1424 DMA2 27405 D Steep 0.1 0.05 0.0417 0.03 137 114 82 DMAS 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 2510.275 2094 1506 Note: HMP Sizing Factors per Section 7 of HMP Page 16 of 61 Orifice #8 (1) Q=Cd x A X (2gH)0.5 (2) A=[%Q2xADMA]/Cdx(2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 is low flow threshold) 10" Ponding t g=32.2 ft/s2 H= 1.5 ft Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 30" Storage J: Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition 02 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) Rain Gage Soil Type Cover Slope 02 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 1.090 0.133 3.25 DMA2 Oceanside D Scrub Moderate 0.212 0.629 0.06? 1.63 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.200 4.87 2.49 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.9 (Must be less than 96 Hrs) Page 17 of 61 BMP #9 BMP Type: Flow-Through Planter Low Flow Threshold: 0.SQ2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soii Type Slope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 29275 D Steep 1.0 0.05 0,0417 0.03 1464 1221 878 DMA2 19SS9 D Steep 0.1 O.OS 0.0417 0.03 98 82 59 DMAS 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 1562.095 1303 937 Note: HMP Sizing Factors per Section 7 of HMP Page 18 of 61 Orifice #9 (1) 0=Cd X A X (2gH)0.5 (2) A= f%Q2 X ADMA]/Cd x (2gl 1)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 is low flow threshold) 10" Ponding g=32.2 ft/s2 H = 1.5 ft Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 18" Amended Soil 30" Storage Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 0.6?2 0.082 2.00 DMA2 Oceanside D Scrub Steep 0.244 0.452 0.055 1.35 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.137 3.35 2.06 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.6 (Must be less than 96 Hrs) Page 19 of 61 BMP #10 BMP Type: Flow-Through Planter Low Flow Threshold: 0.SQ2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soil Type Slope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 514BS D Steep 1.0 0.05 0.0417 0.03 2574 2147 1545 DMA2 29894 D Steep 0.1 0.05 0.0417 0.03 149 125 SO DMA3 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 2723.72 2272 1634 Note: HMPSizIng Factors per Section 7 of HMP Page 20 of 61 Orifice #10 (1) Q=Cd X A X (2gH)0.5 (2) A=[%Q2xADMA]/Cdx(2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 Is low flow threshold) ^ 10" Ponding t g=32.2 ft/s2 H= 1.5 ft 18" Amended Soil 1 Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 30" Storage Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (In2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (In2) DMAl Oceanside D Scrub Steep 0.244 1.182 0.144 3.52 DMA2 Oceanside D Scrub Steep 0.244 0.686 0.084 2.04 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.228 5.57 2.66 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.S (Must be less than 96 Hrs) Page 21 of 61 BMP #11 BMP Type: Flow-Through Planter Low Fiow Threshoid: 0.502 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soil Type Slope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 107760 D Steep 1.0 0.05 0.0417 0.03 5388 4494 3233 DMA2 94208 D Steep 0.1 0.05 0.0417 0.03 471 393 283 DMAS 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 5859.04 4886 3515 Note: HMP Sizing Factors per Section 7 of HMP Page 22 of 61 Orifice #11 (1) Q=Cd x A X (2gH)0.5 (2) A= [%Q2 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 is low flow threshold) T ' Ponding g=32.2 ft/s2 H = 1.5 ft 18" Amended Soil 1 •a' •" JO -I. Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 30" Storage Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 2.474 0.302 7.37 DMA2 Oceanside D Scrub Steep 0.244 2.163 0.264 6.44 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.566 Tot. Orifice Flow (cfs) 13.81 Tot. Orifice Area (in2) 4.19 Orifice Dia (in) Drawdown (Hrs) 2.4 (Must be less than 96 Hrs) Page 23 of 61 BMP #12 BMP Type: Flow-Through Planter Low Flow Threshoid: 0.SQ2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soil Type Slope Runoff Factor Surface Area Surface Votume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 27704 D steep 1.0 0.05 0,0417 0.03 1385 1155 831 DMA2 13512 D Steep 0.1 0.05 0.0417 0.03 68 56 41 DMA3 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA9 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 1452.76 1212 872 Note: HMP Sizing Factors per Section 7 of HMP Page 24 of 61 Orifice #12 (1) 0=Cd X A X (2gH)0.5 (2) A= [%02 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 is low flow threshold) 10" Ponding t g=32.2 ft/s2 H = 1.5 ft 18" Amended Soil Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 18" 30" Storage 4r Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 0.636 0.0?8 1.89 DMA2 Oceanside D Scrub Steep 0.244 0.310 0.038 0.92 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.115 2.82 1.89 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.9 (Must be less than 96 Hrs) Page 25 of 61 BMP #13 BMP Type: Flow-Through Planter Low Flow Threshold: 0.5Q2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soii Type siope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 32104 D Steep 1.0 0.05 0.0417 0.03 1605 1339 963 DMA2 1S939 D Steep 0.1 0.05 0.0417 0.03 95 79 57 DMAS 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 16S9.SS5 1418 1020 Note: HMP Sizing Factors per Section 7 of HMP Page 26 of 61 Orifice #13 (1) 0=Cd X A X (2gH)0.5 (2) A=[%Q2xADMAl/Cdx(2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 is low flow threshold) 10" Ponding g=32.2 ft/s2 H= 1.5 ft 18" Amended Soil A Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 30" Storage Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (In2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (In2) DMAl Oceanside D Scrub Steep 0.244 0.?3? 0.090 2.20 DMA2 Oceanside D Scrub Steep 0.244 0.435 0.053 1.30 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.143 3.49 2.11 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.8 (Must be less than 96 Hrs) Page 27 of 61 BMP #14 BMP Type: Flow-Through Planter Low Fiow Threshold: 0.SQ2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP aize Area (st) Soii Type siope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 19400 D Steep 1.0 0.05 0.0417 0.03 970 809 582 DMA2 21293 D Steep 0.1 0.05 0.0417 0.03 IOS 89 64 DMAS 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Totai 1076.465 898 646 Note: HMP Sizing Factors per Section 7 of HMP Page 28 of 61 Orifice #14 (1) 0=Cd X A X (2gH)0.5 (2) A= [%02 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 Is low flow threshold) g=32.2 ft/s2 H= 1.5 ft Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 18" Amended Soil 1 30" Storage Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor DMA Area (ac) Orifice Flow-%Q2 Orifice Area (In2) Soil Type Cover Slope (cfs/ac) (cfs) DMAl Oceanside D Scrub Steep 0.244 0.445 0.054 1.33 DMA2 Oceanside D Scrub Steep 0.244 0.489 0.060 1.46 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.114 2.78 1.88 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.2 (Must be less than 96 Hrs) Page 29 of 61 BMP #15 BMP Type: Flow-Through Planter Low Flow Threshold: 0.5Q2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soil Type Slope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 18215 D Steep 1.0 0.05 0.0417 0.03 911 760 546 DMA2 12359 D Steep 0.1 0.05 0.0417 0.03 62 52 37 DMAS 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA9 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 972.545 811 584 Note: HMP Sizing Factors per Section 7 of HMP Orifice #15 (1) 0=Cd X A x (2gH)0.5 (2) A= [%Q2 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 is low flow threshold) 10" Ponding t g=32.2 ft/s2 H = 1.5 ft Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 18" Amended Soil 18" 30" Storage Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 0.418 0.051 1.25 DMA2 Oceanside D Scrub Steep 0.244 0.284 0.035 0.85 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.086 2.09 1.63 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.6 (Must be less than 96 Hrs) Page 31 of 61 BMP #16 BMP Type: Flow-Through Planter Low Flow Threshold: 0.502 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soil Type Slope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 3S011 D Steep 1.0 0.05 0.0417 0.03 ISOl 1585 1140 DMA2 40157 D Steep 0.1 O.OS 0.0417 0.03 201 167 120 DMAS 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA9 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 2101.335 1753 1261 Note: HMP Sizing Factors per Section 7 of HMP Page 32 of 61 Orifice #16 (1) Q=Cd X A X (2gH)0.5 (2) A=[%02xADMA]/Cdx(2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation {%Q2 is low flow threshold) g=32.2 ft/s2 H = 1.5 ft 10" Ponding 18" Amended Soil 1 Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 30" Storage J: Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 0.873 0.106 2.60 DMA2 Oceanside D Scrub Steep 0.244 0.922 0.112 2.75 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.219 Tot. Orifice Flow (cfs) 5.35 Tot. Orifice Area (in2) 2.61 Orifice Dia (in) Drawdown (Hrs) 2.2 (Must be less than 96 Hrs) Page 33 of 61 BMP #17 BMP Type: Flow-Through Planter Low Fiow Threshoid: 0.502 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soil Type slope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 33904 D Steep 1.0 0.05 0.0417 0.03 1695 1414 1017 DMA2 26106 D Steep 0.1 0.05 0.0417 0.03 131 109 78 DMA3 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 1825.73 1523 loss Note: HMP Sizing Factors per Section 7 of HMP Page 34 of 61 Orifice #17 (1) 0=Cd X A X (2gH)0.5 (2) A= [%Q2 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 is low flow threshold) ^ 10" Ponding g=32.2 ft/s2 H = 1.5 ft 18" Amended Soil Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 30" Storage Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 0.??8 0.095 2.32 DMA2 Oceanside D Scrub Steep 0.244 0.599 0.0?3 1.79 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.168 4.10 2.29 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.5 (Must be less than 96 Hrs) Page 35 of 61 BMP #18 BMP Type: Flow-Through Planter Low Fiow Threshold: 0.5Q2 Rain Gauge: Oceanside HMP sizing Factors Minimum BMP Size Area (sf) Soil Type slope Runoff Factor Surface Area Surface Volume Subsurface Votume Surface Area Surface Volume Subsurface Volume DMAl 51924 D steep 1.0 0,05 0.0417 0,03 2596 2165 1558 DMA2 31637 D Steep 0.1 O.OS 0.0417 0.03 158 132 95 DMAS 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 2754.385 2297 1653 Note: HMP Sizing Factors per Section 7 of HMP Page 36 of 61 Orifice #18 (1) Q=Cd X A X (2gH)0.5 Orifice Discharge Equation (2) A= [%Q2 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Area Equation (%Q2 is low flow threshold) g=32.2 ft/s2 II = 1.5 ft Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice ^ 10" Ponding t 18" Amended Soil V. A 30" Storage , 18" A. Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 1.192 0.145 3.55 DMA2 Oceanside D Scrub Steep 0.244 0.726 0.089 2.16 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.234 5.71 2.70 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.? (Must be less than 96 Hrs) Page 37 of 61 BMP #19 BMP Type: Flow-Through Planter Low Flow Threshold: 0.5Q2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soil Type Slope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl S4870 D Steep 1.0 0.05 0,0417 0.03 3244 2705 1946 DMA2 104043 D Steep 0.1 0.05 0.0417 0.03 520 434 312 DMAS 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 37S3.71S 3139 22SS Note: HMP Sizing Factors per Section 7 of HMP Page 38 of 61 Orifice #19 (1) Q=Cd X A X (2gl 1)0.5 Orifice Discharge Equation (2) A= [%02 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Area Equation (%Q2 is low flow threshold) g=32.2 ft/s2 H= 1.5 ft Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice ¥ 10" Ponding t 18" Amended Soil T 30" Storage Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (In2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (In2) DMAl Oceanside D Scrub Steep 0.244 1.489 0.182 4.44 DMA2 Oceanside D Scrub Steep 0.244 2.388 0.291 7.12 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.473 11.55 3.84 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) (Must be less than 96 Hrs) Page 39 of 61 BMP #20 BMP Type: Flow-Through Planter Low Fiow Threshold: 0.SQ2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soii Type Siope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 48693 D Steep 1.0 0.05 0,0417 0.03 2435 2030 1461 DMA2 31236 D Steep 0.1 0.05 0,0417 0.03 156 130 94 DMA3 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA9 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 2590.83 2161 1554 Note: HMP Sizing Factors per Section 7 of HMP Page 40 of 61 Orifice #20 (1) Q=Cd X A X (2gH)0.5 Orifice Discharge Equation (2) A= [%Q2 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Area Equation (%Q2 is low flow threshold) g=32.2 ft/s2 M= 1.5 ft Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 18" Amended Soil 30" Storage Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor DMA Area (ac) Orifice Flow - %Q2 Orifice Area (in2) Soil Type Cover Slope (cfs/ac) (cfs) DMAl Oceanside D Scrub Steep 0.244 1.118 0.136 3.33 DMA2 Oceanside D Scrub Steep 0.244 0.?1? 0.08? 2.14 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.224 5.47 2.64 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.? (Must be less than 96 Hrs) Page 41 of 61 BMP #21 BMP Type: Flow-Through Planter Low Fiow Threshoid: 0.502 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soil Type Slope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 52221 D steep 1.0 0,05 0.0417 0.03 2611 2178 1567 DMA2 34843 D Steep 0.1 0,05 0.0417 0.03 174 145 105 DMAS 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA9 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 2785.265 2323 1671 Note: HMP Sizing Factors per Section 7 of HMP Orifice #21 (1) Q=Cd x A X (2gH)0.5 (2) A= [%Q2 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 Is low flow threshold) 10" Ponding g=32.2 ft/s2 H= 1.5 ft Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 18" Amended Soil E' A ^ 30" Storage J: Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (In2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (In2) DMAl Oceanside D Scrub Steep 0.244 1.199 0.146 3.57 DMA2 Oceanside D Scrub Steep 0.244 0.800 0.098 2.38 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.244 5.95 2.75 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.6 (Must be less than 96 Hrs) Page 43 of 61 BMP #22 BMP Type: Flow-Through Planter Low Flow Threshoid: 0.5Q2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soil Type siope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 79654 D Steep 1.0 0.05 0.0417 0.03 3983 3322 2390 DMA2 47488 D Steep 0.1 0.05 0,0417 0.03 237 198 142 DMA3 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA9 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Totai 4220.14 3520 2532 Note: HMP Sizing Factors per Section 7 of HMP Orifice #22 (1) 0=Cd X A X (2gH)0.5 (2) A= [%Q2 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 is low flow threshold) g=32.2 ft/s2 H= 1.5 ft ^ 10" Ponding 18" Amended Soil Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 30" Storage Flow Conh-ol Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor DMA Area (ac) Orifice Flow - %Q2 Orifice Area (in2) Soil Type Cover Slope (cfs/ac) (cfs) DMAl Oceanside D Scrub Steep 0.244 1.829 0.223 5.45 DMA2 Oceanside D Scrub Steep 0.244 1.090 0.133 3.25 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.356 8.70 3.33 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.? (Must be less than 96 Hrs) Page 45 of 61 BMP #23 BMP Type: Flow-Through Planter Low Fiow Threshold: 0.502 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP jize Area (sf) Soil Type Slope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 42202 D Steep 1.0 0.05 0.0417 0.03 2110 1760 1266 DMA2 19295 D Steep 0.1 0.05 0.0417 0.03 96 SO 58 DMAS 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 2205.575 1840 1324 Note: HMP Sizing Factors per Section 7 of HMP Page 46 of 61 Orifice #23 (1) Q=Cd X A X (2gH)0.5 (2) A= [%02 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 is low flow threshold) 10" Ponding g=32.2 ft/s2 11= 1.5 ft 8" Amended Soil K^-^S^^^c Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 30" Storage ^ Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition 02 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) Rain Gage Soil Type Cover Slope 02 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 0.969 0.118 2.89 DMA2 Oceanside D Scrub Steep 0.244 0.443 0.054 1.32 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.172 4.21 2.31 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 3.0 (Must be less than 96 Hrs) Page 47 of 61 BMP #24 BMPType: Flow-Through Planter Low Flow Threshold: 0.502 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP 5ize Area (sf) Soil Type Slope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 116378 D steep 1.0 O.OS 0.0417 0.03 581S 4853 3491 DMA2 10259S D Steep 0.1 0,05 0.0417 0.03 513 428 308 DMAS 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA9 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 6331.875 5281 3799 Note: HMP Sizing Factors per Section 7 ot HMP Page 48 of 61 Orifice #24 (1) Q=Cd X A x (2gH)0.5 (2) A= [%Q2 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 is low flow threshold) g=32.2 ft/s2 H= 1.5 ft 10" Ponding 18" Amended Soil Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 30" Storage J:^ . Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (In2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (In2) DMAl Oceanside D Scrub Steep 0.244 2.6?2 0.326 7.96 DMA2 Oceanside D Scrub Steep 0.244 2.355 0.287 7.02 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.613 14.98 4.37 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.4 (Must be less than 96 Hrs) Page 49 of 61 BMP #25 BMP Type: Flow-Through Planter Low Flow Threshold: 0.502 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soii Type Slope Runoff Factor Surface Area Surface Volume Subsurface Votume Surface Area Surface Volume Subsurface Volume DMAl 111757 D Steep 1.0 0.05 0,0417 0,03 5588 4660 3353 DMA2 92195 D Steep 0.1 0.05 0,0417 0.03 461 384 277 DMAS 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA9 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 6048.825 5045 3629 Note: HMP Sizing Factors per Section 7 of HMP Page 50 of 61 Orifice #25 (1) 0=Cd X A X (2gH)0.5 (2) A= [%Q2 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 is low flow threshold) ^ 10" Ponding t g=32.2 ft/s2 H= 1.5 ft Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 18" Amended Soil »7 30" Storage Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (In2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (In2) DMAl Oceanside D Scrub Steep 0.244 2.566 0.313 7.64 DMA2 Oceanside D Scrub Steep 0.244 2.11? 0.25S 6.31 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.571 13.95 4.21 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.5 (Must be less than 96 Hrs) Page 51 of 61 BMP #26 BMP Type: Flow-Through Planter Low Fiow Threshold: 0.502 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soil Type Slope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 100996 D Steep 1.0 0.05 0.0417 0.03 5050 4212 3030 DMA2 68194 D Steep 0.1 0.05 0.0417 0,03 341 284 205 DMA3 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 5390.77 4496 3234 Note: HMP Sizing Factors per Section 7 of HMP Page 52 of 61 Orifice #26 (1) 0=Cd X A X (2gH)0.5 Orifice Discharge Equation (2) A= [%Q2 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Area Equation (%Q2 is low flow threshold) ¥ 10" Ponding t g=32.2 ft/s2 H = 1.5 ft 18" Amended Soil 1 Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 30" Storage Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 2.319 0.2S3 6.91 DMA2 Oceanside D Scrub Steep 0.244 1.566 0.191 4.66 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.474 11.57 3.84 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.6 (Must be less than 96 Hrs) Page 53 of 61 BMP #27 BMPType: Flow-Through Planter Low Flow Threshold: 0.5Q2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (st) Soii Type Slope Runoff Factor Surface Area Surface Volume Subsurface Votume Surface Area Surface Volume Subsurface Volume DMAl S16S9 D Steep 1.0 0.05 0.0417 0.03 4084 3406 2451 DMA2 81875 D Steep 0.1 0.05 0.0417 0,03 409 341 246 DMAS 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA9 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Total 44S3.S25 3748 2596 Note: HMP Sizing Factors per Section 7 of HMP Page 64 of 61 Orifice #27 (1) 0=Cd X A X (2gH)0.5 Orifice Discharge Equation (2) A= [%Q2 x ADMAl/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Area Equation (%Q2 is low flow threshold) ¥ 10" Ponding t g=32.2 ft/s2 H= 1.5 ft Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 18" Amended Soil J 18" 30" Storage i- Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 1.875 0.229 5.59 DMA2 Oceanside D Scrub Steep 0.244 1.880 0.229 5.60 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.458 11.19 3.77 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.3 (Must be less than 96 Hrs) Page 55 of 61 BMP #28 BMPType: Flow-Through Planter Low Flow Threshoid: 0.5Q2 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP Size Area (sf) Soii Type siope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 3071S D steep 1.0 0,05 0,0417 0,03 1536 1281 921 DMA2 1S873 D Steep 0.1 0.05 0.0417 0.03 94 79 57 DMAS 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA9 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Totai 1630.115 1360 S78 Note: HMP Sizing Factors per Section 7 of HMP Page 56 of 61 Orifice #28 (1) Q=Cd X A X (2gH)0.5 (2) A= [%Q2 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 is low flow threshold) • ¥ 10" Ponding t g=32.2 ft/s2 H = 1.5 ft Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 18" Amended Soil 18" 30" Storage i Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (In2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (In2) DMAl Oceanside D Scrub Steep 0.244 0.705 0.0S6 2.10 DMA2 Oceanside D Scrub Steep 0.244 0.433 0.053 1.29 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.139 3.39 2.08 Tot. Orifice Flow Tot. Orifice Area Orifice Dia (cfs) (in2) (in) Drawdown (Hrs) 2.7 (Must be less than 96 Hrs) Page 5? of 61 BMP #29 BMP Type: Flow-Through Planter Low Flow Threshold: 0.502 Rain Gauge: Oceanside HMP Sizing Factors Minimum BMP size Area (sf) Soii Type Slope Runoff Factor Surface Area Surface Volume Subsurface Volume Surface Area Surface Volume Subsurface Volume DMAl 68345 D steep 1.0 0,05 0.0417 0.03 3417 2850 2050 DMA2 S9326 D steep 0.1 0,05 0.0417 0.03 347 289 208 DMA3 0 0 0 0 0 0 DMA4 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMA6 0 0 0 0 0 0 DMA7 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAS 0 0 0 0 0 0 DMAIO 0 0 0 0 0 0 BMP Totai 3763.88 3139 2258 Note: HMPSizIng Factors per Section 7 of HMP Page 58 of 61 Orifice #29 (1) Q=Cd x A x (2gH)0.5 (2) A= [%Q2 X ADMA]/Cd x (2gH)0.5 Cd= 0.6 dimensionless Orifice Discharge Equation Orifice Area Equation (%Q2 is low flow threshold) 10" Ponding t g=32.2 ft/s2 H = 1.5 ft Deviation from this standard outlet structure design will require separate external calculations to verify hydraulic adequacy. Q2s provided below (see San Diego BMP Sizing Calculator Methodology, Sec. 1.6, Table 1-6) Cd = Orifice Discharge Coefficient g = Gravitational Acceleration H = Effective Head Above Orifice (ft) 1.5' (Typical for Bioretention and Flow-Through Planter) 3.5' (Typical for Cistern) 3.2' (Typical for Vault) A = Cross Sectional Area of Orifice 18" Amended Soil 18" A_ 30" Storage i Flow Control Orifice Bioretention / Flow-Through Planter Rain Gage Existing Condition Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) Rain Gage Soil Type Cover Slope Q2 Sizing Factor (cfs/ac) DMA Area (ac) Orifice Flow - %Q2 (cfs) Orifice Area (in2) DMAl Oceanside D Scrub Steep 0.244 1.569 0.191 4.67 DMA2 Oceanside D Scrub Steep 0.244 1.592 0.194 4.74 DMA3 0 0.000 0.000 0.00 DMA4 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA6 0 0.000 0.000 0.00 DMA? 0 0.000 0.000 0.00 DMAS 0 0.000 0.000 0.00 DMA9 0 0.000 0.000 0.00 DMAIO 0 0.000 0.000 0.00 0.386 Tot. Orifice Flow (cfs) 9.42 Tot. Orifice Area (in2) 3.46 Orifice Dia (in) Drawdown (Hrs) 2.3 (Must be less than 96 Hrs) Page 59 of 61 Rain Gauge Map RXPT.ANATTON Precipitation Contours Lake Wohlford Basin Lindbergh Basin 4^ Oceanside Basin Brown AND Caldwell RAINFALL BASIN MAP SAN DIEGO HMP Page 60 of 61 Sizing Factors Table 7-1. Sizing Factors for Bioretention Facilities Lower Flow Threshold Soil Group Slope Rain Gauge A V1 V2 0.5Q2 A Flat Lindbergti 0.06 0.05 N/A 0.5Q2 A Moderate Lindbergti 0.055 0.0458 N/A 0.5Q2 A Steep Lindbergti 0.045 0.0375 N/A 0.5Q2 B Flat Lindbergh 0.093 0.0771 N/A 0.5Q2 B Moderate Lindbergh O.OSS 0.070S N/A 0.5Q2 B Steep Lindbergh 0.065 0.0542 N/A 0.5Q2 0 Flat Lindbergh 0.1 0.0833 0.06 0.5Q2 C Moderate Lindbergh 0.1 0.0833 0.06 0.5Q2 C Steep Lindbergh 0.0?5 0.0625 0.045 0.5Q2 D Flat Lindbergh 0.08 0.0667 0.048 0.5Q2 D Moderate Lindbergh O.OS 0.066? 0.048 0.5Q2 D Steep Lindbergh 0.06 0.05 0.036 0.5Q2 A Flat Oceanside 0.0? 0.05S3 N/A 0.5Q2 A Moderate Oceanside 0.065 0.0542 N/A 0.5Q2 A Steep Oceanside 0.06 0.05 N/A 0.5Q2 8 Flat Oceanside 0.098 0.0S13 N/A 0.5Q2 B Moderate Oceanside 0.09 0.075 N/A 0.5Q2 B Steep Oceanside 0.075 0.0625 N/A 0.5Q2 C Flat Oceanside 0.075 0.0625 0.045 0.5Q2 C Moderate Oceanside 0.075 0.0625 0.045 0.5Q2 C Steep Oceanside 0.06 0.05 0.036 0.5Q2 D Flat Oceanside 0.065 0.0542 0.039 0.5Q2 D Moderate Oceanside 0.065 0.0542 0.039 0.5Q2 D Steep Oceanside 0.05 0.0417 0.03 0.5Q2 A Flat Lake Wohlford 0.05 0.041? N/A 0.5Q2 A Moderate Lake Wohlford 0.045 0.0375 N/A 0.5Q2 A Steep Lake Wohlford 0.04 0.0333 N/A 0.5Q2 B Flat Lake Wohlford 0.048 0.0396 N/A 0.5Q2 B Moderate Lake Wohlford 0.045 0.0375 N/A 0.5Q2 B Steep Lake Wohlford 0.04 0.0333 N/A 0.5Q2 C Flat Lake Wohlford 0.065 0.0542 0.039 0.5Q2 C Moderate Lake Wohlford 0.065 0.0542 0.039 0.5Q2 C Steep Lake Wohlford 0.05 0.0417 0.03 0.5Q2 D Flat Lake Wohlford 0.055 0.045S 0.033 0.5Q2 D Moderate Lake Wohlford 0.055 0.045S 0.033 0.5O2 D Steep Lake Wohlford 0.045 0.0375 0.02? Page 61 of 61 JUL 0 ' ENGINEER