The URL can be used to link to this page

Home My WebLink AboutCT 04-01; Yamamoto Subdivision; Storm Water Manage Plan; 2005-06-13ENGINEERING Professional Civil Engineer and Land Sitrveyo STORM WATER MANAGEMENT PLAN for Yamamoto Property, CT 04-01 Prepared for: McCulloogh-Ames Development 11828 Rancho Bernardo Road, Suite 205 San Diego, CA 92128 858 675-6400 Profecf Site Address S.E. Corner, Black Rail Road & Songbird Avenue, Carisbad, CA 92009 Prepared by: Michael L. Benesh, R.C.E. 37893 Dafe: June 13, 2005 600 S. ANDREASEN DRIVE • SUITE E • ESCONDIDO. CA 92029 'HONE: 760 741 -3577 • FAX 760 897-21 65 • E-MAIL: MLBENESH@PACBELL.NET 7i Engineering Sform Wcrfer Management Pton (SWMPj yamamoto Property, CT04-0J Contents ,1 Section 1. Introduction Section 1.01 Introduction 1 Section 2. Project ^ Section 2.01 Description 2 Section 2.02 Topograplny and Land Use 2 Section 2.03 Hydrologic Unit Contributions..... 3 Section 3. Water Quality Environment 3 Section 3.01 Beneficial Uses 3 3.01.1 Inland Surface Waters ^ 3.01.2 Groundwater 5 Section 3.02 303(d) Status 5 Section 4. Characterization of Project Runoff 5 Section 4.01 Existing and Post Construction Drainage ...5 Section 4.02 Post-Construction Expected Disctiarges 7 Section 4.03 3.3 Soil Characteristics 8 Section 5. Mitigation Measures To Protect Water Quality 8 Section 5.01 Construction BMPs 8 Section 5.02 Post-construction BMPs 9 6.02.1 Site Design BMPs 9 5.02.2 Source Control BMPs 9 5.02.3 Treatment Control BMPs 10 5.02.3(i) Vegetated (Bio-Filtration) Swales 10 5.02.3 (i) (a) Appropriate Applications and Siting Constraints: 12 5.02.3(ii) Infiltration Trench 12 5.02.3 (ii) (a) Appropriate Applications 13 Section 6. Operation and Maintenance Program......^. 14 Section 6.01 Vegetated Swales 14 6.01.1 Inspection Frequency 14 6.01.2 Aesthetic and Functional Maintenance 14 6.01.2(i) Aesthetic Maintenance 15 6.01.2(ii) Functional Maintenance 15 6.01.2 (ii)(a) Preventive Maintenance 15 Page i June 13, 2005 F:\PROJEC~l\Yamamoto\TM SWMP.doc Engineering Storm Water Managemenf Pton (SWhAP) Yamamoto Property, CT 04-01 6.01.2 (ii)(b) Corrective Maintenance 16 6.01.3 Maintenance Frequency 17 6.01.4 Debris and Sediment Disposal 17 Section 6.02 Infiltration Trench 17 6.02.1 Inspection Frequency 17 6.02.2 Aesthetic and Functional Maintenance 17 6.02.2(i) Aesthetic Maintenance 18 6.02.2(ii) Functional Maintenance 18 6.02.2 (ii) (a) Preventive Maintenance 18 6.02.2 (ii)(b) Corrective Maintenance 18 6.02.3 Maintenance Frequency 19 6.02.4 Debris and Sediment Disposal 19 Section 7. Mechanisms to Assure Maintenance 19 Section 7.01 Stormwater Ordinance Requirement: 19 Section 7.02 20 Section 7.03 20 Section 7.04 20 Section 7.05 20 .A-1 Section 8. Summary Conclusions 20 22 Sections. Certification • " Attachment A - Vicinity Map Attachment B - Site Plan ^"^ Attachment C - Computation Sheet for Runoff Coefficients C-2 Attachment D - Drainage Study ^'^ Page ii June 13, 2005 F:\PROJEC-1 \Yamamolo\TM SWMP.doc ^ T? •riK- ^'^'^ tAanagement Plan (SWMP) Vamamoto Property, CT 04-01 Engineering Section 1. Introduction Section 1.01 Introduction The purpose of this SWMP is to address the water quality impacts from the proposed improvements on the Yamamoto Property Subdivision. Best Management Practices (BMPs) will be utilized to provide a long-term solution to water quality. This SWMP is also intended to ensure the effectiveness of the BMPs through proper maintenance that is based on long-term fiscal planning. The SWMP is subject to revisions as needed by the engineer. "The requirement to implement storm water BMP requirements for development projects is based on Section 402 (p) of the Clean Water Act. The Federal Clean Water Act amendments of 1987 established a framework for regulating storm water discharges from municipal, industrial, and construction activities under the NPDES program. Under the Federal Clean Water Act, municipalities throughout the nation are issued a Municipal NPDES Permit. The primary goal of the Municipal Permit is to reduce polluted discharges from entering the storm water conveyance system and local receiving and coastal waters and to ensure the beneficial uses of protected receiving waters. In California, the State Water Resources Control Board (SWRCB), through the nine Regional Boards, administers the NPDES storm water municipal permitting program. Based on the San Diego Municipal Permit issued by the San Diego Regional Board, Cities are required to develop and implement construction and permanent storm water BMPs addressing pollution from new private and public development projects. Per the National Pollution Discharge Elimination System (NPDES) permit (Order No. 2001-01 NPDES No. CASOl 08758) the City of Carisbad requires development and significant redevelopment, that fall under the category of "priority projects", include Best Management Practices (BMP's) be incorporated to ensure that those projects reduce potential urban pollutant runoff to the maximum extent practicable (MEP)." By definition, detached residential projects of more than 10 units, of which the Yamamoto Subdivision is one, are classified as "priority projects". Page 1 June 13,2005 F:\PROJEC~l\Yamamoto\TM SWMP.doc storm Water tAanagement Plan (SWMP) Yamamoto Property, CT 04-01 Engineering Section 2. Project Section 2.01 Description The project is a 4.9 acre site located in the City of Carisbad, California. The site is bordered by Black Rail Road to the East, Songbird Avenue and CT 00-13 to the North, CT 99-10 to the South and CT 92-3 to the East. The site is adjacent to single family homes on South, East and North. The site is adjacent to agricultural land to the West. The proposed project will subdivide the existing parcel of land into 16 lots of a rninimum 0^7500 quare feet each. Construction will include street and utility memenH^^^^ Black Rail Road, Songbird Avenue, Surfcrest Avenue and Street Tas wel os on-site grading to create building pads. The amount of anticipated grading is approximately 19,000 cubic yards. Section 2.02 Topography and Land Use The site is currently vacant and has been used for agricultural purposes. There are no existing permanent structures. Th^ surface of the land is divided by a small North to South running ridge with the To^mng^^^^ the West and a smaller portion sloping to the East A portion S Song^^^^^^^ has already been constructed on s.te - pavernent, curb and gutter and a slope cut along the northerly edge of the site. Storm water runoff westeriy of the natural ridge currently drains across the site to Black Rc^^ Road via sheet flow and concentrated flows in Songbird Avenue. From there, it contS sS^jtS abng Black Rail Road to a storm drain inlet 400 f^et ^^^^^^^'^ f.. 'he L h^s ofm dr^^^^ outlets to a natural drainage area so~^rly of the interVection of Black Rail Road and Aviara Parkway, approximately 1500 feet southwesteriy of the project site. Th^ storm water runoff easteriy of the natural ridge currently drains via sheet flow to an ex Wu"'^di"ch^^^ the easterly property line, then northerly along the ditch to Page 2 June 13, 2005 F;\PROJEC~l \Yamcimoto\TM SWMP.doc il I Engineering Storm Water Management Pton (SWMP) Yamamoto Property, CT 04-0 J Songbird Avenue. Once in Songbird Avenue, runoff continues northerly and easterly, along Cabella Place, and Docena Road to a storm drain system in the Aviara development. This storm drain system outlets to a natural drainage area approximately 1500 feet easteriy of the project site. Through a series of storm drain culverts and natural drainage areas the storm water runoff from this site eventually reaches the Batiquitos Lagoon and the Pacific Ocean. After development, the existing drainage pattern will remain essentially the same for the site with a small increase in the area draining to the east. Section 2.03 Hydrologic Unit Contributions The project is located in the Batiquitos watershed and in the Carisbad hydrologic unit (904.51). The project drains via surface flow to the east and west, and eventually, through a series of storm drain culverts and natural drainage areas, the storm water runoff from this site reaches the Batiquitos Lagoon and the Pacific Ocean. Section 3. Water Quality Environment Section 3.01 Beneficial Uses The beneficial uses for the hydrologic unit are included in Tables 3.1 and 3.2. These tables have been extracted from the Water Quality Control Plan for the San Diego Basin. The beneficial uses are defined as follows: . 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 Services Supply: 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. June 13, 2005 '^^9®^ F:\PROJEC~l\Yamamoto\TM SWMP.doc %SW Storm Water Management Pton fSWMP) IvllijjLI Vomamoto Properiy, CT 04-01 Engineering • BIOL - Preservation of Biological Habitats of Special Significance: Includes uses of water that support designated areas or habitats. • EST - Estuarine Habitat: Includes uses of water that support estuarine ecosystems, including but not limited to preservation or enhancement of estuarine habitats, vegetation, fish, shellfish, or wildlife. • MAR - Marine Habitat: Includes uses of water that support marine ecosystems, including but not limited to presen/ation or enhancement of marine habitats, vegetation, fish, shellfish, or wildlife. . MIGR - Migration of Aquatic Organisms: Includes uses of water that support habitats necessary for migration, acclimatization between fresh and salt water, or other temporary activities by aquatic organisms, such as anadromous fish. • RARE - Rare, threatened or endangered species: Includes uses of water necessary, al least in part, for the sun/ival and successful maintenance of plant or animal species established under State or Federal Law as rare, threatened or endangered. . 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. • SPWN - Spawning, reproduction or early development: Includes uses of water that support high quality aquatic habitats suitable for reproduction and early development of fish. • 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. 3.0 ?. J Inland Surface Waters Inland Surface waters have the following beneficial uses as shown on Table 3.1. Table 3.1 - Beneficial Uses for inland Surface Waters June 13, 2005 Page 4 F:\PROJEC~ 1 \Yamamoto\TM SWMP.doc Sfomi Water Management Pton (SWMP) Yamamoto Property, CT 04-01 Engineering Hydrologic Unit MUN AGR o z BIOL «/> LU MAR MIGR RARE REC 1 REC 2 SPWN WILD 904.51 • Existing Beneficial Use 3.01.2 Groundwater Groundwater beneficial uses includes areas shown in Table 3.2. Table 3.2 - Beneficial Uses for Groundwater Hydrologic Unit MUN oc O < a z _j O ea t— LU MAR MIGR RARE REC 1 REC 2 SPWN WILD 904.51 • m • • Existing Beneficial Use Section 3.02 303(d) Status According to the California 2002 303(d) list published by the San Diego Regional Water Quality Control Board, the water bodies that are associated with this project are not impaired. Section 4. Characterization of Project Runoff Section 4.01 Existing and Post Construction Drainage The proposed project will not significantly alter drainage patterns on the site or the surrounding area. The Storm water discharge points will not significantly divert runoff from existing conditions. While there will be a substantial increase to the amount of impervious area, a large port of the increase is accounted for by the widening of Black Rail Road, Songbird Avenue and the construction of Surfcrest Avenue through the site and Street "A". Black Rail Road will be increased in width by about 4 feet and curb gutter and sidewalk will be installed. Songbird Avenue will is already paved to full width, but a June 13, 2005 F:\PR0JEC-1 \Yamamoto\TM SWMP.doc Page 5 iii Engineering Storm Water Management Pton (SWMP) Yamamoto Property, CT 04-01 sidewalk will be added on the side adjoining the project. Surfcrest Avenue, which currently dead ends into the site, will be extended through the site to Songbird Avenue and be paved with 36 feet of AC pavement, curb gutters and sidewalk. Street "A" will be fully improved to 36 feet of pavement with curb, gutter and sidewalk. Approximately 1.5 acres of open ground will be covered by the single-family residences and appurtenant driveways and an additional 0.7 acres of open ground will be paved for the above mentioned street improvements. Thus, the impervious area on the site will increase from 0.3 acres to 2.5 acres. This change in land use will increase the composite runoff coefficient, of the project, from C=0.45 to C=0.55. Also, the total peak 10 year storm flow rate will increase from 4.3 cfs under the existing condition to 5.7 cfs under the proposed condition. A detailed description of the drainage patterns and flows are discussed in the Drainage Report submitted to the City of Carisbad. A copy of this report is included in Attachment C to this report. See Table 4.1 and Attachment D for Impervious area calculations. Table 4.1 - Imoervious Areas & Runoff Coefficients Construction site area 4.9 acres Percentage impervious area before construction 6 % Runoff coefficient before construction n) 0.45 Percentage impervious area after construction 41 % Runoff coefficient after construction o 0.65 Anticipated off-site storm water flow on to the construction site 0 cfs (1) Calculations are shown in Attachment C The runoff from this site both in the existing state and the proposed development is directed to two distinct outflows. Both outflows lead to natural drainage areas via paved streets and storm drain systems. The existing natural environment sen/es as a bio-filter for the runoff generated from the area. Each residential lot will incorporate the following post construction BMP's to reduce and treat the amount of storm runoff leaving the site: 1. Vegetated Swales will be incorporated in to the yard drainage system for each lot, treating the roof and yard runoff before it leaves each lot. June 13,2005 F:\PROJEC-l\Yamamoto\TM SWMP.doc Page 6 Storm Water Management Pton fSWMPJ Yamamofo Property, CT 04-01 Engineering 2. Small infiltration basins will be incorporated into each lots drainage system to increase infiltration and reduce storm water runoff. 3. Pervious interiocking paving blocks shall be utilized in the driveways to each lot to reduce the impervious area created by the subdivision and increase infiltration. Refer to the Site Map in Attachment B for post construction BMP locations. Summaries of the post-construction water quality flows are included in Table 4.2. The flows were developed using the 85th Percentile Precipitation mop developed by the County, which was obtained from the website http://wvw.co.san- diego.ca.us/dpw/land/flood.htm Table 4.2 - Post Construction Water Quality Flows Outfall Tributary Area (Acres) Qio QwQ A (East) 2.2 2.7 0.9 B (West) 2.6 3.0 1.0 (1) Calculations are shown in Attachment D Section 4.02 Post-Construction Expected Discharges jhere are no sampling data available for the existing site condition. In addition, the project is not expected to generate significant amounts of non-visible pollutants. However, the following constituents are commonly found on similar developments and could affect water quality: . Sediment discharge due to construction activities and post-construction areas left bare. • Nutrients from fertilizers . Trash and debris deposited in drain inlets. . Hydrocarbons from paved areas. . Pesticides from landscaping and home use. June 13.2005 F:\PROJEC-l\YQmamoto\TM SWMP.doc Page 7 •^s ^^^^ Engineering Storm Water Management Pton (SWMPJ yamamoto Property, CT 04-01 Section 4.03 3.3 Soil Characteristics The project area consists of soil group D with a minimum saturated infiltration rate of 6.3 mm/h. The project will not have slopes steeper than 2:1. All slopes will include slope protection for construction and post-construction. (Note: Informafion regarding so/7 conditions is also available in fhe Soil Survey, San Diego Area, California, US Department of Agriculture, 1973.) Section 5. Mitigation Measures To Protect Water Quality To address water quality for the project, BMPs will be implemented during construction and post-construction. Section 5.01 Construction BMPs A detailed description of the construction BMPs is included in the SWPPP and the Grading Plans for this project. A summaiy of the included BMPs is as follows: • SS-1, Scheduling • SS-3, Hydraulic Mulching • SS-4, Hydroseeding • SS-9, Earth Dikes/Drainage Swales & Lined Ditches • SS-10, Outlet Protection/ Velocity Dissipation Devices • SC-1, Silt Fence • SC-4, Check Dams • SC-5, Fiber Rolls • SC-7, Street Sweeping and Vacuuming • SC-7, Street Sweeping and Vacuuming • TC-1, Stabilized Construction Entrance • TC-3, Entrance/Outlet Tire Wash • WE-1, Wind Erosion Control • NS-1, Water Conservation Practices June 13, 2005 F:\PROJEC-l\YamQmoto\TM SWMP.doc Page 8 Storm Water Management Pton (SWMP) Yamamoto Property, CT 04-01 Engineering —— • NS-2, Dewatering Operations • NS-3, Paving and Grinding Operations • NS-6, Illicit Connection/Illegal Discharge Detection and Reporting • NS-7, Potable Water/Irrigation • WM-1, Material Delivery and Storage - WM- 2, Material Use > WM-4, Spill Prevention and Control Section 5.02 Post-construction BMPs Pollutants of concern as noted in Section 4 will be addressed through three types of BMPs. These types of BMPs are site design, source control and treatment control. 5.02.1 Site Design BMPs The project is designed to minimize the use of impervious areas. Streets and building pod areas have been designed to meet the minimum City Standard widths and driveways will be constructed of pervious interiocking concrete pvaers. Streets, where allowed by the City, will be designed using the livable streets guidelines. All slopes will be landscaped and protected from storm runoff by directing flows away from the tops of slopes. The landscaping will consist of both native and non-native plants. The goal is to achieve plant establishment expeditiously to reduce erosion. The irrigation system for these landscaped areas will be monitored to reduce over irrigation. 5.02.2 Source Control BMPs Source control BMPs will consist of measures to prevent polluted runoff. This program will include an educational component directed at each homeowner. The homeowners will receive a set of brochures developed by the County's Environmental Health Department. These will include the following: • Storm water Runoff Pollution Fact Sheet. • Storm water Runoff Pollution Prevention Tips for Homeowners. • Storm water Pollution Prevention Yard Work (Landscaping, Gardening, Pest Control). • Storm water Pollution Prevention Pet Waste. • Storm water BMP Swimming Pool and Spa Cleaning. June 13, 2005 ^^^^^ F;\PROJEC-l\Yamamoto\TM SWMP.doc storm Water Management Pton (SWMP) Yamamoto Property, CT 04-01 Engineering 5.02.3 Treatment Control BMPs The following treatment control BMPs will be implemented to address water quality: • Vegetated swales • infiltration Basins Placements of the BMPs are noted on the Project Site Plan (Attachment B). 5.02.3(i) Vegetated (Bio-Filtration) Swales Vegetated swales are plant lined channels that receive directed flow and convey storm water. A schematic illustration of vegetated swale is shown in Figure 5.1. June 13, 2005 ^^9^1° F:\PROJEC~ 1 \Yamamoto\TM SWMP.doc Engineering Storm Water Management Pton fSWMPJ yamamoto Property, CT 04-01 MiiM. SIDE SLOPE / r 6" FREEBOARD \7 DESIGN ^£.01'/ DEPTH- WATER QUALITY FLOW DEPTH-^ . SECTION No SCALE rENGINEERED CHECK DAM (50'OC) / 6" TOPSOIL OVER NATIVE-^ SECTION No SCALE Figure 5-1 - Vegetated Swale Pollutants are removed by filtration through the grass, sedimentation, adsorption to soil particles, and infiltration through the soil. Swales are mainly effective at removing debris and solid particles, although some dissolved constituents are removed by adsorption onto the soil. June 13, 2005 F:\PROJEC-l\Yamamota\TMSWMP.doc Page 11 Stomi Water Management Pton (SWMP) Yamamoto Property, CT 04-01 Engineering 5.02.3 (i)(a) Appropriate Applications and Siting Constraints: Swales and strips should be considered wherever site conditions and climate allow vegetation to be established and where flow velocities are not high enough to cause scour. Even where strips cannot be sited to accept directed sheet flow, vegetated areas provide treatment of rainfall and reduce the overall impervious surface. FACTORS AFFECTING PRELIMINARY DESIGN: Swales have two design goals: 1) maximize treatment, 2) provide adequate hydraulic function for flood routing, adequate drainage and scour prevention. Treatment is maximized by designing the flow of water through the swale to be as shallow and long as site constraints allow. No minimum dimensions are required for treatment purposes, as this could exclude swales from consideration at some sites. Swales should also be sized as a conveyance system calculated according to County procedures for flood routing and scour. To maximize treatment efficiency, strips should be designed to be as long (in the direction of flow) and as flat as the site will allow. No minimum lengths or maximum slopes are required for treatment purposes. The area to be used for the strip should be free of gullies or rills that can concentrate overiand flow and cause erosion. Vegetation mixes appropriate for various climates and locations will be developed by District landscape staff. Table 3.3.1 summarizes preliminar/ design factors for bio- filtration. 5.02.3(il) Infiltration Trench An infiltration trench is an excavated trench, usually 3 to 12 feet deep, backfilled with a stone aggregate, and lined with filter fabric. A small portion of the runoff, usually the first flush, is diverted to the infiltration trench, which is located either underground or at grade. Pollutants are filtered out of the runoff as it infiltrates the surrounding soils. Infiltration trenches also provide groundwater recharge and preserve base flow in nearby streams. A schematic illustration of an infiltration trench is shown in Figure 5.2. June 13, 2005 P^S^ F:\PROJEC-1 \Yannamoto\TM SWMP.doc WW am Engineering Stomi Water Management Pton (SWMP) Yamamoto Property, CT 04-01 REMOVABVLE WELL CAP GEOTEXTILE FILTER FABRIC UNDISTURBED SOIL MINIMUM INFILTRATION RATE OF 0.50 INCH PER HOUR 9 INCH SQUARE STEEL FOOT PLATE 4 FT DEEP TRENCH FILLED WITH 1-3 INCH CLEAN STONE 6 INCH DIAMETER PVC PIPE 1/2 INCH DIAMETER REBAR ANCHOR Figure 5-2 Infiltration Trench 5.02.3 (ii)(a) Appropriate Applications Infiltration trenches are often used in place of other Best Management Practices where limited land is available. Infiltration trenches are most widely used in warmer, less arid regions of the U.S. Runoff that contains high levels of sediments or hydrocarbons (oil and grease) that may clog the trench ore often pretreated with other BMPs. Examples of some pretreatment BMPs include grit chambers, water quality inlets, sediment traps, swales, and vegetated filter strips. FACTORS AFFECTING PRELIMINARY DESIGN: Feasible sites should have a minimum of 4 feet to bedrock in order to reduce excavation costs. There should also be at least 4 feet below the trench to the water June 13, 2005 F:\PROJEC--l\Yamamoto\TM SWMP.doc Page 13 il MM storm Water Management Plan (SWMP) Yamamoto Property, CT 04-01 Engineering table to prevent potential ground water problems. Trenches should also be located at least 100 feet upgradient from water supply wells and as far as practical from building foundations. Land availability, the depth to bedrock, and the depth to the water table will determine whether the infiltration trench is located underground or at grade. Underground trenches receive runoff through pipes or channels, whereas surface trenches collect sheet flow from the drainage area. Section 6. Operation and Maintenance Program The operation and maintenance requirements for each type of BMP is as follows: Section 6.01 Vegetated Swales The operational and maintenance needs of a Swale are: . Vegetation management to maintain adequate hydraulic functioning and to limit habitat for disease-carrying animals. . Animal and vector control. . Periodic sediment removal to optimize performance. . Trash, debris, grass trimmings, tree pruning, and leaf collection and removal to prevent obstruction of a Swale and monitoring equipment. . Removal of standing water, which may contribute to the development of aquatic plant communities or mosquito breeding areas. . Preventive maintenance on sampling, flow measurement, and associated BMP equipment and structures. . , . . Erosion and structural maintenance to prevent the loss of soil and maintain the performance of the Swale. 6.0L1 Inspection Frequency The facility will be inspected and inspection visits will be completely documented: . Once a month at a minimum. . After every large storm (after every storm monitored or those storms with more than 0.50 inch of precipitation.) . On a weekly basis d uring extended periods of wet weather. 6.0 T .2 Aesttietic and Functional Maintenance Aesthetic maintenance is important for public acceptance of stormwater facilities. Functional maintenance is important for performance and safety reasons^ June 13,2005 F:\PROJEC~l\Yamamoto\TM SWMP.doc Page 14 BM W W% storm Water Management Plan (SWMP) UUM3 Yamamoto Property, CT 04-01 Engineering Both forms of maintenance will be combined into an overall Stormwater Management System Maintenance. 6.01.2(1) Aesthetic Maintenance The following activities will be included in the aesthetic maintenance program: • Grass Trimming. Trimming of grass will be done on the Swale, around fences, at the inlet and outlet structures, and sampling structures. • Weed Control. Weeds will be removed through mechanical means. Herbicide will not be used because these chemicals may impact the water quality monitoring. 6.01.2(ii) Functional Maintenance Functional maintenance has two components: 1. Preventive maintenance 2. Corrective maintenance 6.01.2 {li)(a) Preventive Maintenance Preventive maintenance activities to be instituted at a Swale are: • Gross Mowing. Vegetation seed mix within the Swale is designed to be kept short to maintain adequate hydraulic functioning and to limit the development of founol habitats. . Trash and Debris. During each inspection and maintenance visit to the site, debris and trash removal will be conducted to reduce the potential for inlet and outlet structures and other components from becoming clogged and inoperable during storm events. . Sediment Removal. Sediment accumulation, as part of the operation and maintenance program at a Swale, will be monitored once a month during the dry season, after every large storm (0.50 inch), and monthly during the wet season. Specifically, if sediment reaches a level at or near plant height, or could interi'ere with flow or operation, the sediment will be removed. If accumulation of debris or sediment is determined to be the cause of decline in design performance, prompt action (i.e., within ten working days) will be taken to restore the Swale to design performance standards. Actions will include using additional fill and vegetation and/or removing accumulated sediment to correct channeling or ponding. Characterization and Appropriate disposal of sediment will comply with applicable local, county, state, or federal requirements. The swale will be regraded, if the flow gradient has changed, and then replanted with sod. . Removal of Standing Water. Standing water must be removed if it contributes to the development of aquatic plant communities or mosquito breeding areas. . Mechanical and Electronic Components. Regularly scheduled maintenance will be performed on fences, gates, locks, and sampling and monitoring equipment in accordance with the manufacturers' recommendations. Electronic and June 13,2005 Page 15 F:\PROJEC-l\Yamamoto\lM SWMP.doc Sform Water Management Pton (SWMP) Jyamamoto Property, CT 04-01 Engineering mechanical components will be operated during each maintenance inspection to assure continued performance. . Fertilization and Irrigation. The vegetation seed mix has been designed so that fertilization and irrigation is not necessary. Fertilizers and irrigation will not be used to maintain the vegetation. . Elimination of Mosquito Breeding Habitats. The most effective mosquito control program is one that eliminates potential breeding habitats. 6.01.2 (li)(b) Corrective Maintenance Corrective maintenance is required on an emergency or non-routine basis to correct problems and to restore the intended operation and safe function of a Swale. Corrective maintenance activities include: . Removal of Debris and Sediment. Sediment, debris, and trash, which impede the hydraulic functioning of a Swale and prevent vegetative growth, will be removed and properly disposed. Temporary arrangements wili be made for handling the sediments until a permanent arrangement is mode. Vegetation will be re- established after sediment removal. . Structural Repairs. Once deemed necessary, repairs to structural components of a Swale and its inlet and outlet structures will be done within 10 working days. Qualified individuals (i.e., the designers or contractors) will conduct repairs where structural damage has occurred. . Embankment and Slope Repairs. Once deemed necessary, damage to the embankments and slopes of Swales will be repaired within 10 working days). . Erosion Repair. Where a reseeding program has been ineffective, or where other factors have created erosive conditions (i.e., pedestrian traffic, concentrated flow, etc.), corrective steps will be taken to prevent loss of soil and any subsequent danger to the peri'ormance of a Swale. There are a number of corrective actions than can be taken. These include erosion control blankets, rip-rap, sodding, or reduced flow through the area. Designers or contractors will be consulted to address erosion problems if the solution is not evident. . Fence Repair. Repair of fences will be done within 30 days to maintain the security of the site. . Elimination of Animal Burrows. Animal burrows will be filled and steps taken to remove the animals if burrowing problems continue to occur (filling and compacting). If the problem persists, vector control specialists will be consulted regarding removal steps. This consulting is necessary as the threat of rabies in some areas may necessitate the animals being destroyed rather than relocated. If the BMP performance is affected, abatement will begin. Otherwise, abatement will be performed annually in September. June 13,2005 P^9« F:\PROJEC~ t \Yamamolo\TM SWMP.doc ^ storm Water Management Plan (SWMP) I yamamoto Property, CT 04-0 J Engineering . General Facility Maintenance. In addition to the above elements of corrective maintenance, general corrective maintenance will address the overall facility and its associated components. If corrective maintenance is being done to one component, other components will be inspected to see if maintenance is needed. 6.01.3 Ma/ntenance Frequency The maintenance indicator document, included as Appendix B, lists the schedule of maintenance activities to be implemented at a Swale. , After every large storm (after every storm monitored or those storms with more than 0.50 inch of precipitation). . On a weekly basis during extended periods of wet weather. • On a monthly basis during the non-rainy season or periods of dry weather. 6.0 7.4 Debris ond Sediment Disposal Waste generated at Swales is ultimately the responsibility of the property owner. Disposal of sediment, debris, and trash will comply with applicable local, county, state, and federal waste control programs. Section 6.02 Infiltration Trench The operational and maintenance needs of an infiltration Trench are: . Animal and vector control. . Periodic sediment removal to optimize performance. . Trash and debris collection and removal to prevent obstruction of a infiltration trench and monitoring equipment. . Removal of standing water, which may contribute to the development of aquatic plant communities or mosquito breeding areas. 6.02.7 Inspecfton Frequency The facility will be inspected and inspection visits will be completely documented: . Once every three months at a minimum. , After every large storm (after every storm monitored or those storms with more than 0.50 inch of precipitation.) . On a weekly basis during extended periods of wet weather. 6.02.2 Aesttietic and Functional Maintenance Aesthetic maintenance is important for public acceptance of stormwater facilities. Functional maintenance is important for peri^ormance and safety reasons. June 13,2005 Page 17 f:\PROJEC~ 1 \Yamamoto\TM SWMP.doc t ^ W Water Management Plan (SWMP) ^ ^ ™ yamamoto Property, CT 04-01 Engineering Both forms of maintenance will be combined into on overall Stormwater Management System Maintenance. 6.02.2(i) Aesthetic Maintenance The foiiowing activities will be included in the aesthetic maintenance program: • Weed Control. Weeds will be removed through mechanical means. Herbicide will not be used because these chemicals may impact the water quality monitoring. 6.02.2(ii) Functional Maintenance Functional maintenance has two components: 1. Preventive maintenance 2. Corrective maintenance 6.02.2 (ii)(a) Preventive Maintenance Preventive maintenance activities to be instituted at an infiltration trench are: . Trash and Debris. During each inspection and maintenance visit to the site, debris and trash removal will be conducted to reduce the potential for inlet and outlet structures and other components from becoming clogged and inoperable during storm events. . Sediment Removal. Sediment accumulation, as part of the operation and maintenance program, will be monitored once every three months during the dry season, after every large storm (0.50 inch), and monthly during the wet season. Specifically, if accumulation of debris or sediment is determined to be the cause of decline in design performance, prompt action (i.e., within ten working days) will be taken to restore the Infiltration Trench to design performance standards. Actions will include removing accumulated sediment and replacement of filter fabric and upper layer of clean gravel. Characterization and Appropriate disposal of sediment will comply with applicable local, county, state, or federal requirements. . Removal of Standing Water. Standing water is an indication of an excess build up of sediment in the gravel and filter cloth. . Elimination of Mosquito Breeding Habitats. The most effective mosquito control program is one that eliminates potential breeding habitats. 6.02.2 (ii)(b) Con-ective Maintenance Corrective maintenance is required on on emergency or non-routine basis to correct problems and to restore the intended operation and safe function of an Infiltration Trench. Corrective maintenance activities include: . Removal of Debris and Sediment. Sediment, debris, and trash, which impede the hydraulic functioning of an infiltration trench will be removed and properly disposed. Temporary arrangements will be made for handling the sediments until a permanent arrangement is made. „„„ Page 18 June 13,2005 ^ F.\PROJEC--l\Yamamoto\TM SWMP.doc w w 'm<^ Storm Water Management Plan (SWMP) MA Engineering yomomoto Property, CT 04-01 . structural Repairs. Once deemed necessar/, repairs to structural components of an Infiltration Trenche and its inlet and outlet structures will be done within 10 working days. Qualified individuals (i.e., the designers or contractors) will conduct repairs where structural damage has occurred. . General Facility Maintenance. In addition to the above elements of corrective maintenance, general corrective maintenance will address the overall facility and its associated components. If corrective maintenance is being done to one component, other components will be inspected to see if maintenance is needed. 6.02.3 Mo/nfenance Frequency The maintenance indicator document, included as Appendix B, lists the schedule of maintenance activities to be implemented at an Infiltration Trench. . After every large storm (after every storm monitored or those storms with more than 0.50 inch of precipitation). . On a weekly basis during extended periods of wet weather. • On a quarterly basis during the non-rainy season or periods of dry weather. 6.02.4 Debris and Sediment Disposal Waste generated at Infiltration Trenches is ultimately the responsibility of the property owner. Disposal of sediment, debris, and trash will comply with applicable local, county, state, and federal waste control programs. Section 7. Mechanisms to Assure Maintenance This section is intended to provide information regarding the ability of the owner/developer to ensure the construction and maintenance of post-construction BMPs. Section 7.01 Stormwater Ordinance Requirement: The County of San Diego Watershed Protection, Storm water Management, and Discharge Control Ordinance (S.O.) requires this ongoing maintenance. In the event that the mechanisms below prove ineffective, or in addition to enforcing those mechanisms, civil action, criminal action or administrative citation could also be pursued for violations of the ordinance. June 13, 2005 P^9« F;\PROJEC-t\Yamamoto\TM SWMP.doc f stonn Water Management Plan (SWMP) f! J1J i yamamoto Property, CT 04-0 J Engineering Section 7.02 Public Nuisance Abatement: Under the S.O. failure to maintain a BMP would constitute a public nuisance, which may be abated under the Uniform Public Nuisance Abatement Procedure. This provides an enforcement mechanism additional to the above, and would allow costs of maintenance to be billed to the owner, a lien placed on the property, and the tax collection process to be used. Section 7.03 Notice to Purchasers. Section 67.819(e) of the SO requires developers to provide clear written notification to persons acquiring land upon which a BMP is located, or others assuming a BMP maintenance obligation, of the maintenance duty. Section 7.04 Subdivision Public Report Tentative Mop and Tentative Parcel Map approvals will be conditioned to require that, prior to approval of a Final or Parcel Map, the subdivider shall provide evidence to the Director of Public Works, that the subdivider has requested the California Department of Real Estate to include in the public report to be issued for the sales of lots within the subdivision, a notification regarding the maintenance requirement. (The requirement for this condition would not be applicable to subdivisions which are exempt from regulation under the Subdivided Lands Act, or for which no public report will be issued.) Section 7.05 Funding: None Required. Section 8. Summary Conclusions This SWMP has been prepared in accordance with the Watershed Protection, Storm water Management, and Discharge Control Ordinance and the Storm water Standards Manual. This SWMP has evaluated and addressed the potential pollutants associated with this project and their effects on water quality. A summary of the facts and findings associated with this project and the measures addressed by this SWMP is as follows: June 13,2005 Page 20 F;\PROJEC~l\Yamamoto\TM SWMP.doc ^ Storm Water Management Pton (SWMP) if yamomoto Property, CT 04-01 Engineering — — The beneficial uses for the receiving waters hove been identified. None of these beneficial uses will be impaired or diminish due to the construction and operation of this project. The Yamamoto Property Subdivision project will not significantly alter drainage patterns on the site. The discharge points will not be changed and gravel check dams will be placed to attenuate the flow velocities. Thus preventing downstream erosion. Open areas and slopes will be landscaped to reduce or eliminate sediment discharge. The vegetated swales and infiltration trenches proposed as part of the project will provide some mitigation of the increased peak flows by detaining flows, reducing the velocities, and providing opportunities for infiltration. The proposed construction and post-construction BMPs address mitigation measures to protect water quality and protection of water quality objectives and beneficial uses to the maximum extent practicable. June 13, 2005 P^9^ 21 F:\PROJEC-1 \Yannamoto\TM SWMP.doc storm Water Management Plan (SWMP) Yamamoto Property, CT 04-01 Engineering — Section 9. Certification This Storm Water Management Plan has been prepared under the direction of the following Registered Civil Engineer. The Registered Civil Engineer attests to the technical information contained herein and the engineering data upon which recommendations, conclusions, and decisions are based. Michael L. Benesh, RCE 37893 Date Exp. 3/31/07 June 13,2005 P^9e22 F:\PROJEC-l\Yamamoto\TM SWMP.doc Storm Water Management Pton (SWMPj yamamoto Property, CT 04-01 Engineering Attachment A - Vicinity IVlap June 13, 2005 F:\PROJEC~1\Yamamoto\TM SWMP.doc Page A-i Storm Water PoHuHon Prevention Plan (SWPPP) Yamamoto Property, CT 04-01 Engineering Attactiment B - Site Plan June 13, 2005 F:\PROJEC-1\Y3mamoto\TM SWMP.doc Page B-1 SCALI: I'=i00' CONSTRUCTION SITE PERIMETER s ?3 -VEGETATED SWALE & INFILTRATION TfSNCH (TYP.) NLB Engineering Professional GvilEngneen and L/md Surveyors 600 Sooth Antenen DdfC Suiic E, BKOuUdaw CA 92029 Phone 760 74WS77 FAX 760 897-216S B^Mifl; MLBeneihapidxJljiet YAMAMOTO PROPERTY TENTATIVE MAP SWMP SITE PLAN SHEET I OF I storm Water Management Pton (SWMP) Yamamoto Property, CT 04-01 Engineering Attactiment C - Computation Sheet for Runoff Coefficients Total Site Area 4.9 Acres (A) Existing Site Conditions Impen/ious Areai 0.3 Acres (B) Impervious Area Runoff Coefficients 0.95 (C) Pervious Area3 4.6 Acres (D) Pervious Area Runoff Coefficient^ 0.45 (E) Combined Runoff Coefficient 0.48 [BC+DE]/A Proposed Site Conditions Impen/ious Area^ 2.0 Acres (F) Impervious Area Runoff Coefficients 0.95 (G) Pervious Area3 2.9 Acres (H) Pervious Area Runoff Coefficient* 0.45 (!) Combined Runoff Coefficient 0.65 [FG+HI]/A Notes: 1. Includes paved areas, areas covered by buildings and other impen/ious areas. 2. 95% assumed. 3. Includes areas of vegetation, unpaved soil areas, and other pen/ious areas. 4. Runoff Coefficient for rural areas per Appendix IX, Soil Type D, Son Diego Hydrology Manual. June 13,2005 Page C-2 F:\PROJEC~1\Yamcimoto\TM SWMP.doc 1 storm Water Management Pton (SWMP) Yamamoto Property, CT 04-01 Engineering Attachment D - Drainage Study Refer to Drainage Study for Yamamoto Property Subdivision, CT 04-01 prepared by MLB Engineering. June 13. 2005 F:\PROJEC~l\Yamamoto\TM SWMP.doc Page D-3