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Home My WebLink AboutRIDGEWOOD HILLS - FDP230019 - SUBMITTAL DOCUMENTS - ROUND 2 - Responses (12)PREPARED FOR: Goodwin Knight PREPARED BY: Galloway � Company, Inc. 5265 Ronald Regan Blvd., Suite 210 Johnstown, Colorado 80534 DATE: August 15, 2023 :: 1 .. `.0 I. Certification ....................... Engineer's Statement.... Developer's Certification II. General Requirements....... 4 4 4 5 III. Narrative Site Description ................................................................................................................ 5 Nature of Construction Activity .................................................................................................... 6 Sequenceof Major Activities ....................................................................................................... 6 Extentof Disturbance ..................................................................................................................7 SoiIs ............................................................................................................................................ 7 ExistingVegetation .....................................................................................................................8 PotentialPollution Sources ..........................................................................................................8 Non-Stormwater Discharges ....................................................................................................... 8 ReceivingWaters ........................................................................................................................9 IV. Site Map ........................................................................................................................................10 VicinityMap ..............................................................................................................................10 AerialMap ................................................................................................................................11 V. Stormwater Management Controls .................................................................................................11 Qualified Stormwater Manager ..................................................................................................11 Potential Pollutant Sources .......................................................................................................12 Control Measures for Stormwater Pollution Prevention ..............................................................18 ErosionControl ......................................................................................................................... 18 MaterialsManagement ..............................................................................................................20 SedimentControl ......................................................................................................................20 Site Management and Other Practices ...................................................................................... 22 Revising Control Measures and the SWMP ...............................................................................24 VI. Final Stabilization & Long-Term Stormwater Management ............................................................. 25 Inactivation of Permit Coverage .................................................................................................25 VII. Inspection & Maintenance Procedures ...........................................................................................26 InspectionSchedules ................................................................................................................26 Inspection Procedures ..............................................................................................................27 Control Measure Maintenance/Replacement and Failed Control Measures ................................28 Record Keeping and Documentation ......................................................................................... 29 VIII. Conclusion .....................................................................................................................................30 Conformance with Standards .................................................................................................... 30 DrainageConcept ..................................................................................................................... 30 IX. References .................................................................................................................................... 30 Appendix A — Reference Information........... NRCS Web Soil Survey Information Galloway & Company, Inc. Page 2 of 35 FEMA FIRMette Appendix B— SWMP Site Maps and Calculations SWMP Site Maps and Details Appendix C — Training Documentation Appendix D — Inspection Report. State Inspection Report Template Appendix E— Spill and Prevention Control Spill Prevention and Control Plan Site Spill Log .............................. Galloway & Company, Inc. Page 3 of 35 I. Certification Enqineer's Statement This report and plan for the SWMP design of Ridgewood Hills Fifth Filing was prepared by me (or under my direct supervision) in accordance with the provisions of City of Fort Collins Stormwater Criteria Manual adopted December 2018. Matthew J. Pepin Registered Professional Engineer State of Colorado No. 0060198 Developer's Certification Date Goodwin Knight hereby certifies that the SWMP facilities for Ridgewood Hills Fifth Filing shall be installed and maintained according to the design presented in this report. This Erosion and Sediment Control Plan has been placed in the City of Fort Collins file for this project. The Plan fulfills the Urban Drainage and Flood Control DistricYs technical criteria and the criteria for erosion control and requirements of City of Fort Collins to the best of my knowledge. I understand that additional erosion control measures may be needed if unforeseen erosion problems occur or if the submitted Plan does not function as intended. The requirements of this Plan shall run with the land and be the obligation of the land owner until such time as the plan is properly completed, modified, or voided. Authorized Signature Goodwin Knight Date Galloway & Company, Inc. Page 4 of 35 II. General Requirements This Stormwater Management Plan (SWMP) has been prepared for Goodwin Knight, the developer of the site, to fulfill the SWMP requirements of the State of Colorado. The SWMP identifies all potential pollution sources which may be expected to affect stormwater quality and the initial (construction phase) and final (after construction) erosion and sedimentation control requirements. It also specifies the use and maintenance of control measures, designed in accordance with sound engineering and hydrologic practices, to reduce pollutants and sediment in stormwater discharges associated with construction activity. The control measures are presented in detail in the text of this report and are shown on the Erosion and Sediment Control plans (Site Maps) included in the back of this report. This site must implement the provisions of this SWMP as written and updated from commencement of construction activity until final stabilization is complete. Both the owner and operator must apply as permittees, except for instances where the duties of the owner and operator are managed by the owner. The permittee is responsible for updating the SWMP as construction activity on the site dictates and documenting any changes within this document. Additionally, this SWMP details control measures and processes for spill prevention control and countermeasures which shall be adhered to on site. III. Narrative Site Description The Ridgewood Hills Fifth Filing (hereafter referred to as "the site" or "project site") is a 34.81-acre project site located in the City of Fort Collins, Larimer County, Colorado. The project site is bound to the north by Triangle Drive, to the east by South College Avenue (US HWY 287), and to the south by undeveloped land. The west property boundary is adjacent to parkland and open space to the north and portions of Ridgewood Hills Filings Nos. 3 and 4 to the south. Ridgewood Hills Filing No. 4 is currently under construction. The project site is located on four separate parcels. Parcel 1 is described as Tract A of the Shenandoah P.U.D. Filing No. 1. Parcel 2 is described as a portion of the East'/2 of the Southeast'/4 of Section 14, Township 6 North, Range 69 West of the 6th Prime Meridian, in Larimer County Colorado. Parcel 3 is described as a portion of the East'/2 of the Southeast'/4 of Section 14, Township 6 North, Range 68 West of the 6�h Prime Meridian, in Larimer County Colorado. Parcel 4 is described as a portion of the Tract C of the Shenandoah P.U.D.A vicinity map is included in Section IV for reference. Project Coordinate Location • Longitude 105°04'43.3"W • Latitude 40°29'06.4"N The project site is approximately 34.81 acres. The project site is currently undeveloped and consists of open fallow land. Vegetation on the project site consists of mostly invasive weeds and grasses. Proposed improvements with the Fifth Filing project include the construction of multi-family, single-family attached, and single-family detached residential units with associated roads, drives and utilities infrastructure. Galloway & Company, Inc. Page 5 of 35 Nature of Construction Activitv The project consists of the construction of utility and roadway infrastructure for the residential subdivision. Improvements will include cut/fill grading, underground utility mains and service extensions, internal roadway installation, building foundation and vertical construction, installation of detention/water quality facilities, and installation of associated landscaping, parking, drives, and site amenities. Sequence of Maior Activities The projected sequence of work is expected to occur in the following order, with some overlap and adjustments as site conditions dictate: • Install control measures • Construct diversion ditches • Clear and grub • Rough overlot grading • Rough Grade Water Quality and Detention Ponds • Grade building pad • Install Underground Water Quality Chambers o Install Temporary Diversion Controls Upstream of Chambers (See Sheet XX for Phasing) • Trench and install underground utilities • Commerce vertical construction • Fine grade the remainder of the site • Pavement installation • Install Bio-Retention Underdrain System and Filter Media • Remove Temporary Diversion Controls Upstream of Water QualityChambers (See Sheet XX for Phasing) • Seed native areas and install permanent landscaping • Remove final control measures upon establishment of vegetation Construction is anticipated to begin in March 2021 and substantial completion of the project is anticipated in May 2023. The major phases of construction and their associated control measures are listed in the following table. Clearing Rough Utility Building Curb and Paving Fine Permanent and Grading Installation Construction Gutter Grading Landscaping Grubbing Construction Dust Control / / / / / / / v v v v v v v Galloway & Company, Inc. Page 6 of 35 Concrete Washout / / / / Area � � � � Good Housekeeping / / / / / / / v v v v v v v Silt Fence / / / / / / / v v v v v v v Inlet Protection / / / / / / / v v v v v v v Vehicle Tracking / / / / / Control � � � � � Stabilized Staging Area / / / / / / / v v v v v v v Street Sweeping / / / / / / / v v v v v v v Temporary Batch Plant / / / / � � � � Extent of Disturbance The total area of the site is 34.81 acres. Construction of this project will account for disturbed and impervious areas as shown in the table below. The earthwork for this project will result in cut which will be exported offsite. Total Disturbed Area (ac) 30.58 ac Pre-Construction Impervious Area (ac) 0.00 ac Post-Construction Impervious Area (ac) 18.96 ac Total new Impervious Area (ac) 18.96 ac The adjusted cut and fill quantities are listed below. Cut Volume = 90,747 CY Fill Volume = 87,100 CY Net Volume = 3,646 CY Cut Soils The NRCS Web Soil Survey of Fort Collins, Colorado indicates site soils to be a mix of soil types and Hydrologic Soil Groups (HSGs)including: - Fort Collins Loam, HSG `C', 41.9% of total project area - Heldt Clay Loam, HSGs `C', 12.2% - Longmont Clay, HSGs `D', 18.2% - Renohill Clay Loam, HSGs `D', 1.0% - Santana Loam, HSGs `B', 9.7% - Wiley Silt Loam, HSGs `B', 17.0% The predominant on-site HSG is `C'. Group C soils are described as having a slow infiltration rate when thoroughly wet. These consist chiefly of soils having a layer that impedes the downward movement of Galloway & Company, Inc. Page 7 of 35 water or soils of moderately fine texture or fine texture. These soils have a slow rate of water transmission. Refer to Appendix A for the soil survey information. Existinq Veqetation The site is currently undeveloped and consists of open fallow land. Vegetation on the project site consists of mostly invasive weeds and grasses (99% vegetative cover). Vegetative cover was determined by visual site and an Environmental Site Assessment performed by a third-party consultant. Potential Pollution Sources During construction there is potential for pollution from grading, utility, roadway, and building construction activities. These activities include ground disturbance, refueling and maintenance of equipment, washing of equipment, concrete waste, and the on-site use of paints, solvents, and other chemicals required for construction. Additionally, there is potential for pollution from the concrete washout area, temporary batch plant, worker's trash and portable toilets. Locations of potential pollution sources will be shown and updated on the Site Maps by the QSM. The QSM is also responsible for adhering to the Spill Prevention and Control Plan included in Appendix E of this plan. Non-Stormwater Discharqes Based on current information, the only non-stormwater discharge(s) anticipated are landscape irrigation return flow, emergency firefighting activities, discharge to the ground of concrete washout water, and construction dewatering activities. If landscape irrigation is to be installed, then potential return flow from the irrigation system must be documented. Emergency firefighting activities that may occur on the site are permissible under the Colorado General Permit for Stormwater Discharges Associated with Construction Activity. A designated contained concrete washout area is located on the Site Map; infiltration discharge of concrete washout water from washing of tools and concrete mixer chutes may be discharged on this construction site provided that control measures in accordance with Part 1.B.1.a.ii.(b) of the Colorado General Permit for Stormwater Discharges Associated with Construction Activity are installed to prevent pollution of groundwater and discharges do not leave the site as surface runoff or to surface waters. If low risk discharges including potable water monitoring devices, potable water snowmelt, or uncontaminated groundwater to land occur, they must be discharged in accordance with the CDPHE Low Risk Discharge policies. Galloway & Company, Inc. Page 8 of 35 Receivinq Waters The project area is divided into three major drainage basins that contribute captured stormwater to separate receiving waters. A-Bains are comprised of the north and east portion of the project site. These basins are compositionally similar and are intended to be captured via the on-site storm drain system and routed to Pond A at the northeast corner of the site. Stormwater captured in A-Basins will be treated for stormwater quality within a Stormtech underground chambers system before they enter Pond A. Stormwater captured in Pond A will be routed to the Robert Benson Inlet Swale at the northeast corner of the property and eventually into an existing 48" RCP storm drain that passes under College Avenue and discharges into Robert Benson Lake. B-Basins are comprised of of a portion of the proposed Castle View Drive right-of-way; a portion of the Field View Drive right-of-way, north of Avondale Road; a portion of the east right-of-way of the Avondale Road extension, north of Field View Drive; and a portion of the detached single-family buildings to the east of Pyramid Vista Way. These basins are compositionally similar and are intended to be captured via the on-site storm drain system and routed to Pond B at the southwest corner of Strasburg Drive and Castle Vie Drive. Pond B will provide water quality and detention for runoff from the B-Basins. Stormwater captured in Pond B will be routed to the Robert Benson Inlet Swale and eventually into an existing 48" RCP storm drain that passes under College Avenue and discharges into Robert Benson Lake. C-Basins are comprised of the Avondale Road right-of-way extension, south of Field View Drive; the detached single-family buildings to the north and south of Field View Drive, east of Avondale Road; the proposed Maroon Vista Way, Pyramid Vista Way and Long Vista Way; and the attached single-family buildings along Longmont Street and Field View Drive. C-Basins are compositionally similar and are intended to be captured via the on-site storm drain system and routed to Pond C at the southwest corner of the site. Stormwater captured in C-Basins will be treated for stormwater quality within an above ground bio-retention pond before they enter Pond C. The outlet flows from Pond C will be routed to the existing 24" RCP that runs parallel to the south property boundary and discharges into Stanton Creek on the east side of South College Avenue. There are several existing delineated natural areas and buffer zones present on the site, as defined by Section 3.4.1 of the City of Fort Collins Land Use Code. There are four wetland areas delineated on the project site — two at the northeast corner of the site, near the intersection of Triangle Drive and South College Avenue and two at the southwest corner of the site (i.e., developed basin WT3). A section of the North Loudon Ditch bisects the project site, which is also classified as a natural area. A designated City of Fort Collins Natural Area easement envelops the Robert Benson Inlet Swale at the northeast corner of the property. Proposed development that disturbs these areas and their buffer zones will require mitigation (i.e., developed basin WT2) as required by the Land Use Code. Galloway & Company, Inc. Page 9 of 35 Any site discharges to wetlands, require control measures shown on the site maps. These measures must been designed to meet the applicable requirements of the United State Army Corps of Engineers, CDPHE and/or local regulations. Habitat for threatened or endangered species shall be protected against stormwater discharge using designed measures that meet the applicable requirements of federal, state, and/or local regulations. Historic properties are not located hydrologically downstream of the project and therefore will not be encountered and will not place additional restrictions on stormwater. IV. Site Map Vicinitv Map N i : � REGISTRY RIDGE N � � � W Tnlby Rd CUh�1J Manposa N�tural AiPri : � 0 � Y wtriby�tdTRILBY CORNER Qa �� RIDGEWC i.�. H I L L :: � E Trilby Rd STII PROVINCETOWNE cc Rd r,�Jii-;,n MJrsh �� N[itur,! AreJ East Counry Rped 32 Carpenter I Galloway & Company, Inc. Page 10 of 35 Aerial Map � _•�,��-_�� ` ' •i ,,,;�i r_ : � � � ; ��• � .. . �- ��s �"',� �;, • +�,--.� f '+t�� ; � .R ..� = . ` �:* • ,� � ,t�"� � _.� � , �� '�� ;� �� _. � R� t � r• � �- ,1 �1� .�� 2.+ ,` ��t Fi'.[i �* p�;1 ��" +� _ �� ; r�' - �, �� +I •{•� � �� ' � l .�_.�. �� .�,, y . -,�, � � .f!R� v'" � . �.: j , - � a � l��.=: .�- � • - , �. �� s , b ,,� ..� � � �,g ~ .r'�� k.�� . ��Ry "'��',� ' � . ��. .1 t 9� _. � � � �� II . _ � 7� 'i� ^e L:r l� � Y,t ,�{ �, .�, � : t�� `� ,°.��1s � � � Ln �� ., �� ., . , ,� , . . - - '� ��t ti �'`�"�`�, ,��`� ' - - - A: .�� i ` Y � . . . . `��I``Y 1 .- ^ � � 6�'�� `_ � "_�} i� ".t=. � - -�*•. � �F.'��,�, � I �� ,��--. � : �^ - � � - ' -� �� x � � -� _� �� • •� � i`, : ,� �� 1 � �__ � ��M � � �° ` .\ _ �-� � • i �.� �� - ,�F' � � A. � •�� ,' � �� '�:.1� e � ;.i ,�"', � ;, l -�I:,� . �� s. , ,, +_3� � , � ,;„,,� � ,� ,.��1 � � � i� � 7 � �� , �v . L. 'rti � � �� •� �.i ✓�i1� ;`� .f I�� : ' `� _ . +��" _ - �ti � �� `"'. �� '�f;�.'� � �ti � I JRT�i!-` ' 3 � ' � as . � �y i ^ r' `.'.� ;� �`�'� ' � �. . � �� ,�f h �y�R�► .� :v� � - , �'_ _ `' _.�:. .11i. �- • ..r _ _ ��f � V. Stormwater Management Controls Qualified Stormwater Manaqer The Qualified Stormwater Manager (QSM) is an individual knowledgeable in the principles and practices of erosion and sediment control and pollution prevention and has the skills to assess conditions at construction sites that could impact stormwater quality and to assess the effectiveness of stormwater controls implemented to meet the requirements of the CDPS General Permit. The Permittee(s) is responsible for ensuring that the inspector is a qualified stormwater manager. The Permittee(s) shall designate a QSM who will be the contact for all SWMP related issues and the person responsible for its Galloway & Company, Inc. Page 11 of 35 accuracy, completeness, and implementation. The QSM should be a person with authority to adequately manage and direct day-to-day stormwater quality management activities at the site. The QSM is responsible for holding a weekly stormwater meeting attended by the Permittee(s) with all contractors and subcontractors involved in ground-disturbing activities to review the requirements of the Permit(s), the SWMP, and address any problems that have arisen in implementing the SWMP or maintaining the BMPs. The QSM shall maintain a log of all weekly meetings and document the issues addressed in the meetings. The name and contact information for the Qualified Stormwater Manager is: Name: TBD Phone: TBD Potential Pollutant Sources Potential pollutant sources for this site include: Disturbed and Stored Soils — Areas on the project site that are to be disturbed will be grubbed and overlot graded prior to major utility and roadway construction. This will be a one-time activity, per construction phase, and should be completed relatively early in the project timeline. The areas of grading that will not require additional disturbance shall receive final landscaping within 7 days. Otherwise temporary seeding and mulching will be required within 7 days of last disturbance if no further disturbance is anticipated for at least 14 days. Any soil stockpiles utilized during construction will be covered with a tarpaulin when not in active use and will have silt fence installed along the base of the slope. Construction Vehicle Entrance and Vehicle Tracking of Sediments — There is potential for tracking of soils between the beginning of the grading process and the final stabilization of the site. Construction vehicle entrances shall be minimized to reduce the potential for tracking of soils off-site and vehicle tracking control shall be installed at each construction entrance. Vehicle tracking control is to be installed prior to land disturbance activities and sweeping is to take place as needed. Vehicle access to the exposed and disturbed subgrade will be limited primarily to roll on/off earthmoving equipment and heavy materials delivery trucks. The QSM is responsible for ensuring that access to exposed subgrade is limited, both in quantity and in timing relative to the tracking susceptibility of the soil as it relates to moisture content. The QSM must keep the adjacent parking areas and public rights-of-way free from mud and other tracked debris from the site. Management of Contaminated Soils — Contaminated soils are not anticipated based on due diligence conducted for the project site. If suspect soils are encountered construction activity shall immediately halt Galloway & Company, Inc. Page 12 of 35 and environmental professionals shall review the materials and provide recommendations on handling of materials. All handling of materials shall be in accordance with State and Federal regulations. Loading and Unloading Operations — Loading and unloading operations are expected during demolition and during the delivery and staging of materials and equipment. Additionally, imported materials may be necessary to achieve final grades. All loading and unloading operations of equipment shall be accomplished in areas protected by erosion and sediment controls. It is recommended that all equipment be cleaned on-site and within protected areas prior to exiting the site. Outdoor Storage Activities — Outdoor storage is anticipated during construction activities including delivery and staging of materials. Potential chemicals include paint, fuel, oil, form oil, hydraulic fluid, plumbing glue, and fertilizer. Outdoor storage activities shall be limited to the designated stabilized staging area. All stored chemicals require protection from the elements and must be stored off the ground in some manner. An emergency spill kit is required to be in proximity of any stored chemicals and hazardous materials. The kit at a minimum would have a broom, chemical absorbent, shovel, and turn pallets. Good housekeeping practices shall be employed to prevent pollution associated with solid, liquid, and hazardous construction-related materials and wastes. Secondary containment for fuel tanks, petroleum products, and chemicals shall be utilized to reduce the likelihood of contamination of State Waters and Waters of the United States. The QSM shall show storage locations on the site maps and update them as needed. Fueling of Vehicles and Equipment — Vehicle and equipment fueling shall occur within the stabilized staging area. Fueling is expected to occur during all phases of construction activity. Under no circumstances shall fueling take place within 200 feet of any State Waters or Waters of the United States or within 50 feet of an inlet or ditch. Spill response kits shall be readily available an accessible at locations where fueling takes place. Please refer to the Hazardous Material Management and Spill Reporting Plan section for information on clean-up and disposal of spills. Temporary on-site fuel tanks for construction vehicles shall meet all state and federal regulations. Tanks shall have approved spill containment with the capacity required by the applicable regulations. From NFPA 30: All tanks shall be provided with secondary containment (i.e. containment external to and separate from primary containment). Secondary containment shall be constructed of materials of sufficient thickness, density, and composition so as not to be structurally weakened as a result of contact with the fuel stored and capable of containing discharged fuel for a period of time equal to or longer than the maximum anticipated time sufficient to allow recovery of discharged fuel. It shall be capable of containing 110% of the volume of the primary tank if a single tank is used, or in the case of multiple tanks, 150% of the largest tank or 10% of the aggregate, whichever is larger. Galloway & Company, Inc. Page 13 of 35 The tanks shall be in sound condition free of rust or other damage which might compromise containment. Fuel storage areas will meet all EPA, OSHA and other regulatory requirements for signage, fire extinguisher, etc. Hoses, valves, fittings, caps, filler nozzles, and associated hardware shall be maintained in proper working condition at all times. The location of fuel tanks shall be shown on the Site Maps and shall be located to minimize exposure to weather and surface water drainage features. A Spill Prevention and Control (SPCP) Plan has been included in Appendix E. Maintenance of Vehicles and Equipment — If equipment is to be maintained and stored in an open area this area should not be within the drip line of trees and not be within 100 feet of a watercourse or wetland. Runoff should be diverted away from watercourses and wetlands. Maintenance should be done on impervious areas surrounded with impervious berms. Where this is not possible, use pads designed to contain the pollutants which may leak or spill during maintenance operations. Impervious pads are particularly important on sandy and other course soils where spilled materials can easily leach into the groundwater. Equipment shall be checked before and after each use and, minimally, during the weekly stormwater inspection if otherwise idle. Periodic checks of the equipment wash areas shall be performed to ensure proper operation. Hazardous Material Management and Spill Reporting Plan — Any hazardous or potentially hazardous material that is brought onto the construction site will be handled properly in order to reduce the potential for storm water pollution. All materials used on this construction site will be properly stored including the use of secondary containment measures, handled, dispensed and disposed of following all applicable label directions. Flammable and combustible liquids will be stored and handled according to 29 CFR 1926.152. Only approved containers and portable tanks shall be used for storage and handling of flammable and combustible liquids. Material Safety Data Sheets (MSDS) information will be kept on site for any and all applicable materials. In the event of an accidental spill, immediate action will be undertaken by the General Contractor to contain and remove the spilled material. All hazardous materials will be disposed of by the Contractor in the manner specified by federal, state and local regulations and by the manufacturer of such products. As soon as possible, the spill will be reported to the appropriate agencies. As required under the provisions of the Clean Water Act, any spill or discharge entering waters of the United States will be properly reported. The General Contractor will prepare a written record of all spills and associated clean- up and also notify the City of Fort Collins at 970-221-6700. Spills should be reported online at Access Galloway & Company, Inc. Page 14 of 35 Fort Collins (https://clients.comcate.com/newrequest.php?id=150). The General Contractor will provide notice to Owner immediately upon identification of a reportable spill. Any spills of petroleum products or hazardous materials in excess of Reportable Quantities as defined by EPA or the state or local agency regulations, shall be immediately reported to the EPA National Response Center (1-800-424-8802), the Colorado Department of Public Health and Environment (CDPHE) (1-877-518-5608), the City of Fort Collins at (970-221-6700). The State reportable quantity for petroleum products is 25 gallons or more (or that cause a sheen on nearby surface waters). Spills from regulated aboveground and underground fuel storage tanks must be reported to the State Oil Inspector within 24 hours (after-hours contact CDPHE Emergency Spill Reporting Line). This includes spills from fuel pumps. Spills or releases of hazardous substances from regulated storage tanks in excess of the reportable quantity (40 CFR Part 302.6) must be reported to the National Response Center, the local fire authority immediately, the State Oil Inspector, and the City of Fort Collins within 24 hours. The reportable quantity for hazardous materials can be found in 40 CFR 302 at: http://www.ecfr.gov/cgi-bin/text-idx?tpl=/ecfrbrowse/TitIe40/40cfr302 main 02.tp1 In order to minimize the potential for a spill of petroleum product or hazardous materials to come in contact with storm water, the following steps will be implemented: a) All materials with hazardous properties (such as pesticides, petroleum products, fertilizers, detergents, construction chemicals, acids, paints, paint solvents, additives for soil stabilization, concrete, curing compounds and additives, etc.) will be stored including secondary containment measures in a secure location, under cover, when not in use. b) The minimum practical quantity of all such materials will be kept on the job site and scheduled for delivery as close to time of use as practical. c) A spill control and containment kit (containing for example, absorbent material such as kitty litter or sawdust, acid neutralizing agent, brooms, dust pans, mops, rags, gloves, goggles, plastic and metal trash containers, etc.) will be provided on the construction site and location(s) shown on Site Maps. The kit should be inspected for completeness as a part of weekly stormwater inspections. d) All of the product in a container will be used before the container is disposed of. All such containers will be triple rinsed with water prior to disposal. The rinse water used in these Galloway & Company, Inc. Page 15 of 35 containers will be disposed of in a manner in compliance with state and federal regulations and will not be allowed to mix with storm water discharges. e) All products will be stored in and used from the original container with the original product label. f) All products will be used in strict compliance with instructions on the product label. g) The disposal of excess or used products will be in strict compliance with instructions on the products label and local regulations. The contractor is responsible for the Spill Prevention and Control Plan (SPCP) included in Appendix D of the SWMP. If the contractor elects to provide his own SPCP it must be included in Appendix D as a replacement. A contractor provided SPCP shall clearly state measures to stop the source of a spill, contain the spill, clean up the spill, dispose of contaminated materials, and train personnel to prevent and control future spills. In addition, the SPCP must include contact and documentation requirements for each of the Minor, Significant, and Hazardous spill magnitudes. Further requirements are listed below in the equipment fueling section. Significant Dust or Particulate Generating Processes — Dust and airborne particulates can be expected during clearing and grubbing, site grading, saw cutting, and final stabilization activities. Dust mitigation shall be implemented as necessary. Routine Maintenance Activities Involving Chemicals, Detergents, Fuels, Solvents, Oils, etc. — On- site routine maintenance activities involving fertilizers, pesticides, detergents, fuels, solvents, oils, etc. shall occur within the stabilized staging area when possible and shall be kept to a minimum. Routine maintenance activities are expected to occur during all phases of construction activity. The QSM shall show storage Iocations on the appropriate plan sheets and update them as needed. All chemicals are to be protected from the elements. Spill response kits shall be readily available an accessible at locations where maintenance takes place. Please refer to the Hazardous Material Management and Spill Reporting Plan section for information on clean-up and disposal of spills. On-Site Waste Management — Waste generation is expected as a result of construction activities. All waste shall be properly stored and disposed of to minimize the potential for pollution of stormwater or snowmelt runoff. Additionally, on-site waste should be stored such that wind will not transport refuse away from the storage area. This may include the use of storage containers, dumpsters, fencing or covers. Galloway & Company, Inc. Page 16 of 35 Concrete Truck/Equipment Washing (including truck chute and associated fixtures and equipment) — Concrete washout area shall be installed prior to any concrete placement on site. Signs shall be placed at the construction entrance(s), at the washout area, and elsewhere as necessary to clearly indicate the location of the concrete washout area. The washout area shall be repaired and enlarged or cleaned out as necessary to maintain capacity for wasted concrete. Concrete and concrete wash water shall be removed from the site and disposed of at an accepted waste facility. Dedicated Asphalt and Concrete Batch Plants — A small temporary batch plant may be installed to allow on-site storage and mixing of concrete and masonry. This should be protected by sediment traps, silt fence, diversion ditches or other perimeter protection as appropriate to keep stockpiled material within the plant area and located on the Site Maps by the QSM. Non-Industrial Waste Management • Worker's Trash — The site shall be policed at the end of each work day to be kept free of trash and debris resulting from workers day to day activities. If necessary, utilize clearly marked and protected containers for trash and debris at convenient locations throughout the site. Burying of waste on site is prohibited. Trash must be properly contained at the end of each day. • Portable Toilets — All personnel involved with construction activities must comply with state and local sanitary or septic system regulations. Temporary sanitary facilities will be provided at the site throughout the construction phase. They must be utilized by all construction personnel and must be serviced weekly by a commercial operator. The location of sanitary facilities shall be shown on the Site Maps. Portable toilets must be securely anchored a minimum of 10' behind curbs and are not allowed within 50' of inlets or within 50' of a water of the State or the municipal storm drain system. • Concrete and Saw Cutting Waste — Concrete and asphalt cutting are expected during demolition activities. The waste material from these operations will be fully contained and cleaned up immediately by vacuum. Any remaining residue shall be cleaned by vacuum or street sweeping. Dewatering — Dewatering of excavations shall occur as permitted by a Water Quality Control Division Low Risk Guidance Document. Any water from dewatering operations shall be uncontaminated and discharge to a control measure and captured on-site for infiltration and/or evaporation. Under no circumstances shall construction dewatering water be allowed to leave the site as surface runoff. If contamination of groundwater is suspected, a separate construction dewatering permit will be required. Galloway & Company, Inc. Page 17 of 35 Control Measures for Stormwater Pollution Prevention The following erosion control, sediment control, materials management, and site management measures shall be utilized and/or installed as indicated on the site maps to reduce the potential of the sources identified above to contribute pollutants to stormwater discharges. The following structural control measures are anticipated to be implemented on this site: BMP Quantity Unit Permanent Seeding 30.58 AC Temporary Outlet Protection 7 EA Drainage Swale and Diversion Ditches 500 LF Check Dam 5 EA Wind Erosion and Dust Control 30.58 AC Concrete Washout Area 7 EA Soil Stockpile 3000 CY Silt Fence 6500 LF Straw Wattle/Sediment Control Logs 15000 LF Rock Sock 85 LF Storm Sewer Inlet Protection 45 EA Construction Fence 7600 LF Vehicle Tracking Control SY Stabilized Staging Area 800 SY Site maps and control details can be found in Appendix B of this document. Erosion Control Temporary and Permanent Seeding — All denuded areas that will be inactive for 14 days or more must be stabilized temporarily with the use of fast-germinating annual grass/grain varieties appropriate for site soil and climate conditions, straw/hay mulch, wood cellulose fibers, tackifiers, netting and/or blankets. Stockpiles and diversion ditches/berms must be stabilized to prevent erosion and dust issues. A City of Fort Collins approved seed mix shall be used. All areas at final grade must be seeded or sodded within 14 days after completion of work in that area. Prepare soil and seed immediately after final grade is achieved. At the completion of ground-disturbing activities the entire site must have permanent vegetative cover, meeting vegetative density requirements, or mulch per landscape plan, in all areas not covered by hardscape (pavement, buildings, etc.). Except for small (<100 SF) level spots, seeded areas should be protected with mulch, tackifier, or a rolled erosion control product. Mulch must be crimped by disc or other machinery. Temporary Outlet Protection — Permanent or temporary outlet protection helps to reduce erosion immediately downstream of a pipe, culvert, slope drain, rundown or other conveyance with concentrated, high-velocity flows. Typical outlet protection consists of an energy dissipater such as turf reinforcement matting or baffle blocks at the conveyance outlet. Their main purpose is to reduce the speed of Galloway & Company, Inc. Page 18 of 35 concentrated flows to prevent scour at conveyance outlets. Outlet protection shall be designed to handle runoff from the largest drainage area that may be contributing runoff during construction. Additional erosion control measures such as vegetative lining, turf reinforcement mat, and/or other channel lining methods may be required downstream of the initial outlet protection if the channel is susceptible to erosion. Outlet protection shall be installed prior to the start of earth moving operations and remain in place until the conveyance no longer poses a risk for erosion. Earth Dikes, Drainage Swales and Diversion Ditches — Diversion ditches or berms are temporary storm conveyance channels constructed either to divert runoff around slopes or to convey runoff to additional sediment control measures prior to discharge of runoff from a site. Drainage swales must be lined using riprap, plastic or erosion control blankets and are usually used in conjunction with check dams for slowing flow velocities. Check Dam — Check dams, also called ditch checks, dikes, wattles, etc. are temporary or permanent linear grade control structures placed in drainage channels perpendicular to flows to limit the erosivity of stormwater by reducing flow velocity. Check dams are typically constructed from rock, fiber logs (e.g. wattles), triangular sediment dikes, sand bags, and other materials and prefabricated systems. Reinforced check dams are typically constructed from rock and wire gabion. Straw/hay bales and silt fences should not be used for check dam applications, as they are not intended for concentrated flow areas. Although the primary function of check dams is to reduce the velocity of concentrated flows, a secondary benefit is sediment trapping upstream of the structure. Check dams can be used on mild or moderately steep slopes. Check dams may be used as temporary grade control facilities along waterways, along permanent swales that need protection prior to installation of a non-erodible lining, and along temporary channels, ditches or swales that need protection where construction of a nonerodable lining is not practicable. Reinforced check dams should be used in areas subject to high flow velocities. Check dams shall be installed when drainage ditches or swales are installed. They shall remain in place until final stabilization. Wind Erosion and Dust Control — Wind erosion and dust control measures help to keep soil particles from entering the air as a result of land disturbing construction activities. These control measures include a variety of practices generally focused on either graded disturbed areas or construction roadways. For graded areas, practices such as seeding and mulching, use of soil binders, site watering, or other practices that provide prompt surface cover should be used. For construction roadways, road watering and stabilized surfaces should be considered. Dust control measures should be used on any site where dust poses a problem to air quality. Dust control is important to control for the health of construction workers and surrounding waterbodies. Dust control shall be implemented throughout construction once Galloway & Company, Inc. Page 19 of 35 the site has any exposed, bare soil. It shall be implemented until all bare soil has been covered by final stabilization. Design data for diversion ditches, and check dams are included in Appendix B of this report. Materials Manaqement Concrete Washout Area — The concrete washout area shall be installed prior to any concrete placement on site. Signs shall be placed at the construction entrance(s), at the washout area, and elsewhere as necessary to clearly indicate the location of the concrete washout area. The washout area shall be repaired and enlarged or cleaned out as necessary to maintain capacity for wasted concrete. Concrete shall be removed from the site and disposed of at an accepted waste facility. The concrete washout area shall be installed as shown on site maps prior to any concrete work. It shall remain in place until all concrete work is complete. Stockpile Management — Stockpile management includes measures to minimize erosion and sediment transport from soil stockpiles. Soil stockpiles shall be located away from all drainage system components including inlets. When practical, choose stockpile locations that will remain undisturbed for the longest period of time as the phases of construction progress. Place sediment control measures such as silt fence, straw wattles, or rock socks around the perimeter of all stockpiles. For stockpiles in active use, provide a stabilized designated access point on the upgradient side of the stockpile. Soils stockpiled for more than 60 days should be seeded and mulched with a temporary grass cover. Soil stockpile management shall be installed when soil stockpiling begins. It shall remain in place until all soil has been replaced or hauled off-site to a permanent location. Good Housekeeping Practices — A clean and orderly work site reduces the possibility of accidental spills and reduces safety hazards to employees and subcontractors. It will also help minimize potential contamination of stormwater runoff. Housekeeping practices are to include providing waste management, establishing proper building material staging areas, designating paint and concrete washout areas, establishing proper equipment and vehicle fueling and maintenance practices, controlling equipment and vehicle washing and allowable non-stormwater discharges, and developing a spill prevention and response plan. Good housekeeping practices shall be employed throughout the duration of construction. Sediment Control Silt Fence — Silt fence is a synthetic permeable woven or non-woven geotextile fabric incorporating support stakes at intervals sufficient to support the fence (5-feet maximum distance between posts), Galloway & Company, Inc. Page 20 of 35 water, and sediment retained by the fence. The fence is designed to retain sediment-laden storm water and allow settlement of suspended soils before the storm water flows through the fabric and discharges off-site. Silt fence shall be located on the contour to capture overland, low-velocity sheet flows. Silt fence shall be installed at the start of construction prior to any earth moving activities. Silt fence shall remain in place until site construction has been completed to a point where other control measures can control the remaining sediment concerns. Straw Wattles or Sediment Control Logs — Straw waddles or sediment control logs consist of straw, compost, excelsior, or coconut fiber and are staked to the ground to prevent sediment transfer. The waddles are designed to retain sediment-laden storm water and allow settlement of suspended soils before the storm water flows through the waddle and discharges off-site. Straw waddles shall be located on the contour to capture overland, low-velocity sheet flows. Straw wattles shall be installed as needed as construction proceeds to prevent sediment transport (e.g. at top back of curb and gutter, at edge of sidewalk). Straw wattles shall remain in place until final stabilization. Rock Sock — Rock socks consist of gravel wrapped by wire mesh or a geotextile to form an elongated cylindrical filter to prevent sediment transfer. They are used to trap sediment from stormwater runoff that flows onto roadways as a result of construction activities. They can be used as curb flow control, perimeter control, or as part of inlet protection. Rock socks shall be installed at the start of construction prior to any earth moving activities. Rock socks shall remain in place until final stabilization. Storm Sewer Inlet Protection — Inlet protection devices intercept and/or filter sediment before it can be transported from a site into the storm drain system and discharged into a lake, river, stream, wetland, or other body of water. These devices also keep sediment from filling or clogging storm drain pipes, ditches, and downgradient sediment traps or ponds. Inlet protection may also include placement of a barrier to create a bypass of an inlet transferring flow downstream to a sediment trap, basin, or other inlet discharging to a non-critical area. The primary mechanism is to place controls in the path of flow sufficient to slow the sediment-laden water to allow settlement of suspended soils before discharging into the storm sewer. It is possible that as construction progresses from storm sewer installation through to paving that the inlet protection devices should change. All inlet protection devices create ponding of storm water. This should be taken into consideration when deciding on which device or devices should be used. Inlet protection shall be installed around all existing inlets at the start of construction prior to any earth moving activities and around all proposed inlets as they are constructed. Inlet protection shall remain in place until final stabilization (pavement and/or landscaping). Sediment Trap — Sediment traps are formed by excavating an area or by placing an earthen embankment across a low area or drainage swale. Sediment traps are designed to capture drainage Galloway & Company, Inc. Page 21 of 35 from disturbed areas less than one acre and allow settling of sediment. Sediment traps can be used in combination with other layers of erosion and sediment controls such as vehicle tracking controls and wheel wash facilities. A sediment trap consists of a small excavated basin with an earthen berm and a riprap outlet. The berm of the sediment trap may be constructed from the excavated material and must be compacted. An overflow outlet must be provided at an elevation at least 6 inches below the top of the berm. Site Manaqement and Other Practices Construction Phasing and Scheduling — Effective construction site management to minimize erosion and sediment transport includes attention to construction phasing, scheduling, and sequencing of land disturbing activities. On most construction projects, erosion and sediment controls will need to be adjusted as the project progresses and should be documented in the SWMP. All construction projects can benefit from upfront planning to phase and sequence construction activities to minimize the extent and duration of disturbance. Larger projects and linear construction projects may benefit most from construction sequencing or phasing, but even small projects can benefit from construction sequencing that minimizes the duration of disturbance. Typically, erosion and sediment controls needed at a site will change as a site progresses through the major phases of construction. Erosion and sediment control practices corresponding to each phase of construction must be documented in the SWMP. Protection of Existing Vegetation — Existing vegetation should be preserved for the maximum practical duration on a construction site through the use of effective construction phasing. Preserving vegetation helps to minimize erosion and can reduce revegetation costs following construction. Potential sources of injury to existing trees include soil compaction during grading or due to construction traffic, direct equipment-related injury such as bark removal, branch breakage, surface grading and trenching, and soil cut and fill. In order to minimize injuries that may lead to immediate or later death of the tree, tree protection zones shall be established at the beginning of a construction project and remain in place until final stabilization. Construction Fence — Construction fence shall restrict site access to designated entrances and exits for safety and preservation of adjacent areas. Construction fence shall be installed around the perimeter of the site except at construction access points at the start of construction prior to any earth moving activities. It shall remain in place until construction is complete and no further threat to public safety exists (e.g. open trenches, heavy operating equipment on-site). Vehicle Tracking Control — Vehicles leaving construction sites can track sediment onto adjoining roadways. This sediment can create safety hazards and contribute significantly to sediment pollution in waterways. The purpose of a vehicle tracking control measure is to prevent soil and mud on work Galloway & Company, Inc. Page 22 of 35 vehicles from being carried offsite and deposited on public roads, parking lots, and other areas. All points closed to the general public and providing access into the construction site shall include a marked construction exit that will be monitored for any signs of tracking from the construction site. It is expected that only trailer delivered equipment will access the exposed subgrades and that vehicle tracking to the adjacent publicly accessible parking and the public rights-of-way should not be evident. However, if that proves not to be the case a roughened exit composed of ribbed steel plate and down-gradient silt dikes is to be installed to the dimensions shown on the site maps. The rough texture of the plates helps to remove clumps of soil adhering to the construction vehicle tires through the action of vibration and jarring over the rough surface and the friction of the ribbed matrix against soils attached to vehicle tires. It may also be necessary to install a wheel wash system. If this is done, a sediment trap control must be installed to treat the wash water before it discharges from the site. Discharge must be directed to the sediment basin within the limits of construction as indicated. The vehicle tracking control shall be installed at all construction access points at the start of construction prior to any earth moving activities. It shall remain in place until permanent pavement is installed. Stabilized Construction Roadway — A stabilized construction roadway is a temporary method to control sediment runoff, vehicle tracking, and dust from roads during construction activities. When a construction roadway is expected to have frequent construction traffic it is advisable to install a stabilized construction roadway instead of rough-cut street controls. The road surface shall be stabilized with an aggregate base course of 3-inch diameter granular material. Roadside ditches shall also be stabilized if applicable. Early application of road base is typically suitable in place of the coarse aggregate specified above. Stabilized Staging Area — This is a clearly designated area where construction equipment and vehicles, stockpiles, waste bins, and other construction-related materials are stored. The stabilized storage area consists of a stabilized surface, covered with 3-inch diameter aggregate or larger. The stabilized staging area shall be installed as shown on the site maps at the start of construction prior to any earth moving activities. It shall remain in place until permanent pavement is installed. Street Sweeping and Vacuuming — Street sweeping and vacuuming remove sediment that has been tracked onto roadways to reduce sediment transport into storm drain systems or a surface waterway. Street sweeping or vacuuming should be conducted when there is noticeable sediment accumulation on roadways on or adjacent to the construction site. Typically, this will be concentrated at the entrance/exit to the construction site. Well-maintained stabilized construction entrances, vehicle tracking controls and tire wash facilities can help reduce the necessary frequency of street sweeping and vacuuming. Street sweeping shall occur as needed and at a minimum once a day throughout the duration of construction. Galloway & Company, Inc. Page 23 of 35 Temporary Diversion Methods — Temporary diversion methods are used to reroute water from a stream or restrict flows to a designated portion of the stream channel to allow for construction activities to take place in the stream, along the banks or beneath the active channel. Temporary diversion methods are often required during the construction of detention ponds, dams, in-stream grade control structures, utility installation and other activities, including maintenance, that require working in waterways. Temporary diversion methods include temporary diversion channels, pump-arounds, piped diversions, coffer dams and other similar practices. The primary purpose of all temporary diversion methods is to protect water quality by passing upstream flows around the active construction zone. Dewatering Operations — Dewatering typically involves pumping water from an inundated area to a control measure, and then downstream to a receiving waterway, sediment basin, or well-vegetated area. Dewatering typically involves several control measures in sequence. Dewatering operations are used when an area of the construction site needs to be dewatered as the result of a large storm event, groundwater, or existing ponding conditions. This can occur during deep excavation, utility trenching, and wetland or pond excavation. All dewatering discharges must be treated to remove sediment before discharging from the construction site. Discharging water into a sediment trap or basin is an acceptable treatment option. Water may also be treated using a dewatering filter bag and a series of straw bales or sediment logs. If these options are not feasible, a settling tank or an active treatment system may need to be utilized. Settling tanks are manufactured tanks with a series of baffles to promote settling. Flocculants can also be added to the tank to induce more rapid settling. Contact the state agency for special requirements prior to using flocculants and land application techniques. Some commonly used methods to handle the pumped water without surface discharge include land application to vegetated areas through a perforated discharge hose (i.e., the "sprinkler method") or dispersal from a water truck for dust control. Paving and Grinding Operations — Runoff from paving and grinding operations shall be managed to minimize pollutants entering storm drainage systems and natural waterways. Use runoff management practices during all paving and grinding operations such as surfacing, resurfacing, and saw cutting. Revisinq Control Measures and the SWMP Should there be changes to the implemented control measures the QSM shall be notified and the SWMP modified to accurately reflect the field conditions. Examples include, but are not limited to, removal of control measures, identification of new potential pollutant sources, addition of control measures, modification of control measure installation and implementation criteria or maintenance procedures, and changes in items included in the Site Map and/or description. SWMP revisions must be made prior to changes in site conditions, except for Responsive SWMP Changes, as follows: Galloway & Company, Inc. Page 24 of 35 • SWMP revisions must be made immediately after changes are made in the field to address control measure installation and/or implementation issues; or • SWMP revisions that require the development of supporting documentation (e.g. design of sediment basin capacity) must be made as soon as practicable, but in no case more than 72 hours, after change(s) in control measure installation and/or implementation occur at the site. Notation must be included in the plan that identifies: • The date of the site change • The control measure removed or modified • The location(s) of those control measure(s) • Any changes to the control measure(s) This SWMP should be viewed as a"living documenY' that is to be continuously reviewed and modified as part of the overall process of assessing and managing stormwater quality issues on-site. VI. Final Stabilization & Long-Term Stormwater Management Permanent stabilization of the site will include establishment of native seeded areas in specified ROW and overlot graded areas with a City of Fort Collins approved seed mix, permanent landscaping areas, and pavement placement. Final site stabilization is achieved when perennial vegetative cover provides permanent stabilization with a density greater than 70 percent of pre-disturbance levels over the entire area to be stabilized by vegetative cover or equivalent cover has been employed. Additionally, all permanent stormwater control measures must be completed and operational as designed and any stormwater conveyances cleaned of sediment and stabilized. Further, all temporary stormwater control measures must be removed unless designed to decompose on-site. Inactivation of Permit Coveraqe Once the criteria for final stabilization have been met, the Permittee shall make a request to terminate the permit through the Colorado Environmental Online Services (CEOS) system. The QSM shall provide a completed SWMP binder to the owner at the conclusion of the project which will include the original SWMP, all markups or other changes to the SWMP, and inspection and maintenance records. The owner shall keep this document on file for a minimum of 3 years after construction completion. Galloway & Company, Inc. Page 25 of 35 VII. Inspection & Maintenance Procedures The contractor must keep the approved SWMP on site at all times. The person(s) inspecting the site may be on the Permittee's staff or a third party hired to conduct stormwater inspections under the direction of the Permittee. The Permittee is responsible for ensuring that the inspector is a qualified stormwater manager. All regulatory authorities may inspect the land or site covered by the SWMP at any time, without prior notice, for compliance with the SWMP. If site conditions indicate that the objectives of this section are not being met, the operator shall make appropriate modifications to the SWMP. Any modification must be recorded on the owner's copy of the SWMP and the QSM notified. The Permittee must maintain inspection records on site with the SWMP and such records must be provided to the regulatory agencies for review upon request. At a minimum, the inspection report must include: • The inspection date • Name(s) and title(s) of personnel conducting the inspection • Weather conditions at the time of inspection • Phase of construction at the time of inspection • Estimated acreage of disturbance at the time of inspection • Location(s) of discharges of sediment or other pollutants from the site • Location(s) of control measures needing maintenance • Location(s) and identification of inadequate control measures • Location(s) and identification of additional control measures needed that were not in place at the time of inspection. • Description of the minimum inspection frequency (either in accordance with Part I.D.2., I.D.3. or I.D.4.) utilized when conducting each inspection. • Deviations from the minimum inspection schedule as required in Part I.D.2. • After adequate corrective action(s) and maintenance have been taken, or where a report does not identify incidents requiring corrective action or maintenance, the report shall contain a statement as required in Part I.A.3.f. The State Construction Stormwater Site Inspection Report template has been included in Appendix D. The Permittee may provide their own inspection report if desired, but must ensure it meets the requirements above. Inspection Schedules Between the time this SWMP is implemented and final Inactivation Notice or Termination Application has been submitted, all disturbed areas and pollutant controls must be inspected with one of the following minimum frequencies: • At least one inspection every 7 calendar days Galloway & Company, Inc. Page 26 of 35 • At least one inspection every 14 calendar days, plus post-storm event inspections conducted within 24 hours after the end of any precipitation or snowmelt event that causes surface erosion. If more frequent inspections are required to ensure that control measures are properly maintained and operated, the inspection schedule must be modified to meet this need. The first site inspection must occur within 7 calendar days of the commencement of construction activities on site. The contractor and QSM shall adhere to the maintenance schedules listed in the details for each control measure. Permittees must conduct site inspections at least once every 7 calendar days for sites that discharge to a water body designated as an Outstanding Water by the Water Quality Control Commission. Preventative maintenance shall be coupled with periodic inspections. Inspection Procedures The purpose of site inspections is to assess performance of pollutant controls. Based on these inspections the contractor, in consultation with the QSM (if different) will decide whether it is necessary to modify this SWMP, add or relocate controls, or revise or implement additional control measures in order to prevent pollutants from leaving the site via stormwater runoff. The contractor has the duty to cause pollutant control measures to be repaired, modified, supplemented, or take additional steps as necessary in order to achieve effective pollutant control. Note: If a control measure is covered by snow, mark the control measure as not applicable and document the reason the control measure cannot be inspected on the daily report. The inspection must include observation of: • The construction site perimeter and discharge points, including discharges into a storm sewer system • All disturbed areas • Areas used for material/waste storage that are exposed to precipitation • Areas determined to have a significant potential for stormwater pollution, such as demolition areas, concrete washout areas, or construction vehicle entrances • All erosion and sediment control measures identified in the SWMP • Structural control measures that may require maintenance, such as secondary containment around fuel tanks or the condition of spill response kits Examples of specific items to evaluate during site inspections are listed below. This list is not intended to be comprehensive. During each inspection, the inspector must evaluate overall pollutant control system performance as well as particular details of individual system components. Additional factors should be considered as appropriate to the circumstances. Additional information on maintenance requirements Galloway & Company, Inc. Page 27 of 35 can be found in the BMP Fact Sheets in Volume 3 of the Urban Storm Drainage Criteria Manual by the Urban Drainage and Flood Control District. • Construction Exit and Track Out — Locations where vehicles enter and exit the site must be inspected for evidence of off-site sediment tracking. A stabilized construction exit shall be constructed where vehicles enter and exit. Exits shall be maintained or supplemented as necessary to prevent the release of sediment from vehicles leaving the site. Any sediment deposited on the roadway shall be swept as necessary throughout the day or at the end of every day and disposed of in an appropriate manner. Sediment shall NOT be washed into storm sewer systems. • Erosion Control Devices — Rolled erosion control products (nets, blankets, turf reinforcement mats) and marginally vegetated areas (areas not meeting required vegetative densities for final stabilization) must be inspected weekly. Rilling, rutting and other signs of erosion indicate the erosion control device is not functioning properly and additional erosion control devices are warranted. • Material Storage Areas — Material storage areas should be located to minimize exposure to weather. Inspections shall evaluate disturbed areas and areas used for storing materials that are exposed to rainfall for evidence of, or the potential for, pollutants entering the drainage system or discharging from the site. If necessary, the materials must be covered or original covers must be repaired or supplemented. Also, protective berms must be constructed, if needed, in order to contain runoff from material storage areas. All state and local regulations pertaining to material storage areas will be adhered to. • Discharge Points — All discharge points must be inspected to determine whether erosion and sediment control measures are effective in preventing discharge of sediment from the site or impacts to receiving waters. Control Measure Maintenance/Replacement and Failed Control Measures The Colorado General Permit for Stormwater Discharges Associated with Construction Activity requires that all erosion and sediment control practices and other protective measures identified in the SWMP be maintained in effective operating condition and in accordance with good engineering, hydrologic and pollution control practices. Sediment that has been collected by sediment controls, such as silt fence and inlet protection, shall be removed when observed to prevent failure of control measures, and remove the potential of that sediment from being discharged from the site if the control measure did fail. Removed sediment shall be properly disposed of on-site. Maintenance activities to correct problems noted during inspections must be documented as discussed in the documentation section below. The inspection Galloway & Company, Inc. Page 28 of 35 process must also include procedures to ensure that, when needed, control measures are replaced or new control measures added to adequately manage the pollutant sources at the site. This procedure is part of the ongoing process of revising the control measures and the SWMP as discussed above, and any changes to control measures must be recorded in the SWMP. The SWMP must be modified as soon as practicable to reflect current conditions. Control measures that have failed or have the potential to fail without maintenance or modifications must be addressed as soon as possible, immediately in most cases, to prevent the discharge of pollutants. If it is infeasible to install or repair a control measure immediately after discovering the deficiency, the following information must be documented and kept on record: 1) Describe why it is infeasible to initiate the installation or repair immediately; and 2) Provide a schedule for installing or repairing the control measure and returning it to an effective operating condition as soon as possible. If applicable, the Permittee must remove and properly dispose of any unauthorized release or discharge (e.g. discharge of non-stormwater, spill or leak not authorized by the Construction Stormwater Permit). The Permittee must also clean up any contaminated surfaces to minimize discharges of the material in subsequent storm events. Record Keepinq and Documentation All erosion control measures and stabilizations shall be inspected weekly and after each precipitation or snow melt event. The Permittee must document inspection results and maintain a record of the results for a period of 3 years following closing of permit coverage. These records must be made available to the Owner, the City & County, the State, or the EPA upon request. The following items must be documented as part of the site inspections: • The inspection date • Name(s) and title(s) of personnel making the inspection • Location(s) of discharges of sediment or other pollutants from the site • Location(s) of control measures that need to be maintained • Location(s) of control measures that failed to operate as designed or proved inadequate for a particular location • Location(s) where additional control measures are needed that were not in place at the time of inspection • Deviations from the minimum inspection schedule as indicated above • Description and dates of corrective actions taken including requisite changes to the SWMP After adequate corrective action(s) has been taken, or where a report does not identify any incidents requiring corrective action, the report shall contain a signed statement indicating the site is in compliance with the permit to the best of the signer's knowledge and belief. Galloway & Company, Inc. Page 29 of 35 Record of spills, leaks, or overflows that result in the discharge of pollutants must be documented and maintained. Information that should be recorded for all occurrences includes the time and date, weather conditions, reasons for the spill, who the spill was reported to, etc. A complete copy of the SWMP shall be kept with the inspection and maintenance records for the aforementioned 3-year period. <Permttee to provide physical address.> VIII. Conclusion Conformance with Standards The Stormwater Management report for Project at Ridgewood Hills Fifth Filing, was prepared in compliance with the City of Fort Collins Stormwater Criteria Manual adopted December 2018 and the Colorado General Permit for Stormwater Discharges Associated with Construction Activity. Drainaqe Concept The proposed erosion and sediment control measures do not alter the proposed drainage patterns, volumes, or control points from the submitted Final Drainage Report for Ridgewood Hills Fifth Filing applicable to this development. IX. References 1. City of Fort Collins Stormwater Criteria Manual adopted December 2018 2. Urban Storm Drainaqe Criteria Manual, Volume 3, Urban Drainage and Flood Control District, revised October 2019. 3. General Permit Application and Stormwater Manaqement Plan Preparation Guidance, Colorado Department of Public Health and Environment, November 2018 Galloway & Company, Inc. Page 30 of 35 Appendix A — Reference Information NRCS Web Soil Survey Information FEMA FIRMette Galloway & Company, Inc. Page 31 of 35 � Hydrologic Soil Group—Larimer County Area, Colorado � - (Ridgewood Hills - Fifth Filing) M Q 0 0 493000 493100 493200 493,'300 493100 493500 40° 29' 14" N �� I .� I �— I �I . y 40° 29' 14" N '�MR � � 1� 1 � ` �' � ,� � , I: �' w Q . ��iM� � , � � � _��s , , . . 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I � '' 4 C?� � � �- ��. , a��a#�l��ti�j� �'�' --� � � � > . , + � ,'�'--` _ � �—, i � � � � � � �'� �"�'? s , � • ��'� �Y � I� �� "� , � � � ;'� ,�'� 9�� I ��.�� _ �� , � � � � � ,�� , , ` . �„ �� +- � ti,,, , � � li � � ' � � �� V . . ,.� ss� � � ; ��: �-�;, - ' r� - - �.. �� + � • �F' i =(1 �� -r �� .�� p f � J � � , � g� - � ;�� _ ::, a � -�r '' ,. _ ' � ti" � �� , � 9CE3 � - _ - -'z - - ' - � , � i ` i =. � � 6 0 �ra $ Soil Map may not be,��:'vy�;fi;; �t this scale. -r' '� xl' .,� � 40° 28' 46" N�' I '� ..� � I I I , I` � ao� za� as° N � 493000 4R3100 49.'3200 493300 493400 4.93500 3 3 Map Scale: 1:4,250 if printed on A porhait (8.5" x 11") sheet. � � N Meters ° 0 50 100 200 300 � � � 0 200 400 800 1200 Map projectlon: Web Mercator Comer coordinates: WGS84 Edge dcs: UTM Zone 13N WGS84 USDn Natural Resources Web Soil Survey 11/6/2019 � Conservation Service National Cooperative Soil Survey Page 1 of 4 Hydrologic Soil Group—Larimer County Area, Colorado (Ridgewood Hills - Fifth Filing) MAPLEGEND Area of Interest (AOI) Area of Interest (AOI) Soils Soil Rating Polygons � A � A/D 0 B � B/D 0 C 0 C/D � D � Not rated or not available Soil Rating Lines :;t A � C � C/D . D � Not rated or not available Water Features Streams and Canals Transportation ,_._. Rails � Interstate Highways US Routes Major Roads Local Roads Background � Aerial Photography sy A/D r� B ,,.y� B/D . . C .y C/D ,.s,y D .. Not rated or not available Soil Rating Points � A o �o ■ B � si� MAP INFORMATION The soil surveys that comprise your AOI were mapped at 1:24,000. Warning: Soil Map may not be valid at this scale. Enlargement of maps beyond the scale of mapping can cause misunderstanding of the detail of mapping and accuracy of soil line placement. The maps do not show the small areas of contrasting soils that could have been shown at a more detailed scale. Please rely on the bar scale on each map sheet for map measurements. Source of Map: Natural Resources Conservation Service Web Soil Survey URL: Coordinate System: Web Mercator (EPSG:3857) Maps from the Web Soil Survey are based on the Web Mercator projection, which preserves direction and shape but distorts distance and area. A projection that preserves area, such as the Albers equal-area conic projection, should be used if more accurate calculations of distance or area are required. This product is generated from the USDA-NRCS certified data as of the version date(s) Iisted below. Soil Survey Area: Larimer County Area, Colorado Survey Area Data: Version 14, Sep 13, 2019 Soil map units are labeled (as space allows) for map scales 1:50,000 or larger. Date(s) aerial images were photographed: Aug 11, 2018—Aug 12, 2018 The orthophoto or other base map on which the soil lines were compiled and digitized probably differs from the background imagery displayed on these maps. As a result, some minor shifting of map unit boundaries may be evident. USDn Natural Resources Web Soil Survey 11/6/2019 � Conservation Service National Cooperative Soil Survey Page 2 of 4 Hydrologic Soil Group—Larimer County Area, Colorado Hydrologic Soil Group Ridgewood Hills - Fifth Filing Map unit symbol Map unit name Rating Acres in AOI Percent of AOI 37 Fort Collins loam, 5 to 9 C percent slopes 49 Heldt clay loam, 3 to 6 C percent slopes 63 Longmont clay, 0 to 3 D percent slopes 90 Renohill clay loam, 3 to D 9 percent slopes 96 Satanta loam, 3 to 5 B percent slopes 108 Thedalund loam, 3 to 9 C percent slopes 119 Wiley silt loam, 3 to 5 B percent slopes Totals for Area of Interest 15.8 4.6 6.9 0.4 3.7 0.0 6.4 37.7 41.9% 12.2% 18.2% 1.0% 9.7% 0.0% 17.0% 100.0% USDn Natural Resources Web Soil Survey 11/6/2019 � Conservation Service National Cooperative Soil Survey Page 3 of 4 Hydrologic Soil Group—Larimer County Area, Colorado Ridgewood Hills - Fifth Filing Description Hydrologic soil groups are based on estimates of runoff potential. Soils are assigned to one of four groups according to the rate of water infiltration when the soils are not protected by vegetation, are thoroughly wet, and receive precipitation from long-duration storms. The soils in the United States are assigned to four groups (A, B, C, and D) and three dual classes (A/D, B/D, and C/D). The groups are defined as follows: Group A. Soils having a high infiltration rate (low runoff potential) when thoroughly wet. These consist mainly of deep, well drained to excessively drained sands or gravelly sands. These soils have a high rate of water transmission. Group B. Soils having a moderate infiltration rate when thoroughly wet. These consist chiefly of moderately deep or deep, moderately well drained or well drained soils that have moderately fine texture to moderately coarse texture. These soils have a moderate rate of water transmission. Group C. Soils having a slow infiltration rate when thoroughly wet. These consist chiefly of soils having a layer that impedes the downward movement of water or soils of moderately fine texture or fine texture. These soils have a slow rate of water transmission. Group D. Soils having a very slow infiltration rate (high runoff potential) when thoroughly wet. These consist chiefly of clays that have a high shrink-swell potential, soils that have a high water table, soils that have a claypan or clay layer at or near the surface, and soils that are shallow over nearly impervious material. These soils have a very slow rate of water transmission. If a soil is assigned to a dual hydrologic group (A/D, B/D, or C/D), the first letter is for drained areas and the second is for undrained areas. Only the soils that in their natural condition are in group D are assigned to dual classes. Rating Options Aggregation Method.• Dominant Condition Component Percent Cutoff.� None Specified Tie-break Rule: Higher USDA Natural Resources Web Soil Survey 11/6/2019 � Conservation Service National Cooperative Soil Survey Page 4 of 4 National Flood Hazard Layer FIRMette 4�0°29' 12.38"N ` ! " ^ 7 , � � �� i *� � . I , , � �t' ,� r' • I � �� #� . / . - , z,. A � � , � � � ♦ . � ' • ' • �f, ., ,� • . � r5L • �► � ��rr � �� 1� . ,; � •�' 1F- , � . �' �M� � _ir � • 1 �� OF FORT CC)�:L[%d� ��Olo� I T6N (�69W S14 OF IV��R�IMAL FLOOD .� i�. � � �� , �� 19/2006 � �� i. � � a_ # 0 ' T � '� T6N R69W S23 � i, . 0 250 500 1,000 1,500 � Feet 2, 000 - - - T ,�T,� � ti �4 �� 1 '� � �°= FEMA i��_ '__-_-____ �.r �� - �------ �r � ♦� r. . . / •�w . • - j � � �Y� • I {� t �r � �i « �� / y� / � � � 1 ` 1 � ' � ,� '1;�� • r�• - . � � \ •`� � �y � •,T6N°rR69W S13� + 7 . � ,* : r ' l �� M . �j►t "'M �►�.. �r� ' / � ;Y � � � , � ` � �'� s -�..� � -�1� � � � LARIMER COUNTY OOOI,O1 �� ' � � �� " •! � L Legend SEE FIS REPORT FOR DETAILED LEGEND AND INDEX MAP FOR FIRM PANEL LAYOUT SPECIAL FLOOD HAZARD AREAS OTHER AREAS OF FLOOD HAZARD Without Base Flood Elevation (BFE) Zone A, V A99 With BFE or Depth zone ae. ao. aH ve. nR Regulatory Floodway 0.2% Annual Chance Flood Hazard, Areas of 1% annual chance flood with average depth less than one foot or with drainage areas of less than one square mile z�„� x Future Conditions 1% Annual �� = I Chance Flood Hazard zo�,E x Area with Reduced Flood Risk due to Levee. See Notes. zo�,� x Area with Flood Risk due to Leveezo�,e o NO SCREEN Area of Minimal Flood Hazard zo�,e x 0 Effective LOMRs OTHER AREAS Area of Undetermined Flood Hazard zo„� o GENERAL ---� Channel, Culvert, or Storm Sewer STRUCTURES I i i i i i i i Levee, Dike, or Floodwall B 2°'2 Cross Sections with 1%Annual Chance ��•5 Water Surface Elevation �- - - Coastal Transect ...,. S,�.M,. Base Flood Elevation Line (BFE) Limit of Study Jurisdiction Boundary --- --- Coastal Transect Baseline OTHER _ - profile Baseline FEATURES i Hydrographic Feature • � � MAP PANELS .�c � y , • � �.. �1!! 1 _ , r r � � � � �� a � `t ta . � � + 1 � � _ T6N R69W S24 � � � � � �`e National Map: Ort�oimagery. Dafa 1:6,000 + o � � A ,j` A w 20,�19, � �. � Digital Data Available N No Digital Data Available 1 < �V Unmapped � The pin displayed on the map is an approximate point selected by the user and does not represent an authoritative property location. This map complies with FEMA's standards for the use of digital flood maps if it is not void as described below. The basemap shown complies with FEMA's basemap accuracy standards The flood hazard information is derived directly from the authoritative NFHL web services provided by FEMA. This map was exported on 11/6/2019 at 11:19:16 AM and does not reflect changes or amendments subsequent to this date and time. The NFHL and effective information may change or become superseded by new data over time. This map image is void if the one or more of the following map elements do not appear: basemap imagery, flood zone labels, legend, scale bar, map creation date, community identifiers, FIRM panel number, and FIRM effective date. Map images for unmapped and unmodernized areas cannot be used for regulatory purposes. Appendix B— SWMP Site Maps and Calculations SWMP Site Maps and Details Galloway & Company, Inc. Page 32 of 35 r_______________ ______�, � � � , � 1 ' II , � � �, IPS � � I I �" ' PROVIDE INLET PROTECTiON � � ' AT NEAREST DOWNSTREAM WLET '- �I , ON COILEGE AVENUE WEST SIDE � I � 0 , OF RIGHT-OF-WAY I � ir � —� � 1 �----------------------- ----r--� o .� � ,. "' w �: � I � � � _ �� z � � , — -- � i ` . i �a > i � ' ! � � "' ' �� w ' , � � � I I � �_ ' \ / I � I ��, w �' J �� I �k �� I' o I , .�u U, I I � R, �'�! � � ' ��------�/ � � a�' ' � , ' �� — I �` � I ' ��J.� 1 . :.. .,�- �� I I ~ - _ ,F�� I / / / . f„` ' �,� ., s't ! � . � I / / I � ' / / R ' `` -" / I '"V F �W __ ' ' ✓ � ��E 5�'l5 � IPS � I / � � , � � ��E DR ,_ �_- �� , � i r � � � �"�'� � � � �� ,r� ` \ �� j �� / � � ��j j� � � �� O� � s � �� ' C) P� , % ;; � ,� l , �� i � � � � �/' \ / ��r� � - �� / \ ��✓y; i � � ��'�'yG SEQUENCE OF MAJOR ACTIVITIES THE PROJECTED SEQUENCE OF WORK IS EXPECTED TO OCCUR IN THE FOLLOWING ORDER, WITH SOME OVERLAP AND ADJUSTMENTS AS SITE CONDITIONS DICTATE. REFER TO SHEETS C3.0-C3.3 FOR OVERALL SITE AND UTILITIES CONSTRUCTION PHASING • INSTALL CONTROL MEASURES • CONSTRUCT DIVERSION DITCHES • CLEAR AND GRUB • ROUGH OVERLOT GRADING • ROUGH GRADE WATER QUALITY AND DETENTION PONDS • GRADE BUILDING PAD • INSTALL UNDERGROUND WATER QUALITY CHAMBERS • INSTALL TEMPORARY DIVERSION CONTROLS UPSTREAM OF CHAMBERS (SEE SHEETS C3.0 & C32 FOR PHASING INSTRUCTIONS) • TRENCH AND INSTALL UNDERGROUND UTILITIES • COMMERCE VERTICAL CONSTRUCTION • FINE GRADE THE REMAINDER OF THE SITE • PAVEMENTINSTALLATION • INSTALL BIO-RETENTION UNDERDRAIN SYSTEM AND FILTER MEDIA • REMOVE TEMPORARY DIVERSION CONTROLS UPSTREAM OF WATER QUALITYCHAMBERS (SEE SHEETS C3.0 & C3.2 FOR PHASING INSTRUCTIONS) • SEED NATIVE AREAS AND INSTALL PERMANENT LANDSCAPING • REMOVE FINAL CONTROL MEASURES UPON ESTABLISHMENT OF VEGETATION i �J � � /� o � ,�� RS ' % II ,\, \ \ / I / � :! i � �� '�` � �� °� �, , ,.,� \/ i � �� i � , � � i � I � I \� � � � _ _ _ _ _ _ _ _ — — — — , � i ,- : ''' � i �, ,o i � � �� — ,-_�� '� J � � � � — — — � _ �-� � i �R�� \ � h w I � �� ,� i i �°�� I , � w p � 1 �li � � � 11: I o I �� g�: U I ' �+a li � � � � `II � : 3 O ' I�'.-- --- �I � ,�� 1?. _� � W�i i� , � � �, / / � � � � � � � I � � 0 10 30 60 SCALE: 1 "=60' KEYMAP � 0 ' � LEGEND: PROPOSED CURB AND GUTTER — — PROPOSED CURB AND GUTTER - OUTFALL EXISTING CURB AND GUTTER — — PROPOSED STORM SEWER EXISTING STORM SEWER PROPOSED MAJOR CONTOUR PROPOSED MINOR CONTOUR u` EXISTING MAJOR CONTOUR -------�&3� ------- EXISTING MINOR CONTOUR PROPOSED STORM INLET � � EXISTING STORM INLET � PROPOSED MANHOLE OO O EXISTING MANHOLE ��O NATURAL HABITAT BUFFER ZONE PERMANENT SEEDING & MULCHING: REFER TO APPROVED LANDSCAPE PLANS FOR PERMANENT SITE STABILIZIATION LIMITS OF CONSTRUCTION TEMPORARY BMPs ROCKSOCK VEHICLE TRACKING CONTROL PAD SILT FENCE INLET PROTECTION CONCRETE WASHOUT AREA STABILIZED STAGING AREA ROCK CHECK DAM li'�Vi , �.,�i�ll lui�.� i�ll II�'�II � I�■■■■■■� RS vTc SF IP CW SSA RCD YI �I YI�� —S F- � —S F- � � � 6� IOTE: �LL BMP'S SHOWN ARE GRAPHICAL IN NATURE. FINAL SIZE AND LOCATION SHALL BE IETERMINED BY THE CONTRACTOR. � � N d � z � 3 a 0 V 0 w ` � � � � � � � � 0 1 1 1 1 , 1 I \ s � Y Z C7 V 0 O U Y 3 °o x w I � z � W � Q W C7 W � O I U _ � � O C/� \ � \ GENERAL NOTES: 1. THIS EROSION CONTROL PLAN AND ASSOCIATED SWMP ARE LIVING DOCUMENTS REQUIRING PERIODIC REVIEW AND UPDATING AS SITE CONDITIONS CHANGE OR AS REQUIRED BY LOCAL AUTHORITIES. IT IS THE CONTRACTOR'S RESPONSIBILITY TO ENSURE ONGOING COMPLIANCE WITH THE REQUIREMENTS OF THE STORMWATER DISCHARGE PERMIT. 2. THE SIZE, TYPE AND LOCATION OF A�L KNOWN UNDERGROUND UTILITIES ARE APPROXIMATE WHEN SHOWN ON THESE DRAWINGS. IT SHALL BE THE RESPONSIBILITY OF THE CONTR,4CTOR TO VERIFY THE EXISTENCE OF ALL UNDERGROUND UTILITIES IN THE AREA OF THE WORK. BEFORE COMMENCING NEW CONSTRUCTION, THE CONTRACTOR SHALL BE RESPONSIBLE FOR LOCATING ALL UNDERGROUND UTILITIES AND SHALL BE RESPONSIBLE FOR ALL UNKNOWN UNDERGROUND UTILITIES. 3. EROSION CONTROL PRACTICES, SITE PROTECTION AND REVEGETATION METHODS SHA�L FOLLOW CITY OF FORT COLLINS REGULATIONS. 4. DURING CONSTRUCTION PHASING, INSTALL EROSION CONTROL MEASURES FOLLOWING BMPS WITH EACH PHASE, AS REQUIRED. 5. PERIMETER PROTECTION (I.E., STRAW WATTLES) IS SHOWN AROUND EACH BLOCK THAT IS A PART OF THE PROPOSED IMPROVEMENTS. REFER TO THE LEGEND (SEE RIGHT). THIS PERIMETER PROTECTION SHALL BE INSTALLED WHEN CURB, GUTTER AND SIDEWALK INSTALLATION IS COMPLETED IN THE ADJOINING RIGHT-OF-WAY. THE CONTRACTOR IS RESPONSIBLE FOR REPLACING PERIMETER PROTECTION (i.e., STRAW WATTLES) DAMAGED BY CONSTRUCTION TRAFFIC (e.g., TRUCKS DRIVING OVER STRAW WATTLES AND FLATTENING THEM). 6. FOLLOWING OVERLOT GRADING OR ANY OTHER LAND DISTURBING ACTIVITY, ALL OTHER AREAS OF THE SITE TO BE DEVELOPED DURING LATER PHASES OF CONSTRUCTION AND WHICH SHALL REMAIN EXPOSED FOR MORE THAN THIRTY-(30) DAYS WILL REQUIRE TEMPORARY OR PERMANENT EROSION CONTROL (I.E., SEED/MULCH, LANDSCAPING, ETC.). 7. SEE LANDSCAPE PLANS FOR ADDITIONAL INFORMATION ON SEEDING/PLANTING, REVEGETATION, EROSION FABRIC/BLANKETS, IRRIGATION, HARDSCAPE AND OTHER TEMPORARY AND PERMANENT SITE STABILIZATION METHODS. 8. SEE EROSION CONTROL NOTES ON THIS SHEET AND GRADING & EROSION CONTROL NOTES ON SHEET C0.1, AS WELL AS DETAILS ON SHEETS C11.2-C11.4. 9. NO DEBRIS OR MUD SHALL BE TRACKED ON ADJACENT STREETS. ANY DEBRIS OR MUD TRACKED ONTO ADJACENT STREETS SHOULD BE REMOVED AND CLEANED IMMEDIATELY BY THE CONTRACTOR. 10. PERMANENT SITE STABILIZATION SHALL BE DONE IN ACCORDANCE WITH THE APPROVED LANDSCAPE PLAN FOR THE SITE. :: a;;owa 5265 Ronald Reagan Blvtl., Suite 210 Johnstown, CO 80534 970.800.3300 GallowayUS.com y P� �� Q� �� `C J� �� G COPYRIGHT THESE PLANS ARE AN INSTRUMENT OF SERVICE AND ARE THE PROPERTY OF GALLOWAY, AND MAY NOT BE DUPLICATED, DISCLOSED, OR REPRODUCED WITHOUT THE WRITTEN CONSENT OF GALLOWAY. COPYRIGHTS AND INFRINGEMENTS WILL BE ENFORCED AND PROSECUTED. V z � �..L � � �..L � z � Q 2 � � �, U � � � OO J Z � � o W J U � z � � L.L � # Date Issue I Description Init. Project No: GNK000010 Drawn By: DBC Checked By: JEP Date: 08.16.2023 EROSION CONTROL PLAN N d � � 3 a 0 V 0 w s � Y Z C7 V 0 O U Y O � _ � `� � ' � �. �� cF i � � �\ � / �� , � �\ � � � � I r 1 I / � �` , 1 �� o �� o " ; � � ; � � J``' / �'� / `�� h�� I � 5035 -i �� --_�� , / � (/I I � I I / �'��/ � 1 I I I I � J � � I �� I I /� � � � I I � I � \� \ � / � I I I � I � \ � 1 /{ � / I I I � I I \� � 1 1 � I I I� I �� \�\ 1� / � � I I� I � � I � I I � \�'''�� \� \ 1 � I� I I� I �� \ `� �\ � i i i i i i _ �_-� � � i i i i i i ��\ `�\ �� 1 i i i i i i � � ,,\\ �\ �\ � �\ 1 � i � i � � �� 1 � I , � � � \ \ �� I� I I� I 1 � � � � � � � I � i � � \ � � I I I � I \\ \\ �� \\ �� \ II i I I � IP� � � � \ � \ � I I � � � � �1 �\ � �\ \\ 1 I I II I i � l \ � \ � I � I � � � � � 1 � � I � I I I � � I � � 1 � � I � I I � � � � � � � � I �I �— � � I �1 � � `� � I I � r � I I \ � I I I � � I \ \ C� I � � � PRQVIDE INLET PRO�ECTION 1 I� I I Il — I— — I II � AT NEAR�ST DOWNSTREAM �NLET \ \ � I � � J � ON COLLE�E AVENUE WEST SIDE � \ � I I I I � I I � OF RIGHT-OF-Vf�Y I ��I i � I I �1 �(NOT SURVEYED� � � I I I � I � \ 1 � � I � � � I � I� � \ � � � � I I� I �I I � � � 1 � \ \ \ I I � I � I \ \ 1 \ \ � � I I �� \ 1 �� L �� \ � � I I � I \ � I� I � \ � � I I� I � � � \ � I � � � � `I �` �\ \\ I �\ � � i I \ \ � \ \ � \ \ I � � I Ii ��\ �\ �� 1 I � 1�� i I i � � � `r � � � � i�i i i i � � ! 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FINAL SIZE AND LOCATION SHALL BE ETERMINED BY THE CONTRACTOR. GENERAL NOTES: 1. THIS EROSION CONTROL PLAN AND ASSOCIATED SWMP ARE LIVING DOCUMENTS REQUIRING PERIODIC REVIEW AND UPDATING AS SITE CONDITIONS CHANGE OR AS REQUIRED BY LOCAL AUTHORITIES. IT IS THE CONTRACTOR'S RESPONSIBILITY TO ENSURE ONGOING COMPLIANCE WITH THE REQUIREMENTS OF THE STORMWATER DISCHARGE PERMIT. 2. THE SIZE, TYPE AND LOCATION OF A�L KNOWN UNDERGROUND UTILITIES ARE APPROXIMATE WHEN SHOWN ON THESE DRAWINGS. IT SHALL BE THE RESPONSIBILITY OF THE CONTR,4CTOR TO VERIFY THE EXISTENCE OF ALL UNDERGROUND UTILITIES IN THE AREA OF THE WORK. BEFORE COMMENCING NEW CONSTRUCTION, THE CONTRACTOR SHALL BE RESPONSIBLE FOR LOCATING ALL UNDERGROUND UTILITIES AND SHALL BE RESPONSIBLE FOR ALL UNKNOWN UNDERGROUND UTILITIES. 3. EROSION CONTROL PRACTICES, SITE PROTECTION AND REVEGETATION METHODS SHA�L FOLLOW CITY OF FORT COLLINS REGULATIONS. 4. DURING CONSTRUCTION PHASING, INSTALL EROSION CONTROL MEASURES FOLLOWING BMPS WITH EACH PHASE, AS REQUIRED. 5. PERIMETER PROTECTION (I.E., STRAW WATTLES) IS SHOWN AROUND EACH BLOCK THAT IS A PART OF THE PROPOSED IMPROVEMENTS. REFER TO THE LEGEND (SEE RIGHT). THIS PERIMETER PROTECTION SHALL BE INSTALLED WHEN CURB, GUTTER AND SIDEWALK INSTALLATION IS COMPLETED IN THE ADJOINING RIGHT-OF-WAY. THE CONTRACTOR IS RESPONSIBLE FOR REPLACING PERIMETER PROTECTION (i.e., STRAW WATTLES) DAMAGED BY CONSTRUCTION TRAFFIC (e.g., TRUCKS DRIVING OVER STRAW WATTLES AND FLATTENING THEM). 6. FOLLOWING OVERLOT GRADING OR ANY OTHER LAND DISTURBING ACTIVITY, ALL OTHER AREAS OF THE SITE TO BE DEVELOPED DURING LATER PHASES OF CONSTRUCTION AND WHICH SHALL REMAIN EXPOSED FOR MORE THAN THIRTY-(30) DAYS WILL REQUIRE TEMPORARY OR PERMANENT EROSION CONTROL (I.E., SEED/MULCH, LANDSCAPING, ETC.). 7. SEE LANDSCAPE PLANS FOR ADDITIONAL INFORMATION ON SEEDING/PLANTING, REVEGETATION, EROSION FABRIC/BLANKETS, IRRIGATION, HARDSCAPE AND OTHER TEMPORARY AND PERMANENT SITE STABILIZATION METHODS. 8. SEE EROSION CONTROL NOTES ON THIS SHEET AND GRADING & EROSION CONTROL NOTES ON SHEET C0.1, AS WELL AS DETAILS ON SHEETS C11.2-C11.4. 9. NO DEBRIS OR MUD SHALL BE TRACKED ON ADJACENT STREETS. ANY DEBRIS OR MUD TRACKED ONTO ADJACENT STREETS SHOULD BE REMOVED AND CLEANED IMMEDIATELY BY THE CONTRACTOR. 10. PERMANENT SITE STABILIZATION SHALL BE DONE IN ACCORDANCE WITH THE APPROVED LANDSCAPE PLAN FOR THE SITE. ii a;;owa 5265 Ronald Reagan Blvtl., Suite 210 Johnstown, CO 80534 970.800.3300 GallowayUS.com y A`PQ� �`� � O`� �� G Q� �� Q� 5� O� � COPYRIGHT THESE PLANS ARE AN INSTRUMENT OF SERVICE AND ARE THE PROPERTY OF GALLOWAY, AND MAY NOT BE DUPLICATED, DISCLOSED, OR REPRODUCED WITHOUT THE WRITTEN CONSENT OF GALLOWAY. COPYRIGHTS AND INFRINGEMENTS WILL BE ENFORCED AND PROSECUTED. � Z � � � � �..L � Z J Q 2 � � �, U o� � OO J Z � � o W J U � Z � � � O # Date Issue I Description Init. Project No: GNK000010 Drawn By: DBC Checked By: JEP Date: 08.16.2023 EROSION CONTROL PLAN � cnnnP� 1 Yz" x 1 Yz" WOODEN FENCE POSTS 24" MIN 42�� MIN 18" MIN � SILT FENCE FABRIC (ASTM D6461) ANCHORED IN TRENCH AND ATTACHED TO POST. COMPACTED BACKFILL � 4" MIN. �-^- FLOW + 4" MIN. "x4" TRENCH �,�„��i�A�� 1 D6461) ANCHORED IN -0 POST. POSTS SHALL OVERLAP AT JOINTS SO THAT NO GAPSEXIST '"' "" ' ��"'^� W,NaTEs INSTALLATION: WHEN INSTALLING RUNNING LENGTHS OF WATTLES, BUTT THE SECOND WATTLE TIGHTLY AGAINST THE RRST, DO NOT OVERLAP THE EN�S. STAKE THE WATTLES AT EACH EN� AND ��\ O�, FOUR FOOT ON CENTER. FOR EXAMPLE \\ A 25 FOOT WATTLE USES 6 STAKES 11TT ` A 20 FOOT WATTLE USES 5 STAKES �� A 12 FOOT WATTLE USES 4 STAKES � STAKES SHOULD BE DRIVEN THROUGH T}iE MIDDLE OF THE WATiLE LEAVING 2- 3 MCHES � OF THE STAKE PROTRUDING ABOVE THE WATTLE. A HEAVY SEDIMENT LOAD WILL TEND TO PICK THE WATTLE UP AND COULD PULL IT OFF THE STAKES IF THEY ARE DRIVEN DOWN T00 LOW. IT MAY BE NECESSARY TO MAKE A HDLE W THE WATTLE WITH A PICK END OF YOUR MA��OX IN OR�ER TO GET iHE STAKE THROUGH THE STRAW. WHEN SiF2AW WATTLES ARE USED FOR FLAT GROUND APPLICATIONS, DRIVE THE STAKES STRAIGHT DOWN; WHEN MSTALLING WATTLES ON SLOPES, DRIVE THE STAKES PERPENDICULAR TO THE SLOPE. DRIVE THE FlRST END STAKE OF THE SECOND WATTLE AT AN ANGLE TOWAR� THE RRST WATTLE IN ORDER TO HELP ABUT THEM TIGHTLY TOGETHER. IF YOU HAVE DIFFICULTY DRIVING THE STAKE INTO EXTREMELY HARD OR ROCKY SLOPES, A PILOT BAR MAY BE NEE�ED TO BEGIN THE STAKE HOLE. PERVIOUS INSTALLAIION � 3 4 ADJACENT ROLLS SHALL TIGHTLY ABUT � � �� . 1 E SECOND � POST SHALL BE JOINED AS SHOWN, THEN ROTATED 180° IN DIRECTION SHOWN AND DRNEN INTO THE GROUND. 1"x 1" WOOD STAKES 18"-24" � / � 'UI� �� / `�\ � �� 'Af� r � �� . �� ,�� w� � wz wsTn��aTioN NorEs: WATTLES - DETAIL A W� . . 1. THE LOCATION AND LENGTH OF WATTLE IS DEPENDENT ON THE CONDITIONS OF EACH SITE. 2. WATTLES SHALL BE MSTALLED PRIOR TO ANY LAND-DISTURBING ACTI4ITIES. 3. WATTLES SHALL CONSIST OF STRAW, COMPOST, EXCELSIOR, OR WC�NUT RBER. 4. NOT FOR USE IN CONCENiF2ATED FLOW AREAS. 5. THE WATiLES SHALL BE TRENCHE� INTO THE GROUND A MINIMUM OF TWO (2)INCHES. 6. WATTLES SHALL BE INSTALLED PER MANUFACTURERS SPECIFICATIONS. 7. ON SLOPES, WATTLES SHOULD BE INSTALLED ON CONTOUR WITH A SLIGHT DOWNWARD ANGLE AT THE END OF THE ROW IN ORDER TO PREVENT PONDING AT THE MID SECTION. 8. RUNNWG LENGTHS OF WATTLES SHOULD BE ABl1TTE� RRMLY TO ENSURE NO LEAKAGE AT THE ABUTMENTS. 9. SPACING - DOWNSLOPE: 10. VERTICAL SPACING FOR SLOPE INSTALLATIONS SHOULD BE DETERMWED BY SITE CONDITIONS. SLOPE GRADIENT AND SOIL TYPE ARE THE MAIN FACTORS. A GOOD RULE OF 1HUMB IS: 1:1 SLOPES = 10 FEET APART 21 SLOPES = 20 FEET APART 3:1 SLOPES = 30 FEET APART 4:1 SLOPES = 40 FEET APART, ETC. 11. HOWEVER, ADJUSTMENTS MAY HAVE TO BE MADE FOR THE SOIL TYPE FOR SOFT, LOAMY SOILS - ADJUST THE ROWS CLOSER TOGETHER; FOR HAR�, ROCKY SOILS - A�JUST THE ROWS FURTHER APART. A SECONDARY WATTLE PLACED BEHIND THE ABUTMENT OF TWO WATTLES IS ENCOURAGED ON STEEP SLOPES OR WHERE JOINTS HAVE FAILED IN THE PAST. 12. STAKING: THE CITY RECOMMENDS USING WOOD STAKES TO SECURE THE WATTLES. 1/2" TO 5/8" REBAR IS ALSO ACCEPTABLE. BE SURE TO USE A STAKE THATIS LONG ENOUGH TO PROTRUDE SEVERAL INCHES ABOVE THE WATTLE: 18" IS A GOOD LENGTH FOR HAR�, ROCKY SOIL FOR SOFT LOAMY SOIL USE A 24" STAKE. W3 NOTE: IF THE AREA BEHIN� THE MLET IS NOT STABILIZED, A BMP SHOULD BE USED TO PREVENT SEDIMENT FROM ENTERING THE INLET ENDS SHALL ABUT TIGHTLY SIDEWALK TO BACK OF CURB AND F(LLO j� � CURB FOR 1 FOOT MIN. N 0 TE: THICKNESS OF GEOTEXTILE HAS BEEN EXAGGERATED. INSTALLATION NOTES: 1. DRIVE POSTS VERTICALLY INTO THE GROUND TO A MINIMUM DEPTH OF 18". 2 EXCAVATE A TRENCH APPROXIMATELY 4" WIDE AND 4° DEEP ALONG THE LINE OF POSTS AND UPSLOPE FROM THE BARRIER. 3. ANCHOR TRENCH SHALL BE EXCAVATED BY HAND, WITH TRENCHER, OR WITH SILT FENCE INSTALLATION MACHWE NO ROAD GRADERS, BACKHOES, ETC. SHALL BE USED. 4. NOT LESS THAN THE BOTTOM 1' OF THE SILT FENCE FABRIC SHALL BE BURIED IN THE TRENCH. 5. THE TRENCH SHALL BE COMPACTED BY HAND, WITH "JUMPING JACK" OR BY WHEEL ROLLING. COMPACTION SHALL BE SUCH THAT THE SILT FENCE RESISTS BEING PULLED OUT OF ANCHOR TRENCH BY HAND. 6_ SILT FENCE INDICATED IN THE PLANS SHALL BE INSTALLED PRIOR TO ANY LAND-DISTURBING ACTNITIES. 7. USE WOOD POSTS OR OTHER MATERIAL AS ACCEPTED BY THE CITY. MAINTENANCE NOTES: 1. THE CONTRACTOR SHALL INSPECT SILT FENCE EVERY TWO WEEKS AND AFTER SIGNIFICANT STORM EVENTS AND MAKE REPAIRS OR CLEAN OUT UPSTREAM SEDIMENT AS NECESSARY. 2. SEDIMENT ACCUMULATED UPSTREAM OF SILT FENCE SHALL BE REMOVED WHEN THE UPSTREAM SEDIMENT REACHES A DEPTH OF 6". 3. SILT FENCE SHALL BE REMOVED WHEN THE UPSTREAM DISTURBED AREA IS STABILIZED AND GRASS COVER IS ACCEPTED BY THE CITY. IF ANY DISTURBED AREA EXISTS AFTER REMOVAL, IT SHALL BE SEEDED AND MULCHED OR OTHERWISE STABILIZED IN A MANNER ACCEPTED BY THE CITY. S F �SF=SF�SF� SILT FENCE ��OW LIP OF GUTTER J � IMPERVIOUS INSTALLATION EXISTING OR ENDS SHALL ABUT TIGHTLY PROPOSED INLET TO BACK OF CURB AND FOLLOW CURB FOR 1 FOOT (MIN.) TOP BACK CURB FLOW LME �LOW � � SEDIMENT DEPOSITION ZONE � END SHALL TIGHTLY ABUT TO BACK OF CURB SIDEWALK TUBULAR END SHALL ABUT TIGHTLY MARKER TO BACK OF CURB AND FOLLOW CURB FOR 1 FOOT (MIN.) EXISTING OR PROPOSED WLET TOP BACK CURB FLOW LINE FLn�n� � 4' MAX. � LIP OF GUTTER \ � STORM WATER LINE WEIGHTED WATTLE SEDIMENT OR ROCK SOCK DEPOSITION AT 45 DEG. TO CURB ZONE W4 NOTES: 1. NUMBER OF WATTLES AND SPACING SHOULD BE DETERMMED BY THE SLOPE AND SITE CONDITIONS. � � � / STORM WATER LINE p. TUBULAR MARKERS SHALL MEET THE REQUIREMENTS OF MANUAL ON UNIFORM TRAFRC CONTROL DEVICES (MUTCD) SEDIMENT SEDIMENT 3. CITY RECOMMENDS INSTALLING AT LEAST 3 CHECKDAMS WHEN USING THIS SETUP. DEPOSITION ZONE DEPOSITION ZONE � WEIGHTED WATTLE oR RocK socK � CURBSIDE CHECKDAMS SETUP W4 CURB INLET WATTLE PROTECTION SETUP W3 WATTLE MAINTENANCE NOTES: 1. THE CONTRACTOR SHALL INSPECT WATTLES EVERY TWO WEEKS AND AFTER ANY SIGNIRCANT STORM EVENT AND MAKE REPAIRS OR REMOVE SEDIMENT ACCUMULATED BEHIND WATTLE AS NECESSARY. SEDIMENT ACCUMULATED BEHIND WATTLE SHALL BE REMOVED WHEN THE SEDIMENT HAS ACCUMULATED TO ONE HALF THE DIAMETER OF THE WATTLE. 2. WATTLES SHALL REMAIN IN PLACE UNTIL THE UPSTREAM DISTURBED AREA IS STABILIZED AND IS ACCEPTED BY THE CITY. 3. WATTLE INSTALLATION STAKES SHOULD BE DRIVEN THROUGH THE MIDDLE OF THE WATTLE. LEAVING 2- 3 INCHES OF THE STAKE PROTRUDING ABOVE THE WATTLE. A HEAVY SEDIMENT LOAD WILL TEND TO PICK THE WATTLE UP AND COULD PULL IT OFF THE STAKES IF THEY ARE DRNEN DOWN T00 LOW. IT MAY BE NECESSARY TO MAKE A HOLE IN THE WATTLE WITH A PICK END OF YOUR MADDOX IN ORDER TO GET THE STAKE THROUGH THE STRAW. WHEN STRAW WATTLES ARE USED FOR FLAT GROUND APPLICATIONS, DRIVE THE STAKES STRAIGHT DOWN; WHEN INSTALLING WATTLES ON SLOPES, DRIVE THE STAKES PERPENDICULAR TO THE SLOPE. OR STAKES SHOULD BE DRNEN ACROSS FROM EACH OTHER AND ON EACH SIDE OF THE WATTLE. LEAVING 4"-6" OF STAKE PROTRUDING ABOVE THE WATTLE. BAILING WIRE OR NYLON ROPE SHOULD BE TIED TO THE STAKES ACROSS THE WATTLE. STAKES SHOULD THEN BE DRIVEN UNTIL THE BAILING WIRE OR NYLON ROPE IS SUFFICIENTLY SNUG TO THE WATTLE. , FL�W A A 'I '\ �POINT B \ � poINT A �, �. � �. .� PLAN VIEW � ` POINT A WATTLE (10" MIN. DIA.) ENTRENCh NT A POINTS A MUST BE HIGHER THAN POINT B SECTION A-A WATT�E DIKE DITCH INSTALLATION W� . � . OR MAINTENANCE NOTES: 1. THE CONTRACTOR SHALL INSPECT DIKES EVERY TWO WEEKS AND AFTER SIGMFICANT STORM EVENTS AND MAKE REPAIRS OR CLEAN OUT UPSTREAM SEDIMENT AS NECESSARY. 2. SEDIMENT ACCUMULATED UPSTREAM OF DIKES SHALL BE REMOVED WHEN THE UPSTREAM SEDIMENT REACHES 1/2 OF THE DESIGN DEPTH. 3. DIKES ARE TO REMAIN IN PLACE UNTIL THE UPSTREAM DISTURBED AREA IS STABILIZED AND GRASS COVER IS ACCEPTED BY THE CITY. 4. WHEN REINFORCED ROCK BERMS ARE REMOVED, ANY DISTURBED AREA SHALL BE SEEDED, CRIMPED AND MULCHED OR OTHERWISE STABILIZED IN A MANNER ACCEPTED BY THE CITY. SI�T FENCE JOINTS SWALE WATTLE DIKE DROP INLET PROTECTION ii a;;owa 5265 Ronald Reagan Blvtl., Suite 210 Johnstown, CO 80534 970.800.3300 GallowayUS.com y P� `� � O� �� G Q� �O ` �� O� G COPYRIGHT THESE PLANS ARE AN INSTRUMENT OF SERVICE AND ARE THE PROPERTY OF GALLOWAY, AND MAY NOT BE DUPLICATED, DISCLOSED, OR REPRODUCED WITHOUT THE WRITTEN CONSENT OF GALLOWAY. COPYRIGHTS AND INFRINGEMENTS WILL BE ENFORCED AND PROSECUTED. C� Z � � 2 � � � � Z J Q � � 2 ` � � O J O � � � V � � z � L.L # Date Issue I Description O v J z � O U I�I� O Init. Project No: GNK000010 Drawn By: DBC Checked By: JEP Date: 08.16.2023 EROSION CONTROL DETAILS FLOW WEIGHTED WATTLE OR ROCK SOCK J L� SIDEWALK SIDEWALK CULVERT/CHASE/PAN END SHALL TIGHTLY ABUT TO BACK OF CURB TOP BACK CURB � FLOW LINE � FLOW LIP OF GUTTER � CONCRETE CHASE/TRICKLE CHANNEL SETUP W5 W2 NOTES: � 4"-6" ABOVE WATTLE AFTER BAILING WIRE OR NYLON ROPE IS ATTACHED. STAKES INSTALLATION: NEED TO BE TAMPED UNTIL WIRE/ROPE IS STAKES SHOULD BE DRIVEN ACROSS FROM EACH O1HER AND ON EACH � SNU G WITH WATTLE. SIDE OF iHE WATTLE. LEAVING 4"-6" OF STAKE PROTRUDING ABOVE THE WATTLE BAILING WIRE OR NYLON ROPE SHOULD BE TIED TO THE STAKES ACROSS THE WATTLE STAKES SHOULD THEN BE DRIVEN UNTIL THE BAILING WIRE OR NYLON ROPE IS SUFFICIENTLY SNUG TO THE WATTLE. WHEN INSTALLING RUNNING LENGTHS OF WATTLES, TO PREVENT SHIFTING, BUTT THE SECOND WATTLE TIGHTLY AGAINST THE FIRST. DO NOT � OVERLAP THE ENDS. STAKES SHOULD BE DRNEN 1 FL FROM EN�, ACROSS FROM AND ON EACH SIDE OF WATTLE LEAVING 4"-6" OF STAKE PROTRUDING ABOVE THE WATTLE BAILING WIRE OR NYLON ROPE li I SHOULD BE TIED TO STAKES IN AN HOUR GLASS FORMATION (FRONT TO �d BACK OF WATTLE °A", ACROSS TO FRONT Of WATTLE "B", ACROSS TO � 1"a 1" WOOD STAKES BACK AND BACK TO FRONT OF WATTLE "A°). STAKES SHOULD THEN BE �8"_24° DRIVEN IN UNT1L BAILING WIRE OR NYLON ROPE IS SUFFICIENTLY SNUG � � TO THE WATTLE. � W2 NOTE: � ONLY WATTLES MADE WITH COCONUT FIBERS SHALL BE USED WHEN INSTALLAiION COMES IN CONTACT WITH A WATER BODY. BAILING WIRE OR NYLON ROPE W3 W4 & W5 NOTES: 1. WHEN USING STRAW WATTLE, THE STRAW WATTLE MUST HAVE A WEIGHTED CDRE. 2 ALL PRODUCTS SHALL BE INSTALLED PER iHE MANUFACTURER'S SPECIRCATIONS. 3. OTHER PRODUCTS MAY BE USED IN PLACE OF WEIGHTED WATTLES UPON WRITTEN APPROVAL FROM THE CITY. NOTE: A COPY OF DETAILS AND SPECIFICATIONS WILL NEED TO BE INCORPORATED INTO THE SWMP. 2•, x 4„ WOOD FRAME I� w000 FRnME NRAP WOOD FRAME WITH GEOTEXTILE AND STAPLE TO FRAME GAhIER ExcEss nT coRNERs. DROP INLET `MTH GRATE A � 2 � Tl'P. r� ��., � � euRv cEo�xn�E nr J • I A DEPhi OF 6" X 6" , I ll / n� DROP INLET SILT FENCE BOX �CIN�ER BLOCKS ' PLACED AROUND DROP INLET PERIMEiER WIRE ENCLOSED 1 1/2" CRUSHED ROCK PLAN VIEW A r r � ENDS OF ADJACENT WATTLES SHALL BE TIGHTLY ABUTTED TO PREVENT SEDIMENT BYPASS WATTLES - DETAIL B W2 � ncHnr neurnNc wini No cnas (rvP.) /// � //�' .// LL� �� / WATTLE (10' 14L OIAIEIFR) / // _- / . / � //� / // // / // ;/�. 4� ��l wiRE ENc�osEo PLAN VIEW 1 1/2" CRUSHED ROCK (2) CINDER BLOCKS STACKE� 24" HIGH WATTLE RUNOFF - r i� OVEftFLOW RUNOFF � RUNOFF I- � ENTRENCH 3" �� • FlLTERED �R INLET _� RUNOFF ,�. NorE: 'j DROP � � ENTRENGH WATTLE 3" INTO ,.; '• � +;:+' INLET NATURAL GROUND AT THE � �,t OUTSIDE E�GE OF CONCRETE APRON SECTION A-A No�: INSTALLATION OF WATTLE STAKES MAV VARY DROP INLET DROP INLET BLOCK WATTLE FILTER AND GRAVEL FILTER �ENERA� No�S I P S � 1. INLET PROTEC�ON AT AREA INLETS SHALL BE INSTALLED WITHIN 48 HOURS OF POURING INLET. 2. CRUSHED ROCK SHALL BE FRACTURED FACE (ALL SI�ES) AND SHALL COMPLV WITH A 1-1/2" MINUS GRAOATION. RECVCLED CONCRETE MEETING THIS GRADAPON MAY 9E USEO. 3. WIRE MESH SHALL BE FABRICATED OF 10 GAUGE WIRE TWISTED INTO A MESH WITH A MA%IMUM OPENING OF 1" (COMMONLV TERMED "CHICKEN WIRE"). ROLL WIDTH SHALL BE 48�. 4. IT IS RECOMMENDED Th'AT FILTER FABRIC, SUCH AS GRATE MATES OR EQUIVALENT, OR OTHER TEMPORARY BMP BE PLACED 6ENEATH hIE INLET GRAiE AN� MAINTAINED UNTIL THE SURROUN�ING AREA DRAINING TO THE INLET IS SUFFlCIENTLY STABILIZED. 5. OTHER AREA INLET PROTECTION METHODS WILL BE ALLOWED IF ACCEPTE� BY THE CITY. MAINiENANCE NOTES: 1. THE CONIF2ACTOR SHALL INSPECT INLET PROTEC�ON EVERY TWO WEEKS AND AFTER SIGNIFlCANT STORM EVENTS AND MAKE REPAIRS OR CLEAN OUT AS NECESSARY. 2. SEDIMENT ACCUMULATED UPSTREAM OF INLET PROTECTION SHALL BE REMOVEO WHEN THE SEDIMENT DEPTH REACHES 1/2 OF THE DESIGN DEPTH. 3. TO PREVENT CLOGGING,INLET GRATE FlLTER FABRIC SHOULD BE CLEANED OR REPLACED PERIODICALLY. 4. INLET PROTEGTION IS TO REMAIN IN PLAGE UNPL THE UPSTREAM DISTURBED AREA IS STABILIZED AN� GRA55 COVER IS ACCEPTED. 5. WHEN INLET PROTECTION AT AREA INLETS ARE REMOVED, THE DISTURBE� AREA SHALL BE SEE�ED AN� MULCHED OR OTHERWISE STABILIZE� IN A MANNER ACCEPTED BY THE CITY. DROP INLET IF AREA ADJACENT TO CURB WLET BOX IS NOT STABILIZED, INSTALL A TEMPORARY SEDIMENT/EROSION CONTROL BMP UNTIL THE SURROUNDING AREA IS SUFFICIENTLY STABILIZED. cuRe w�ET I_1 MANHOLE 2"x 4" WOOD STUD EXTENDED INTO CONCRETE BLOCKS BMP WIDTH VARIES ROCH TI G \ \' ROCK BERM SHALL BE PLACED TIGHTLY AGAINST CURB FACE. EXTEND WIRE ENCLOSED ROCK 1' (MIN.) ALONG CURB FACE. CURB AND GUTTER � N � ` ROCK BERM SHALL BE PLACED TIGHTLY AGAWST CURB FACE. EXTEND WIRE ENCLOSED � ROCK 1' (MIN.) ALONG CURB FACE TUBULAR MARKER �— CONCRETE PLAN VIEW e�ocKs �TUBULAR MARKER OVERFLOW � � 2"x4" WOOD STUD � FILTERED RUNOFF CURB WLET SECTION A—A CURB INLET BLOCK AND GRAVE� FI�TER (INLET IN SUMP) GRAVEL FILTER SHALL BE 1/2" TO 1" BELOW TOP OF CURB WIRE ENCLOSED GRAVEL FILTER BMP WIDTH VARIES GENERAL NOTES: 1. INTERIM CONFIGURATION WLET PROTECTION IN STREETS SHALL BE INSTALLED WITHIN 48 HOURS OF POURING INLET. INLET PROTECTION (AFTER PAVING) SHALL BE INSTALLED WI7HIN 48 HOURS AFTER PAVING IS PLACED. 2. WASHED ROCK SHALL COMPLY WITH A 1-1/2" MINUS GRADATION. 3. WIRE MESH SHALL BE FABRICATED OF 10 GAUGE WIRE TWISTED INTO A MESH WITH A MAXIMUM OPENING OF 1�� (COMMONLY TERMED °CHICKEN WIRE��). ROLL WIDTH SHALL BE 48°. 4. TUBULAR MARKERS SHALL MEET REQUIREMENTS OF MANUAL ON UNIFORM TRAFFIC CONTROL DEVICES (MUTCD). 5. OTHER CURB INLET PROTECTION METHODS WILL BE ALLOWED IF ACCEPTED BY THE CITY. MAINTENANCE NOTES: 1. THE CONTRACTOR SHALLINSPECT INLET PROTECTION EVERY TWO WEEKS AND AFTER SIGNIFICANT STORM EVENTS AND MAKE REPAIRS OR CLEAN OUT AS NECESSARY. 2. SEDIMENT ACCUMULATED UPSTREAM OF INLET PROTECTION SHALL BE REMOVED WHEN THE SEDIMENT DEPTH UPSTREAM OF ROCK BERM IS 2 1/2" OF THE CREST. 3. INLET PROTECTION IS TO REMAIN IN PLACE UNTIL THE UPSTREAM DISTURBED AREA IS STABILIZED AND GRASS COVER IS ACCEPTED. UNLESS THE CITY ACCEPTS EARLIER REMOVAL OF INLET PROTECTION IN STREETS. I PS � BMP WIDTH VARIES WIDTH VARIES 1 B AND GUTTERI WIRE ENCLOSED 1 1/2" WASHED ROCK CURB INLET PROTECTION SM-3 CF — CF — CF Construction Fence (CF) PLASTIC CAP, TYP. STUDDED STEEL TEE POST ORANGE RESINET CONSTRUCTION FENCE EXISTING OR APPROVED EfjUAL GRADE CF STU�DED STEEL TEE POST STRAW WATTLE (SEE DETAIL 2 ON DT09 FOR DETAIL) CF-1. PLASTIC MESH C�NSTRUCTION FENCE CONSrRUCT10N FENCE IN5TALLATI�N NOTES 1, SEE PLAN VIEW FOR: —LOCATI�N OF CONSTRUCTION FENCE. 2. CONSTRUCTIflN FENCE SMOWN SHALL 8E INSTALLED PRIOR TO ANY LAND DISTURBING acriviriEs 3. CONSTRUCFION FENCE SHRLL BE COMPOSED OF ORANGE, CONTRACTOR—GRAOE MATERIAL THAT �S AT LEAST 4' HIGH. METAL POSTS SHOULO HAVE A PLASTIC CAP FOR SAFETY. 4. STUD�ED STEEL TEE POSTS SHALL BE UTILIZE� TO SUPPORT THE CONSTRUCTION FENCE. MAXIMUM SPACING FOR STEEL TEE POSTS SHALL BE 10'. 5, CONSTRUCTION FENCE SHALL BE 5ECURELY FASTENED Ta THE TflP, MIDDLE, AND BOTTOM �F EACH POST. INSTALLATION NOTES: 1. VEHICLE TRACKING CONTROL PAD SHALL BE LOCATED AT EVERY ACCESS POINT TO THE CONSTRUCTION SITE. 2. A SIGN SHALL BE PLACED NEXT TO THE VEHICLE TRACKING CONTROL PAD TO DESIGNATE THE LOCATION AS THE CONSTRUCTION ENTRANCE/EXIT. 3. VEHICLE TRACKING CONTROL PADS SHALL CONSIST OF HARD, DENSE, DURABLE STONE, ANGULAR IN SHAPE AND RESISTANT TO WEATHERING. ROUNDED STONE (i.e. RIVER ROCK AND COBBLES� SHALL NOT BE USED. THE STONES SHALL BE A MINIMUM OF 3" AND A MAXIMUM OF 6" DIAMETER. THE STONES SHALL HAVE A SPECIFIC GRAVITY OF AT LEAST 26. CONTROL OF GRADATION WILL BE BY VISUAL INSPECTION. 4. ANY CRACKED OR DAMAGED CURB AND GUTTER AND SIDEWALK SHALL BE REPLACED BY CONTRACTOR. 5. ALTHOUGH NOT NORMALLY USED, THE CITY RESERVES THE RIGHT TO REQUIRE VEHICLE TRACKING CONTROL WITH A TEMPORARY CATTLE GUARD AND/OR WHEEL WASH FACILITIES AT SITES WHERE TRACKING ONTO PAVED AREAS BECOMES A SIGMFICANT PROBLEM AS DETERMINED BY THE CITY INSPECTOR. 6. IF VEHICLE TRACKING CONTROL WITH WHEEL WASH FACILITIES ARE REQUIRED, ALL WHEELS ON EVERY VEHICLE LEAVING THE SITE SHALL BE CLEANE� OF MUD USING A PRESSURE—WASHER. THE CONTRACTOR SHALL BE RESPONSIBLE FOR OBTAINING A WATER SOURCE AND CONSTRUCTING A WASHWATER SEDIMENT TRAP. MAINTENANCE NOTES: 1. CONTRACTOR SHALL INSPECT VEHICLE TRACKING CONTROL PAD DAILY. ROCK SURFACE SHALL BE CLEAN AND LOOSE ENOUGH TO RUT SLIGHTLY UNDER WHEEL LOADS AND CAUSE LOOSE ROCK TO DISLODGE MUD FROM TIRES. WHEN ROCK BECOMES COMPACTED OR FILLED WITH SEDIMENT SO THAT THE EFFECTIVENESS OF THE PAD IS DIMINISHED, CONTRACTOR SHALL RIP, TURN OVER, OR OTHERWISE LOOSEN ROCK, PLACE ADDITIONAL NEW ROCK, OR REPLACE WITH NEW ROCK AS NECESSARY TO RESTORE EFFECTIVENESS. 2 SEDIMENT AND OTHER MATERIAL SPILLED, DROPPED OR TRACKED ONTO PAVED SURFACES SHALL BE REMOVED IMMEDIATELY OR BY THE END OF EACH WORKING DAY. 3. VEHICLE TRACKING CONTROL PAD SHALL BE REMOVED AT THE END OF CONSTRUCTION. THE AREA SHOULD BE TOPSOILED, SEEDED, CRIMPED, AND MULCHED OR OTHERWISE STABILIZED. 4. IF VEHICLE WHEEL WASH FACILITIES ARE REQUIRED, CONTRACTOR SHALL INSPECT VEHICLE TRACKING CONTROL AND WHEEL WASH FACILITIES DAILY. ACCUMULATED SEDIMENTS SHALL BE REMOVED FROM THE PAD SURFACE. 5. ACCUMULATED SEDIMENT IN THE WASHWATER/SEDIMENT TRAP SHALL BE REMOVED WHEN THE SEDIMENT REACHES AN AVERAGE DEPTH OF 12—INCHES. i� 50' MIN. —� 2" MIN. � 6" MIN. NO MATERIALS INCLUDING 2x4'S, PIPES, DIRT, GRAVEL OR ASPHALT, SHALL BE PLACED IN GUTTER TO FACILITATE MOUNTING CURB; HOWEVER, CURB MAY BE CUT DOWN TO A HEIGHT OF 2" OR HIGHER FOR EASIER ACCESS AND REPLACED AT PROJECT COMPLETION. OTHER ACCESS DEVICES MAY BE USED AS ACCEPTED BY THE CITY. FL�� 6" MIN. 3" — 6" ROCK SECTION A 20' MIN. 1 �� '. VEHICLE CONTROL TRACKING PAD [Q� DANDY BAG° ID� VElCRO ClOSURE I� IIFT STRAPS Used for easy movement and inspection of the unit DABAG I . • : .111 . � . ' -, . . . , \ . DAN DY BAG CF-2 Urban Drainage and Flood Control District Urban Storm Drainage Criteria Manual Volume 3 CONSTRUCTION FENCE November 2010 VElCRO ClOSURE SEWER G RATE J. , . . � ' .- ' . . � . . . _� ii a;;owa 5265 Ronald Reagan Blvtl., Suite 210 Johnstown, CO 80534 970.800.3300 GallowayUS.com y P� `� � O� �� G Q� �O � �� O� G COPYRIGHT THESE PLANS ARE AN INSTRUMENT OF SERVICE AND ARE THE PROPERTY OF GALLOWAY, AND MAY NOT BE DUPLICATED, DISCLOSED, OR REPRODUCED WITHOUT THE WRITTEN CONSENT OF GALLOWAY. COPYRIGHTS AND INFRINGEMENTS WILL BE ENFORCED AND PROSECUTED. C� Z � � _ � � � 1 Z J Q _� o �, U � � � OO J Z � � o W J U � z � � � O # Date Issue I Description Init. Project No: GNK000010 Drawn By: DBC Checked By: JEP Date: 08.16.2023 EROSION CONTROL DETAILS �TUBULAR MARKER 4" MIN 5" MAX a�//�//�/� ��i\� � ` / //�-,c � \��i\\i\�i\ .T: � �1 I SETTLED RUNOFF CURB WLET SECTION B—B CURB IN�ET GRAVE� FI�TER (CONTINUOUS GRADE) MARKER PLAN VIEW MARKER Erosion and Sediment Control Escrow/Security Calculation Project: Ridgewood Hills Fifth Filing Disturbed Acres: 30.58 � EROSION CONTROL BMPs Silt Fence Straw Wattles (9" x 10') Straw Wattles (9" x 25') Curb Inlet Protection Rock Sock Concrete Washout Vehicle Tracking Control (VTC)� � BMP Amount Estimated Units Quantity L. F. 7200 each 20 each 600 each 47 each 85 each 7 each 7 Unit Price $1.85 $20.00 $35.00 $75.00 $25.00 $200.00 $700.00 Sub-Total 1.5 x Sub-Total Amount of security, (add all other BMPs for the site in this list) Note 1: (7) - seven VTCs included here because it the project will be phased with not all areas of the project under construction Re-seeding Amount Unit Price of Seeding per acre: $1,350.00 Total Acres x Price/acre: Sub-Total: 1.5 x Sub-Total: Amount to Re-seed: Miniumum Escrow Amount Minimum escrow amount: Final Escrow Amount Erosion Control Escrow User Input Fields in BLUE should be amended for this project. � Total Price $13,320.00 $400.00 $21,000.00 $3,525.00 $2,125.00 $1,400.00 $4,900.00 $46,670.00 $70,005.00 $70,005.00 $41,283.00 $41,283.00 $61,924.50 $61, 924.50 $3,000.00 $70, 005, 00 "The amount of the security must be based on one and one-half times the estimate of the cost to install the approved measures, or one and one-half times the cost to re-vegetate the disturbed land to dry land grasses based upon unit cost determined by the City's Annual Revegetation and Stabilization Bid, whichever is greafer. In no instance, will the amount of securify be less than one thousand five hundred dollars ($1,500) for residential development or three thousand dollars ($3,000) for commercial development" Appendix C — Training Documentation Galloway & Company, Inc. Page 33 of 35 Appendix D — Inspection Report State Inspection Report Template Galloway & Company, Inc. Page 34 of 35 Appendix D: Stormwater Inspection Report Template Facility Name Permittee Date of Inspection Weather Conditions Permit Certification # Disturbed Acreage Phase of Construction Inspector Title Inspector Name Is the above inspector a qualified stormwater manager? YES NO (permittee is responsible for ensuring that the inspector is a qualified stormwater manager) INSPECTION FREQUENCY Check the box that describes the minimum inspection frequency utilized when conducting each inspection At least one inspection every 7 calendar days 0 At least one inspection every 14 calendar days, with post-storm event inspections conducted within O 24 hours after the end of any precipitation or snowmelt event that causes surface erosions • This is this a post-storm event inspection. Event Date: � Reduced inspection frequency - Include site conditions that warrant reduced inspection frequency � • Post-storm inspections at temporarily idle sites � • Inspections at completed sites/area � • Winter conditions exclusion 0 Have there been any deviations from the minimum inspection schedule? YES NO If yes, describe below. � � INSPECTION REQUIREMENTS* i. Visually verify all implemented control measures are in effective operational condition and are workin� as designed in the specifications ii. Determine if there are new potential sources of pollutants iii. Assess the adequacy of control measures at the site to identify areas requiring new or modified control measures to minimize pollutant dischar�es iv. Identify all areas of non-compliance with the permit requirements, and if necessary, implement corrective action *Use the attached Control Measures Requiring Routine Maintenance and Inadequate Control Measures Requiring Corrective Action forms to document results of this assessment that trigger either maintenance or corrective actions AREAS TO BE INSPECTED Is there evidence of, or the potential for, pollutants leaving the construction site boundaries, entering the stormwater drainage system or dischargin� to state waters at the followin� locations? If "YES" describe discharge or potential for discharge below. NO YES Document related maintenance, inadequate control measures and corrective actions Inadequate Control Measures Requiring Corrective Action form Construction site perimeter � 0 All disturbed areas � 0 Designated haulroutes � 0 Material and waste storage areas a ❑ exposed to precipitation Locations where stormwater has the a O potential to discharge offsite Locations where vehicles exit the site � � Other: ❑ � COLORADO 31 � e � ��a.,.�,,,�„�a:�.�e„� Heallh b Envuonment � c > � o. 0 � N U C � C v � � }' .� •� N N n v � '� L Q � � O � U 7 � � � m � _ � *� L L � � Q � a, .� � � � 0 4= � � c � n E � a, � N � � a..l � � � � L � � � i .� � � � a c v ra C � � O •N +� � U � � � � }+ , � '^ +.+ +�-+ N L w �3 0 U v � Z � � Q ro � � o 0 u ,.., ? � N � �� on ,�n W � '-' Z o C � L � � � � O � O�/ � N Lf �� rr� N ^ v N ' � � a1 � — L L _ � � v L' N W N � � � N w�°' � o � � � o Q �+ o � W � ��, u c J a � � .o 0 � �s Z .� � � � � U � � O � � � � NC C � U O � N W � � N O W � �� N U C � c � �-+ C .� � � � .� Q N L N Qi i � N � Qi � 0 � � c O U N i � � � a� L Q v v � � oa E O U � � L .� Q � W u C ro C G! � C .� � � L 7 � ro � � O i � C O V � O � f0 u O J � � � r�6 � � � .0 O o � v c � � ^ N � � L i..+ � � t � v +� i. v .� L y O 7 .� � � � � — N � . � � N v O L C �• O 0 Q1 U � �+ � N C +.+ � � � U � � h � a c° � L � � o � ro� � �� y 4; N N v Q � � � � °- o o .E � � � � a� �� v o E c � � L QJ � L i �rt t +� �., � � � �3vu Z � � ,v � � u O�u,;� � '� E v i � Q O O � � w�� .�°� � H � � '� V a; � � LLI C 7 � � � U � � .� O�'�-°� V °- � v � � •� ~ � N L • � N Z�/ � p�fl �+ n I.L _O �N QJ tn _ �� C �•N ^ � O LI� v �.:+ � "�L �-p w°c3'�o � ^ V � O! V� (O f6 � a-+ Q � � N � W Y Lp � N c v U n c � U 0 � J � � � � � C > � � � U Z o �sw 0 � v � � C d i p lJ O O '� +�+ W"oav 1— c }' �' � � a � o v doa�i�� W*'�`�°o � � �' c + Q 4= a•� c v Z o � O o a--� c v 7 U O � � O � � .II W O W � � � O � r.. C O a--+ u � v > +� U Q� L � 0 u on � �L .� � QJ i N N L � N � N � � L � C O U v +� � � � 4J � � c v � N t +� v L a a--� c N � U O � � O 4- � ..Q � 0 � � N � � ,-+ � N U r� d � � 0 � N L � 3 � � � d-� � � � � N C N 4J L � N � �C C O L � C O U io c O �..+ � � rG � � O � v v Q L N a .� v v v � � � 0 L 0 U u v � C � � o L p � � j +'� ? N G`1 W N � � � °u � �`c u � � c � �a � o �' 'u N u, w � N��> � o � a 3 � z w c 0 � U a v % u � � 0 u v- 0 C O a .L u � a, 0 v � � � Q 41 � �6 � C � � � O O �, ao 'C U u N � 0 C 0 ro u O J � v °; v � � 0 0 u N c � � v .� u 3 � o � �. N O � � � v L � a..! 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Q � v � N +, � � � ��o � � � � � '� �"'a w � � a c E � '�p i � �V C •� � C W V 0 ,� z° � � Q � � � � Q � C 0 � � a:, +j � � E E � a a ° c a, v o � � � O O � � v � �� J J � � � a L L � aa � N in +.; � � E C Q � O � � � � a..l ^ •� v � � � a-.+ � 0J � � o� �� o ,� o � v o 0 � � � � o 0 -p � N � V � � � � � v�� ll X '� � � L � i � .O 3��.oa a �� °;� � N � � L � � � +-+ � � U "Q U +.� � v � � � d� i J �� 3 = o a � � L � �i ,� c a a �p •� C � � � v � ° c c v�i � a ro � �"�,� 0 0 o c v� > ._ > °n °" � o, � C C � � ` � � � � � � �vv>�� y N Vf � •� � v u � � � � c c ,E +� .,., c � ��°�v�, w�� u � � �� L U U ;� � N v .� .� � � � � l) LJ � 'i 'i � QJ Q,� Z O O O � � � z c a--+ C QJ � U � � } O � � � � O w � O � Z f�• � 0 +� � u � � 0 � i � 0 � � N � C .� W s_. v U C rt Q � U C O C � 0 a..+ C �! � .0 C c f6 c N � � N L � � � N � _ c v � � �L * � C O �0 �' G v � � � y � � � Z � 0 w 0 v � c � O � � � u � O ^ f 0 = ++ � N Z � 0 C O v Q � % � v d L 0 u w 0 c 0 � a `v N d Q O � C � � n a� �L Q u � � � � O � Z c 0 � v 0 J � O � a� � °i E +� u o � c After adequate corrective action(s) and maintenance have been taken, or where a report does not identify any incidents requiring corrective action or maintenance, the individual(s) designated as the Qualified Stormwater Manager, shall sign and certify the below statement: "I verify that, to the best of my knowledge and belief, all corrective action and maintenance items identified during the inspection are complete, and the site is currently in compliance with the permit." Name of Qualified Stormwater Manager Signature of Qualified Stormwater Manager Title of Qualified Stormwater Manager Date Notes/Comments Appendix E— Spill and Prevention Control Spill Prevention and Control Plan Site Spill Loq Galloway & Company, Inc. Page 35 of 35 Ga"owa ., y 5265 Ronaltl Reagan Blvd., Suite 210 Johnstown, CO 80534 970.800.3300 • GallowayUS.com SPILL PREVENTION AND CONTROL PLAN Whenever significant quantities of fuels, materials, vehicle fluids, or other pollutants are to be used on site, specific procedures for material containment and spill prevention shall be developed and implemented. Introduction The following Spill Prevention and Response Plan shall be implemented during the construction of improvements at Ridgewood Hills Fifth Filing, and associated thereto. This plan will be implemented to meet the requirements of the City of Fort Collins and the State of Colorado. Materials On-Site Spill control procedures will be implemented when materials are stockpiled or when chemicals and/or fluids are used in the construction area. Stockpiles of Dry Materials The following spill prevention procedures shall be implemented: All materials shall be stockpiled in designated areas, with control measures used to reduce and minimize the runoff of contaminants. Control measures such as silt fence and sediment control logs will be installed according to City of Fort Collins criteria using the details shown on the SWMP plans. Loading and unloading operations shall be performed in a manner to limit materials from being spilled. Any spilled materials shall be swept up immediately after the operations are performed. Vehicle Fueling The following spill prevention procedures shall be implemented: All vehicle fueling will be done off-site as much as possible. All on-site fueling operations will be performed in designated areas. Measures will be taken where necessary to reduce and minimize spills during vehicle fueling operations. These measures may include the placement of a temporary berm around the fueling area, covering the fueling area under a temporary portable structure, and/or the placement of drip pans under valves and tank openings. Berms will be constructed around all fueling areas. An adequate supply of absorbents will also be stockpiled at each fueling area. Routine Vehicle and Equipment Maintenance The following spill prevention procedures shall be implemented: All vehicle maintenance will be performed off-site when possible. However, there may be occasions where construction equipment and vehicles may break down at the site and on-site repairs are more feasible. On-site vehicle and equipment maintenance, if needed, will be performed in designated areas, where practical, and enclosed by earthen berms. All maintenance areas will maintain an adequate supply of drip pans. These pans will be placed underneath vehicles as needed and absorbents will be used in the event of a minor spill or leak. SPILL RESPONSE Galloway & Company, Inc. Page 1 of 5 NOTE: IN CASE OF FIRE, EVACUATE ALL PERSONNEL FROM THE IMMEDIATE AREA, RENDER FIRST AID TO ANYONE WHO IS INJURED, AND DIAL 911 IMMEDIATELY. TAKE APPROPRIATE STEPS TO PROTECT HUMAN LIFE AND TO CONTROL FIRES FIRST. SPILL CONTROL IS A SECONDARY CONCERN. Cleanup and Removal Procedures • Upon detection of any spill, the first action to be taken is to ensure personal safety. All possible ignition sources, including running engines, electrical equipment (including cellular telephones, etc.), or other hazards will be immediately turned off or removed from the area. The extent of the spill and the nature of the spilled material will be evaluated to determine if remedial actions could result in any health hazards, escalation of the spill, or further damage that would intensify the problem. If such conditions exist, a designated employee will oversee the area of the spill and the construction supervisor will be notified immediately. • The source of the spill will be identified and if possible the flow of pollutants stopped if it can be done safely. However, no employee will attend to the source or begin cleanup of the spill until ALL emergency priorities (fire, injuries, etc.) have been addressed. Small Spills Small spills (usually <5 gallons) consist of minor quantities of gasoline, oil, anti-freeze, or other materials that can be cleaned up by a single employee using readily available materials. The following procedures shall be used for clean up of small spills: 1. Ensure personal safety, evaluate the spill, and if possible, stop the flow of pollutants. 2. Contain the spread of the spill using absorbents, portable berms, sandbags, or other available measures. 3. Spread absorbent materials on the area to soak up as much of the liquid as possible and to prevent or minimize infiltration into the soil. 4. Once the liquids have been absorbed, remove all absorbents from the spill and place the materials in a suitable storage container. On paved areas, wipe any remaining liquids from the surface and place the materials in a storage container. Do not spray or wash down the area using water. For open soil areas, excavate any contaminated soil as soon as possible and place the soil in a suitable storage container. All materials will then be transported off-site for disposal. 5. If immediate transfer and storage of the contaminated soil is not practical, excavate and place the contaminated soil on a double thickness sheet of 3-mil or higher polyethylene film. In addition, a small berm should be formed around the outer edges of the soil stockpile, underneath the polyethylene film, to ensure that contaminants are not washed from the site during precipitation events and that materials do not seep through the berm. 6. Record all significant facts and information about the spill, including the following: • Type of pollutant • Location • Apparent source • Estimated volume • Time of discovery • Actions taken to clean up spill Galloway & Company, Inc. Page 2 of 5 7. Notify the supervisor of the spill and provide the information from Item #6. The supervisor will then contact the City of Fort Collins and Larimer County. Medium to Large Spills Medium to large spills consist of larger quantities of materials (usually >5 - 25 gallons) that are used on site that cannot be controlled by a single employee. Generally, a number of facility personnel will be needed to control the spill and a response may require the suspension of other facility activities. The following procedure shall be used for the cleanup of inedium to large spills: 1. Ensure personal safety, evaluate the spill, and if possible, stop the flow of pollutants. 2. Immediately dispatch a front-end loader or similar equipment to the spill and construct a berm or berms down gradient of the spill to minimize the spread of potential pollutants. On paved surfaces, portable berms, sandbags, booms, or other measures will be used to control the lateral spread of the pollutants. 3. When the spread of the spill has been laterally contained, contact the supervisor or designated facility employee and provide them information on the location, type, and amount of spilled material, and a briefing on the extent of the spread and measures undertaken to contain the contaminants. 4. Depending on the nature of the spill, mobilize additional resources as needed to contain the contaminants. 5. Cleanup will commence when the lateral spread has been contained and the notification to the supervisor has been made. 6. Freestanding liquid will be bailed or pumped into 55-gallon storage drums, steel tanks, or other suitable storage containers. When all the liquid has been removed from the pavement or soil layer, absorbents will be applied to the surFace and transferred to the storage containers when they have soaked up as much of the spill as possible. 7. On paved surfaces, the remaining contaminants will be removed to the extent possible, with rags, sweeping, or similar measures. The area of the spill will not be sprayed or washed down using water. Any contaminant soaked materials will be placed into the storage containers with the other absorbents. 8. The remaining contaminated soils will be excavated and loaded into a dump truck(s) for disposal off-site at a designated facility. If transport off-site is not immediately available, the remaining soils will be stockpiled on a double thickness sheet of 3-mil or higher polyethylene film. In addition, a small berm will be formed around the outer edges of the soil stockpile, underneath the polyethylene film, to ensure that contaminants are not washed from the site during precipitation and do not seep through the berm. 9. Record all significant facts and information about the spill, including the following: • Type of pollutant • Location • Apparent source • Estimated volume • Time of discovery • Actions taken to clean up spill 10. Provide the supervisor (or designated employee) with the information from Item #9. The supervisor will then contact the City of Fort Collins and Larimer County. Galloway & Company, Inc. Page 3 of 5 NOTIFICATION Notification to the Colorado Department of Public Health & Environment (CDPHE) is required if there is any release or suspected release of any substance, including oil or other substances that spill into or threaten State waters. Unless otherwise noted, notifications are to be made by the supervisor and only after emergency responses related to the release have been implemented. This will prevent misinformation and assures that notifications are properly conducted. The notification requirements are as follows: 1. Spills into/or Threatens State Waters: Immediate notification is required for releases that occur beneath the surface of the land or impact or threaten waters of the State of threaten the public health and welfare. Notifications that will be made are: a. For any substance, regardless of quantity, contact CDPHE at 1-877-518�5608. State as follows: a) Give you name. b) Give location of spill (name of city). c) Describe the nature of the spill, type of products, and estimate size of spill. d) Describe type of action taken thus far, type of assistance or equipment needed. b. For any quantity of oil or other fluids, call the National Response Center at 1-800-424-8802. State as follows: a) Give your name. b) Give location of spill (name of city and state). c) Describe the nature of the spill, type of product, and estimate size of spill. d) Describe type of action taken thus far, type of assistance or equipment needed. 2. Reportable Quantity Spill on Land Surface: Immediate notification is required of a release upon the land surface of an oil in quantity that exceeds 25 gallons, or of a hazardous substance that equals or exceeds 10 pounds or its reportable quantity under Section 101(14) of the Comprehensive Environmental Response, Compensation Liability Act (CERCLA) of 1980 as amended (40 CFR Part 302) and Section 329c(F3)of the Emergency Planning and Community Right to Know Act of 1986 (40 CFR Part 355) whichever is less. This requirement does apply at a minimum to the substances listed in Table A below. TABLE A Substances Requirin Notification SUBSTANCE Motor Oil Hydraulic Oil Gasoline/Diesel Fuel REPORTABLE QUANTITY 25 Gallons 25 Gallons 25 Gallons The notification procedures to be followed are: a) Give your name. b) Give location of spill (name of city and state). c) Describe nature of the spill, type of product, and estimate size of spill. d) Describe type of action taken thus far, type of assistance or equipment needed. e) Give name of land owner f) Specify department responsible for any facilities that may be impacted 3. Notification is not required for release of oil upon the land surface of 25 gallons or less - that will not constitute a threat to public health and welfare, the environmental or a threat of entering the waters of the State. Galloway & Company, Inc. Page 4 of 5 4. Notification, as required in paragraphs 1 and 2 above, will be made to the CDPHE using the 24-hour telephone number to report environmental spills. All information known about the release at the time of discovery is to be included, such as the time of occurrence, quantity and type of material, location and any corrective or clean-up actions presently being taken. Table B lists these phone numbers. SPILL RESPONSE CONTACTS TABLE B cmer enc i�ouncauon �ontaccs Name/A enc Number Poudre Fire Authorit 911 Fort Collins Police De artment 911 Ambulance 911 Hospital 911 National Response Center 1-800-424-8802 CDPHE - Report Environmental Spills (24 1-877-518-5608 hrs/da Colorado Emer enc Plannin Committee 303-273-1622 Larimer Count Sheriff's Office 970-498-5100 City of Fort Collins 970-416-2632 It is the responsibility of the supervisor to contact the City of Fort Collins and Larimer County, CDPHE, and/or the National Response Center. • The National Response Center is to be contacted when a release containing a hazardous substance or oil in an amount equal to or in excess of a reportable quantity established under either 40 CFR 110, 4- DFR 117, or 40CFR 302 occurs during a 24-hour period. • Notification to the CDPHE is required if there is any release or suspected release of any material, including oil or hazardous substances that spill into or threaten state waters. REPORTS The CDPHE requires written notification of a spill or discharge of oil or other substance that may cause pollution of the waters of the State of Colorado. A written report must be submitted to the Water Quality Control District (WQCD) within five days after becoming aware of the spill or discharge. The CDPHE requires a written final report within five days for all releases of an oil or hazardous substance that require implementation of a contingency plan. The CDPHE may also require additional reports on the status of the clean up until any required remedial action has been complete. Written notification of reports must contain at a minimum: 1. Date, time, and duration of the release. 2. Location of the release. 3. Person or persons causing and responsible for the release. 4. Type and amount of oil or substance released. 5. Cause of the release. 6. Environmental damage caused by the release. 7. Actions taken to respond, contain, and clean up the release. 8. Location and method of ultimate disposal of the oil or other fluids. 9. Actions taken to prevent a reoccurrence of the release. 10. Any known or anticipated acute or chronic health risks associated with the release. 11. When appropriate advice regarding medical attention necessary for exposed individuals. Galloway & Company, Inc. Page 5 of 5 COLORADO DEPARTMENT OF TRANSPORTATION DAILY STORMWATER LOG In accordance with subsection 208.03(c) daily stormwater compliance inspections are required on all projects holding a Colorado Discharge Permit System — Stormwater Construction Permit (CDPS-SCP). This form is to be used as the daily diary to evaluate BMPs used during construction activities. See the instructions for more information. Date: Project number: Sub-account number: The entire site shall be inspected to determine whether BMPs are being implemented and maintained in accordance with the projecYs site specific SWMP and the CDPS-SCP. The Erosion Control Supervisor (ECS) or Superintendent shall identify if additional BMPs are needed, can be removed, or need maintenance. The condition of the currently used BMPs shall be recorded, using one or more of the following letters: (I) Incorrect Installation; (M) Maintenance is needed; (F) BMP failed to operate; (A) Additional BMP is needed; (R) Remove BMP. Only BMPs with the conditions above need be recorded. (Use the extra page at the end of this form if needed.) The Project Engineer will approve and the Superintendent shall direct the work associated with any BMPs identified in this daily log to ensure compliance with the site specific SWMP and the CDPS-SCP. CDPS-SCP States: "BMPs that are not operating effectively, have proven to be inadequate, or have failed must be addressed as soon as possible, immediately in most cases." Date Location BMP Type Condition Notes/Comments Completed & Initials *" ALL BMPS ARE IN OPERATING CONDITION AND NO MAINTENANCE IS NEEDED. (initial the box to the right when this applies) Comments/General notes:( attach photos if necessary) Inspection signature: Superintendent or ECS Name:(Print) Signature: Date signed: PAGE 1 OF 3 CDOT Form #1388 7/11 S#ormwater Management Field Daily Inspection Report Instructions Inspect all erosion and sediment control BMPs throughaut the entire construction site — observe, recprd, and determine their effectiveness. If additional BMPs are needed or any BMP is not operaiing effectively, it shaE( be recorded on this form and addressed immediately, Location: Record tha site location (e.g., project statian number, mila marker, intsrsectian quadrant, etc.). BMPType.• Indicate tha type of BMP at this location that requires attention (e.g., siit fence, erosion logs, soil retention blankets, etc.). Cana�ition: Identify the condition af the BMP, using one ar more of the foQowing letters: {I) Incorrect Installation, (M) Maintenance is nseded (i.e., sediment needs ta be removed), (F') BMP Failed to aperate, (A} Additiana! BMP is nesded, (R) Remove the BMP. "`* If a!I BMPs are in operating condition and no BMP maintenance is needed, sign and initiaE the box to the right af the statement. NoteslComments: Provide the proposed corrective action needed to bring the area or BMP into compliancs. Date Complefed & Initials: Date and initial when #he corractive action was completed. Inspection Signature: Sign the form when the inspection has been completed. Place the completed daify stormwater log sheet(s} in the SWMP IVatebook. �AGE 2 OF 3 CD01' Form #1388 7/11 CALORADO DEPAR7"MENT (JF TRA�lSPORTATfON DAILY ST4RMiNATER 1.OG, ADDITlONAL PAGE QaFe: Project number: Sub-account number: The entire site shall be inspected to determine whether BMPs are being implemented and maintained in accordance with the praject's site specific SWMP and the CDPS-SCP. The Erosion Control Supervisor (ECS) or Superinte�dent shall identify if additional BMPs are needed, can be removed, or need maintenance. The condition of the currently used BMPs shall be recorded, using one or more of the foltowing letters: (I) Incorrect Installation; (IVI) Maintenance is needed; (F} BMP failed t� operate; (A) Additional BMP is needed; {R) Remove BMP. Only BMPs with the conditions above need be recorded. The Project Engineer will approve and the Superintendent shail direct the work associated with any BMPs identified in fhis daiEy lag to ensure compliance with the site specific SWMP and the CDPS-SCP. CDPS-SCP States: "BMPs that are not operating effectively, have proven to be inadequate, or have failed must be addressed as soon as possible, immediately in most cases." Date Location BMP Type Condition Notes/Gomments Completed & Ini#ials PAG� 3 OF S CDOT Form tfi388 711i