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Home My WebLink AboutTHE COTTAGES AT MIRAMONT PUD, PHASE IV - FINAL - 54-87AD - SUBMITTAL DOCUMENTS - ROUND 1 - DRAINAGE REPORTFinal Drainage and Erosion Control Report for THE COTTAGES AT MIRAMONT P.U.D. Fort Collins, Colorado Prepared for: ALBRECHT HOMES 4836 South College Avenue Suite 10 Fort Collins, Colorado 80525 date* , Prepared by: SHEAR ENGINEERING CORPORATION Project No: 1410-01-94 DATE: April, 1995 4836 S. College, Suite 12 Fort Collins, CO 80525 (303)226-5334 PLAT OF THE COTTAGES AT MIRAMONT P.U.D. LOCATED IN SECTION 1. TOWNSHIP S NORTH, RANGE 69 VEST OF -THE .STH PX. CITY OF FORT COLLINS. 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Cla'I[uMR pMuy-w.swq caoMAm ARw THE COTTAGES AT MIRAMONT P.U.D. .w+�•I '='36 uI-0i1 FORT COUIM. COLORADO PAGE 1 The Cottages at Miramont P.U.D. Final. Drainage and Erosion Control Report INTRODUCTION: The Cottages at Miramont P.U.D. is contained within an area considered with the Amended Oak/Cottonwood Farm Overall Drainage Study. More specifically, this is the area which contributes storm water runoff to Detention Pond #313 as defined in the Amended Oak/Cottonwood Farm Overall Drainage Study. Although this report has been specifically prepared for the Cottages at Miramont P.U.D., several known proposed projects, adjacent to this one, are considered with this report because of the direct relationship to the projects, all of which contribute to detention pond #313 which will be detailed with final design parameters in this report. The projects considered and referenced in this report include: Oak Hill Apartments P.U.D. * Miramont Fitness and Tennis Center * The Courtyards at Miramont P.U.D., Second Filing * The Courtyards at Miramont P.U.D., First Filing The Oak Hill Apartments P.U.D. Final Drainage and Erosion Control Report has been by RBD Inc:, Consulting Engineers. Final conclusions which relate to the Oak Hill Apartments P.U.D. have been closely coordinated with RBD, Inc. and included in this report. Reference to conclusions presented with the Final Drainage and Erosion Control Report .for the Oak Hill Apartments P.U.D. will be clearly identified in this report when referenced. The Final Drainage and Erosion Control Report for Miramont Fitness and Tennis Center was submitted on September, 1994 and was approved by the City of Fort Collins Storm Water Utility.. The report was prepared by Water, Waste & Land, Inc. Final conclusions which relate to the Miramont Fitness and Tennis Center have been closely coordinated with Water, Waste & Land, Inc. and included in this report. Reference to conclusions presented with the Final Drainage and Erosion Control Report for Miramont Fitness and Tennis Center will be clearly identified in. this report when referenced. The Courtyards at Miramont P.U.D. First and Second Filing has been approved by the City of Fort Collins and are currently under construction. Final conclusions which relate to the The Courtyards at Miramont P.U.D. First and Second Filing are based primarily on the approved reports and design. The Amended Oak/Cottonwood Farm Overall Drainage Study is being prepared by RBD Inc., Consulting Engineers simultaneously with this proposal. The Amended Oak/Cottonwood Farm Overall Drainage :Study is the primary reference for the storm water management design for Courtyards at Miramont P.U.D., Second Filing. Reference to conclusions presented with the Amended Oak/Cottonwood Farm Overall Drainage Study will be clearly identified in this report when referenced. PAGE 2 The Cottages at Miramont P.U.D. Final Drainage and Erosion Control Report L GENERAL LOCATION. AND DESCRIPTION: A. Location 1. The Cottages at Miramont P.U.D. is located in the East One Half (1/2) of Section 1, Township 6 North, Range 69 West of the 6th P.M., City of Fort Collins, County of Latimer,- State of Colorado. 2. More specifically, The Cottages at 1Vliramont P.U.D. is located on the east side of Boardwalk Drive, approximately three quarters (3/4) of a mile South of Harmony Road. The project is east of the Upper Meadow at Miramont and west of the Collinwood assisted living facility (Oakridge West P.U.D. First Filing). 3. The Cottages at Miramont P.U.D. is bounded on the west by Oak Hill Apartments P.U.D._, on the north by Miramont Fitness and Tennis Center on the east by Oakridge West P.U.D. First Filing, and on the south .by The Courtyards at Miramont P.U.D., Second Filing B. Description of Property 1. The 2.23 acres site (The Cottages at Miramont. P.U.D.) is currently vacant land covered with native vegetation. 2. Development of the property will consist of the construction of sixteen (16) single family residences and the infrastructure to service them. 3. The site will be accessed from the extension of Rule Drive from Lemay Avenue. H. DRAINAGE BASINS AND SUB -BASINS: A. Major Basin Description 1. The Cottages at Miramont P.U.D. is located in the McClelland -Mail Creek Drainage Basin as delineated on the City of Fort Collins Storm Water Basin Map. a. The Basin fee rate for this basin is $3,717.00 per gross acre according to the development fee section of the City of Fort Collins Development Manual. b. Our understanding is that the above mentioned fees may be reduced with the provision for detention. Detention has been provided for this site with the Miramont Overall Drainage Plan (ODP). Refer to following discussion in the Sub -Basin description section: The amount of impervious area created by the development may also affect Basin fees. PAGE 3 The Cottages at Miramont P.U.D. Final Drainage and Erosion Control Report H. DRAINAGE BASINS AND SUB -BASINS: B. Sub -Basin Description 1. The Cottages at Miramont P.U.D. is contained within Basin 208 of the Amended Oak/Cottonwood Farm Overall Drainage Plan (ODP). 2. There is a detention pond identified in the Amended Oak/Cottonwood Farm Overall Drainage Plan located downstream of the Cottages at Miramont P.U.D. project which was defined for all projects within Basin 208 of the ODP including Cottages at Miramont P.U.D. a. The pond is designated as pond #313 of the Amended Oak/Cottonwood Farm Overall Drainage Study. b. This pond is located within the limits of Tract D of the Courtyards at Miramont P.U.D., Second Filing, a plat recorded in Larimer County records. Tract D and the detention pond is currently owned by Oak Farm, Inc., A Colorado Corporation. c. The existing detention pond was originally designed by RBD, Inc. in association with the Upper Meadow at Miramont, Second Filing. The pond was constructed based on the original Oak/Cottonwood Farm Overall Drainage Study. It was constructed with additional volume requirements for irrigation purposes. It was constructed in association with the Upper Meadow at Miramont, Second Filing. d. Preliminary Pond volume requirements and water surface elevation data were provided on the Utility Plan titled "Detention Pond and Erosion Control Plan" for Upper Meadow at Miramont P.U.D., Second Filing, prepared by RBD, Inc., dated June 7, 1993, RBD Project No.. 504-003. e. Amendments to the Oak/Cottonwood Farm Overall Drainage Study during the design phase of the Courtyards at Miramont P.U.D., Second Filing, indicated a need for additional volume than was originally identified. The additional volume was provided during earthwork operations for Phase 1 construction of the Courtyards at Miramont P.U.D., Second Filing. 3. All stormwater from the projects which contribute to detention pond #313, are conveyed to the existing irrigation/detention pond. Coordination of the drainage design for the Fitness and Tennis Center, Oak Hill Apartments, the Cottages at Mimmont P.U.D. and the Courtyards at Miramont P.U.D., have been well coordinated to allow the conveyance of storm water from these projects to detention pond #313 according to the requirements of the Amended Oak/Cottonwood Farm Overall Drainage Study. ® PAGE 4 The Cottages at Miramont P.U.D. Final Drainage and Erosion Control Report H. DRAINAGE BASINS AND SUB -BASINS: B. Sub -Basin Description 4. Our understanding from the review of the drainage reports available, is that allowable storm water release rates are very strictly controlled in this area. a. The Amended Oak/Cottonwood Farm Overall Drainage Study indicates that maximum allowable release rates for this area are as follows: * 0.20 cfs/acre for the 10-year storm * 0.50 cfs/acre for the 100-year storm, The total required detention volumes, as well as the allowable release rate for detention pond #313, have been summarized and are presented in subsequent sections of this report, as well as on the Drainage and Erosion Control Plan located in Appendix III (stuffier envelope) of this report. These summaries are consistent with the final conclusions presented in the Amended Oak/Cottonwood Farm Overall Drainage Study and the Final Drainage and Erosion Control Study for Oak Hill Apartments P.U.D. ® 5. Some offsite flows will be conveyed through the site from the Miramont Tennis and Fitness Center. This subbasin is designated as sub -basin OS-1 on the Drainage and Erosion Control plan. Subbasin OS-1 contains approximately 0.13 acres. 6. The majority of the site (Sub -basin Ia) contributes stormwater to a low point located in the southeast portion of the site. Sub -basin Ia contains approximately 2.0 acres. 7. The remainder of the site (approximately 0.23 acres of grassed area) contributes stormwater directly to Courtyards at Miramont Second Filing. III DRAINAGE DESIGN CRnERIA: A. Regulations 1. Design Criteria from the City of Fort Collins Drainage Criteria Manual were utilized in the design and preparation of the Drainage and Erosion Control Plan. 2. Supplemental drainage design criteria specified in the Amended Oak/Cottonwood Farm Overall Drainage Study was also utilized. 3. Erosion control measures and design conform to the requirements of the City of Fort. Collins Erosion Control Reference Manual. ® PAGE 5 The Cottages at Miramont P.U.D. Final Drainage and Erosion Control Report III DRAINAGE DESIGN CFJaERIA: B. Development Criteria Reference and Constraints 1. The following drainage reports were considered in the final drainage design and calculations for The Cottages at Miramont P.U.D.: a. Oak/Cottonwood Farm Overall Drainage Study; RBD, Inc.; dated May 4, 1992; RBD Project No: 504-001. b. Amended Oak/Cottonwood Farm Overall Drainage Study; RBD, Inc.; dated August 16, 1994; RBD Project No: 504-001. c. Preliminary Drainage Report for Oak Hill Apartments P.U.D.; RBD, Inc.; dated February 7, 1994; RBD Project No: 088-010. d. Final Drainage and Erosion Control Report for Oak Hill Apartments P.U.D.; RBD, Inc.; dated May, 1994; RBD Project No: 088-010. e. Preliminary Drainage and Erosion Control Report for Courtyards at Miramont ® P.U.D. (Phases I-V) and The Cottages at Miramont P.U.D.. (Phase VI); Shear Engineering Corporation; Project No: 1410-01-94; Dated. March, 1994. f. Final Drainage and Erosion Control Report for Miramont Fitness and Tennis Center; Water, Waste and Land; dated September 12, 1994, WWI. Project No: 402. g. Master Drainage Study for the Oakridge Business Park. h. Drainage and Erosion Control Report for Oakridge West P.U.D. First Filing. i. The final Drainage and Erosion Control Report for Courtyards at Miramont Second Filing; Shear Engineering Corporation; Project No: 1410-01-94; Dated October, 1994. 2. The property to the north, Miramont Fitness and Tennis Center. has received Final Approval. Therefore, grading along the northern property line of the Cottages At Miratont will match the proposed contours of the Miramont Fitness and Tennis Center. 3. The property to the south, Courtyards at Miramont Second Filing, is currently under construction. Grading along the southern property line of the Cottages at `Miramont will match the proposed contours of Courtyards at Miramont Second Filing. ® 4. The property to the west, Oak Hill Apartments P.U.D., is currently under review. Grading along the western property line of the Cottages at Miramont will match the proposed contours of Oak Hill Apartments P.U.D. ® PAGE 6 The Cottages at Miramont P.U.D. Final Drainage and Erosion Control Report III DRAINAGE DESIGN CRITERIA: B. Development Criteria Reference and Constraints (continued) 5. The property to the east, Collinwood (Oakridge West P.U.D. Fast Filing), is developed and limits the amount of grading that can be performed along the eastern property line of the Cottages at Miramont P.U.D. C. Hydrological Criteria 1. The Rainfall -Intensity -Duration curves for the City of Fort Collins were used (Figure 3.3.1-1, attached in Appendix II for reference), in conjunction with the "Rational Method" for determining peak flows at various concentration points. D. Hydraulic Criteria 1. Street capacity references provided in the City of Fort Collins Drainage Criteria Manual and street capacity exhibits which were prepared by this office, based on the Mannings equation, were utilized. 2. Drainage channel capacities are based on the Mannings Equation. The Mannings coefficients are as suggested by City of Fort Collins Drainage Criteria Manual. IV DRAINAGE FACILITY DESIGN: A. General Concept 1. Stormwater runoff from the site will be conveyed to the southeast corner of the property via a combination of : a. Overland flow. b. Gutter flow. 2. No detention will be provided on the site as the Cottages at Miramont will contribute stormwater to the regional pond (Pond 313) located just south of the project in Tract D of the Courtyards at Miramont Second Filing. Pond 313 is sized for contributions from the Cottages At Miramont P.U.D. along the other projects mentioned in the introduction of this report. 3. No storm sewer is provided on the site as the outlet device located at concentration point A has more than enough capacity to handle the peak flows to concentration point A. L� PAGE 7 The Cottages at Miramont P.U.D. Final Drainage and Erosion Control Report W DRAINAGE FACILITY DESIGN: B. Specific Details: 1. Specific design details and final design calculations have been provided with this submittal of the Final Drainage and Erosion Control Report and Utility Plans for the Cottages at Miramont P.U.D.. 2. The existing irrigation/detention pond, which will service the Courtyards and Cottages at Miramont P.U.D., the Oak Hill Apartments P.U.D. and the Miramont Fitness and Tennis Center, is identified on the Amended Oak/Cottonwood Farm Overall Drainage Study as pond #313. a. The pond was originally designed and constructed in conjunction with the Upper Meadow at Miramont P.U.D., Second Filing. i. Reference: "Detention Pond and Erosion Control Plan" for Upper Meadow at Miramont P.U.D., Second Filing (Sheet 1 of 1) prepared by RBD, Inc. dated June 7, 1993, Project No. 504-003.. ii. Preliminary detention pond volume requirements were based on the original Oak/Cottonwood Farm Overall Drainage Study; RBD, Inc.; dated May 4, 1992; RBD Project No: 504-001. iii. Final detention pond requirements were determined based on actual contributing design areas and are presented in the most current Amended Oak/Cottonwood Farm Overall Drainage Study. - b. The existing irrigation/detention pond was constructed in 1993. The plans for the pond indicate that the pond would. first be constructed as an 'interim pond which would be an irrigation/retention pond. The ultimate pond would act as an irrigation/detention pond. The following represents summary data which was presented on the "Detention Pond and Erosion Control Plan" for Upper Meadow at Miramont. P.U.D., Second Filing (Sheet 1 of 1). i, The interim pond is proposed to have 6.7 acre feet of irrigation volume. I The ultimate pond is proposed to have 2.7 acre feet of irrigation volume. iii. The ultimate pond is proposed to have 4.0 acre feet of detention volume. c. The Amended Oak/Cottonwood Farm Overall Drainage Study indicates a 4.60 acre-foot detention requirement based on the SWMM model. Refer to the Amended Oak/Cottonwood Farm Overall Drainage Study and the Appendix of the Final Drainage and Erosion Control Study for the Oak Hill Apartments P.U.D.; Sheet 10 - Site Hydrology. • d. The existing pond detention storage volume is 4.20 acre-feet based on actual volume verification provided by RBD, Inc. Consulting Engineers. Refer to the Appendix of the Final Drainage and Erosion Control Study for the Oak Hill Apartments P.U.D.; Sheet 10 - Site Hydrology. ® PAGE 8 The Cottages at Miramont P.U.D. Final Drainage and Erosion Control Report W DRAINAGE FACILITY DESIGN:. B. Specific Details (continued): 2. e. Detention pond #313 required additional volume due to actual volume requirement determination. Additional detention pond grading requirements to provide the additional volume were shown on the Final Grading Plan , Sheet 11 of 13 of the Utility Plans for Courtyards at Miramont P.U.D., Second Filing. The pond expansion provided 4.75 ac-ft of detention storage volume. The detention pond design stage -storage curve is included in Appendix A of this report for reference. f. The detention pond will also act as an irrigation facility for this site, the open space greenbelt areas on the west side of Boardwalk Drive, and for future development to the south and east. A pump house and necessary infrastructure is under construction to distribute the irrigation water as needed. i. Construction of the pump house will not be associated with the The Cottages at Miramont P.U.D. ® I Maintenance of the detention/irrigation pond will be the responsibility of the owner of the tract on which the pond is located. This includes the pump house. 3. A 4' wide curb opening will be provided at the southeast corner of the site (Concentration Point A) to convey the stormwater runoff from the site into Tract A of the Courtyards at Miramont P.U.D., Second Filing. a. Tract A of the Courtyards at Miramont P.U.D. Second Filing is designated as a Utility, Drainage, and Access easement on the final plat of Courtyards at Miramont P.U.D., Second Filing. b. The peak 100 year or major flow at. Concentration. Point A is 14.45 cfs. Refer to pages 1, la, and 2 in the drainage calculations located in Appendix I. c. The capacity of the 4' wide curb opening is 24.29 cfs. Refer to page 3 in the drainage calculations located in Appendix I: d. The peak 10 year or minor storm flow at Concentration .Point A is 6.64 cfs. Refer to pages 1, la, and 2 in the drainage calculations located in Appendix I. e. The street capacity at Concentration Point A for the minor storm is 7.29 cfs. This is based on the capacity of the private drive up to the top of the curb on the low side of the private drive. Refer to page 4 in the drainage calculations located in Appendix L 11 ® PAGE 9 The Cottages at Miramont P.U.D. Final Drainage and Erosion Control Report IV DRAINAGE FACILITY DESIGN: B. Specific Details (continued): 2.. f The street capacity at Concentration Point A for the major storm is 11.13 cfs. This is based on the capacity of the private drive up to the top of the curb on the high side of the private drive. Refer to page 4 in the drainage calculations located in Appendix I. g. The top of the curb on the low side of the private drive should not be overtopped as the stormwater will be releasing through the 4' curb cut located at the low point (Concentration Point A). The capacity of the curb cut is more than 1 1/2 times greater than the peak flow to concentration point. 4. A low flow channel along with a grassed swale will convey the stormwater through tract A of Courtyards at Miramont P.U.D. Second Filing and into the private drive of Courtyards at Miramont P.U.D. Second Filing. a. The slope of the low flow channel is 1.0%. Refer to. the Final Grading plan for ® Courtyards at Miramont P.U.D. Second Filing sheet 11 included in the stuffer envelope. b. The peak 100 year flow at the outfall of the swale into the private drive of Courtyards at Miramont Second Filing is 14.98 cfs. Refer to page 5 in the drainage calculations located in Appendix I, 133 % of the peak flow is 19.92 cfs. c. The capacity of the low flow channel and the grassed swale at the outfall of the swale into 'the private drive of Courtyards at Miramont Second Filing is 23.70 cfs: Refer to pages 5 and 5a in the drainage calculations located in Appendix I. Therefore, the swale is capable of handling the stormwater generated by the development of The Cottages at Miramont P.U.D.. d. The swale extends to the rear of lots 33 - 38 in order to intercept any stormwater which may over top the curb on the low side of the private drive of Cottages. 5. Maintenance of the open space areas within the limits of the Cottages at Miramont P.U.D., will be the responsibility of the developer until completion of the project. A Homeowners Association will then assume maintenance responsibilities for the open space areas. PAGE 10 The Cottages at Miramont P.U.D. Final Drainage and Erosion Control Report V. EROSION CONTROL DESIGN CRITERIA: A. Regulations 1. Design Criteria from the City of Fort Collins Erosion Control Reference Manual were utilized. VI. EROSION CONTROL FACILITY DESIGN A. General Concept: 1. The Cottages at Miramont P.U.D. lies within the Moderate Wind Erodibility Zone per the City of Fort Collins Erodibility Zone Map. a. According to the criteria of the City of Fort Collins Erosion Control Reference Manual for Construction sites, the Erosion control performance standard has been calculated and appropriate erosion control measures identified for the control of erosion during and after construction. 2. Erosion control measures are specified on the Drainage and Erosion Control Plan attached in Appendix IQ (stuffer envelope). These measures will. effectively reduce the amount of soil erosion potential created during the construction of the project. a. Maintenance of erosion control devices, both onsite and offsite, will remain the responsibility of the developer until the subdivision is totally developed. VL EROSION CONTROL FACILITY DESIGN: B. Specific Details 1. Silt fence will be installed along the downstream property lines. 2. Gravel filters will be provided at the 4' curb cut. 3. A rip rap apron will be installed at the outfall from the curb cut located at the low point. a. The median stone size (60) is 12 inches. b. The apron will extend to the property line. c. The width of the apron at the property line will be 12.0 feet'. ® PAGE 11 The Cottages at Miramont P.U.D. Final Drainage and Erosion Control Report V11 EROSION CONTROL SECURITY DEPOSIT: A. An erosion control security deposit is required in accordance with City of Fort Collins policy (Chapter 7, Section C n SECURITY; page 7.23 of the City of Fort Collins Development Manual). In no instance shall the amount of the security be less than $1000.00. 1. According to current City of Fort Collins policy, the erosion control security deposit is figured based on the larger amount of 1.5 times the estimated cost of installing the approved erosion control measures or 1.5 times the cost to re -vegetate the anticipated area to be disturbed by construction activity. a The cost to install the proposed erosion control devices for the The Cottages at Miramont P.U.D. is $ 2,525.00. 1.5 times this estimate is $ 3,785.00. i. unit prices have been provided by Connell Resources. b. Based on current data provided by the City of Fort Collins Storm Water Utility, and based on an actual anticipated net affected disturbed area during construction of the Cottages at Miramont P.U.D., (approximately 2.2 acres) we .estimate that the cost to re -vegetate the disturbed area will be $1,430.00 ($650.00 per acre x 2.2 acres). 1.5 times the cost to re -vegetate the disturbed area is $2,145.00. i. The 2.2 acres is the actual platted area of the Cottages at Miramont P.U.D., housing project. ii. The $650.00 per acre for re -seeding sites of less than 10 acres was quoted to us by the City of Fort Collins Storm Water Utility staff. 2. The erosion control security deposit amount required for this project will be $3,787.50. See the Erosion Control Security Deposit Requirements document located in Appendix III (stuffer envelope). 3. The erosion control security deposit is reimbursable. VIM VARIANCE FROM CITY STANDARDS A. Variance from City of Fort Collins requirements 1. There will be no requests for variances from Storm Drainage Design Criteria. 11 PAGE 12 The Cottages at Nfiramont P.U.D. Final Drainage and Erosion Control Report IX. CONCLUSIONS: A. Compliance with Standards: 1. All drainage design and calculations conform with the criteria and requirements of the City of Fort Collins Storm Drainage Criteria. 2. Proposed erosion control measures conform with generally accepted erosion control measures and the City of Fort Collins Erosion Control reference manual. B; Drainage Concept: 1. The design of the drainage infrastructure for The Cottages at Kramont P.U.D. and the Courtyards at Miramont Second Filing P.U.D. effectively controls any increase in storm water runoff due to the development of The Cottages at. Miramont P.U.D.. 2. The erosion control measures specified will effectively reduce erosion potential during and after construction. 11 11 PAGE 13 The Cottages at Miramont P.U.D. Final Drainage and Erosion Control Report VIL REFERENCES: 1. City of Fort Collins Storm Drainage Design Criteria Manual 2. Urban Drainage and Flood Control District Urban Storm Drainage Criteria Manual. 3. City of Fort Collins Erosion Control Reference Manual; prepared by Hydrodynamics, Inc.; dated January 1991. 4. Oak/Cottonwood Farm Overall Drainage Study; RBD, Inc.; dated May 4, 1992; RBD Project No: 504-001 5. Amended Oa Cottonwood Farm Overall Drainage Study; RBD, Inc.; dated August 16, 1994; RBD Project No: 504-001. 6. Final Drainage Report for Oak Hill Apartments. P.U.D.; RBD, Inc.; dated May 2, 1994; RBD Project No: 088-010. 7. Final Drainage and Erosion Control Report for Oak Hill Apartments P.U.D.; 40 RBD, Inc.; dated May, 1994; RBD Project No: 088-010. 8. Preliminary Drainage and Erosion Control Report for Courtyards at Miramont P.U.D. (Phases I - V) and The Cottages at Miramont P.U.D. (Phase VI); Shear Engineering Corporation; Project No: 1410-01-94; Dated: March, 1994. 9. Final Drainage and Erosion Control Report for Miramont Fitness and Tennis Center; Water, Waste and Land; dated July 18, 1994 WWL Project No: 402. 10. "Detention Pond and Erosion Control Plan" for Upper Meadow at Miramont P.U.D., Second Filing (Sheet .1 of 1) prepared by RBD, Inc. dated June 7, 1993, Project No. 504-003 1.1. Master Drainage Study for the Oakridge Business Park; RBD, Inc.; dated September, 1990. 12. Final Drainage and Erosion Control Report for Courtyards at Miramont P.U.D., Second Filing; Shear Engineering Corporation; Project No: 1410-01-94; Dated: October, 1994. 1_1 C 0 APPENDIX I Storm Drainage Calculations Erosion Control Calculations ® FLOW SUMMARY FOR COTTAGES AT MIRAMONT DESIGN SUB AREA C2 C10 C100 Tc Tc. I2 I10 I100 Q2 Q10 Q100 DESIGN POINT BASIN 2,10 100 ac. min. min iph iph iph cfs cfe cfs A Ia & OS-1 2..13 0.76 0.76 0.95 12.50 10.00 2.34 4.10 7.14 3.79 6.64 14.45 CURB CUT C-M E -- -u 15 /^ _ _ - _ -' _ _�~� _- - - - - >� ------- -----'-�------'�---- ----------- eyS ------' - - - ------ _ ______u6 U h �� ' ___ ___ SUB -BASIN SURFACE CHARACTERISTICS STREETS ASPHALT CONCRETE GRAVEL LOTS ROOFS LAWNS SANDY SOIL FLAT < 2% AVERAGE 2 - 7% STEEP > '7% LAWNS HEAVY SOIL SHEAR 814GINERRING CORPORATION COMPOSITE RUNOFF COEFFICIENT FOR SUBBASIN OS-1 PAGE :IA PROJECT :COTTAGES AT MIRAMONT PROJ.NO. :1410-01-94 DATE: 04/20/95 LOCATION :RULE DRIVE BY: M80 FILE :COTAMCOF NOTES OS-1 SUB -BASIN Is RUNOFF COEF. AREA C C*A (acres) 0.100 0.950 0.095 0.000 0.950 0.000 0.000 0.500 0.000 0.000 0.950 0.000 0.000 0.100 0.000 0.000 0.150 0...000 0.000 0.200 0.000 RUNOFF C08F. AREA C C*A (acres) 0.730 0.950 0.694 0.000 0.950 0..000 0...000 0...500 0.000 1.210 0.670 0.811 0.000 0..950 0.000 0.000 0.100 0.000 0.000 0.150 0.000 0.000 0.200 0.000 FLAT <.246 0.030 0.200 0.006 0.060 0.200 0.012 AVERAGE - 7% 0.000 0.250 0.000 0.000 0.250 0.000 STEEP > 711 0.000 0.350 0.000 0.000 0.350 0..000 TOTAL AREA 0.130 0.101 2.000 1.516 C2 C10 C100 C2 C10 C100 COMPOSITE C VALUE 0.777 0.777 Or971 0.758 0.758 0.948 OVERALL COMPOSITE C VALUE FOR CONTRIBUTING AREA TO CP 'A' C = 0.7592498 C100 = 0.949061 SAY 0.76 SAY 0.95 SHEAR ENGINEERING CORPORATION PAGE 2 FLOW TO CONCENTRATION POINT A FROM SUBBASIN Ia & OS-1 PROJECT: COTTAGES AT MIRAMONT DATE 04/20/95 FILE: COTAMRUN PROJ. NO..1410-01-94 NOTES: BY MSO AREA (A)= 2.130 ACRES RUNOFF CORP. (C) 2 YEAR 10 YEAR 100 YEAR C = 0.76 0.76 0.95 SHE SPREAD SHEET ATTACHED ON PAGE 1 TIME OF CONCENTRATION (TO OVERLAND TRAVEL TIME (Ti) LENGTH = 32 FEET SLOPE = 3.69 2 YEAR 10 YEAR 100 YEAR C = 0.05 0.10 0.40 Ti (min)= 7.22 6.88 4.81 TRAVEL TIME (Tt)=L/(60*V) FLOW TYPE L (ft) = 31 3 ($) = 0.51 GUTTER V (fps) = 1.5 Tt(min)= 0.34 40 L (ft) = 183 S (1) = 0.5 GUTTER- V (fps) = 1.5 Tt(min)= 2.03 L (ft) = 63 S (4) = 2.01 GUTTER V (fps) = 2.83 Tt(min)= 0.37 L (ft) = 212 S ($) = 0.62 GUTTER, V (fps) = 1.63 Tt(min)= 2.,17 L (ft) = 30 S ($) = 0.5 GUTTER V (fps) = 1-5 Tt(min)= 0.33 L (ft) =? S (4) =? ? V (fps) _? Tt(min)= 0.00 L (ft) =.? S (1k) =? ? V (fps) =? Tt(min)= O.00 NOTE: ALL VELOCITIES TAKEN FROM FIGURE 3-2 TOTAL TRAVEL TIME (min) = 5.25 Tc=Ti4TOTAL TRAVEL TIME 2. YEAR 10 YEAR 100 YEAR Tc (min)= 12.47 12.13 10.06 USE Tc = 12.5 12.5 10 INTENSITY (I) (iph) 2 YEAR 10 YEAR 100 YEAR I = 2.34 4.10 7.14 NOTE.: INTENSITIES TAKEN FROM FIGURE 3-1 RUNOFF (Q= CIA) (cfs) 2 YEAR 10 YEAR 100 YEAR Q = 3..79 6.64 14.45 CONCLUDE:SIZE CURB CUT TO HANDLE Q100 AND CONVEY OVER GRASS TO TRACT A OF COURTYARDS AT MIRAMONT SECOND FILING SHE PAGE 3 ® CHECK STREET CAPACITY SEE PAGES 4 & 4A 6 12 13 14 16 17 W-A 1L- �.- Q.35 Slade, U,� c�fo� lw )��Z CI?-) �� I, � G,0�7c,� �� P"zr-. 'AR-nj BY MN 0 DAIE i. I'TA G-;s r)o 4 Se, - L fNe. R '►z _� - --Cl , s� z (.30) 7 Cloos) -- - -- --- 12 13 15 k 16 O-L .1)-Il 19 ...... ....... ... 20 21 ... . ..... .... ------- -- 22 C ---y, Y-- S --------- - --------- ----6-------- 23 24 25 2 6 s,o t�� b-sc., ,-,4L - ----- - -------- - 2/ Wit$t,).JL rwc- lob No Text No Text SHEAR ENGINEERING CORPORATION PAGE SA CHANNEL CAPACITY PROJECT NAME: COTTAGES AT MIRAMONT DATE: 04/20/95 PROJECT. NO. 1410-01-94 BY MEO SWALE DESCRIPTION:SWALE IN TRACT A OF COURTYARDS AT MIRAMONT FILE: COTCHAN CAPACITY OF TRIANGULAR OR TRAPEZOIDAL CHANNEL CHANNEL CONFIGURATION: TRAPEZOIDAL DESIGN FLOW (cfe) 14.98 CHANNEL LINING: GRASS 1.33-Q= 19.92 Da Db Dc Sc n W I (ft) ---- (ft) ---- (ft) ---- (e) ---- ----- (ft) ---- (ft) ---- 4.00 4.00 1.00 1.00 0.032 3.00 0.10 0..25 = LEFT BANK SLOPE 0.25 = RIGHT BANK SLOPE DEPTH WIDTH AREA PERIM R 2/3 S..c 1/2 Q V ® (s.f.) (ft) (s.f.) (ft) (A/P) (cfe) (ft/sec) 1.00 11.00 7.00 11.25 0.73 0.10 23.70 3i39 0.90 10.20 5.94 10.42 0.69 0.10 18.96 3.19 0.80 9.40 4.96 9.60 0..64 0..-10 14.83 2.99 0.70 8.60 4.06 8.77 0.60 0.10 11.28 2.78 0.60 7.80 3.24 7.95 0.55 0.10 8.27 2:55 0_50 7.00 2.50 7.12 0.50 0.10 5.78 2.31 0.40 6.20 1.84 6_30 0.44 0.10 3.76 2.04 0.30 5.40 1.26 5.47 0.38 0.10 2.20 1.74 0.20 4.60 0.76 4.65 0.30 0.10 1.06 1c39 0.10 3.80 0.34 3.82 0.20 0.10 0.31 0.92 0.00 3.00 0.00 3.00 0.00 0.10 0.00 0.00 i ...._s_.1-�--•__—�t�- i I 1 ', 1 --T—�'" ..�'Y.t-r7•__f__�_i! ' �__�__i _.-�! i_� _.�_' '_ � � 1� � L.. � _� ! ' _V�... t ! .,.. � -� •'®': , _ j ..L..� I-- ' .. ; ; ii ' f � ; I , i- , �. I ; ..!-,.I . I � I }. iN y' .' � , p,►;. i. ,.»l I , '.; I i L..� I , I -I_ I is !. � I ' ' I i (l'.:�� _ ' I �.1_. I I ; !..�a_.-; !- I . , - L_1�-.16� ;;,jr'P„ � _.r. T ; u +�� - l ! �t -; -, . ; � r- - .r � _ ! - I �!.' _.r I -`-r-i I 1111 i I � ; , . �46 I ; M� `a. � ! Imo; ._ a 4- a f I l , _ ( ' I�_�- (-.'t'•i ; , , ; ; • . , ; �'� ' ; _� I f '- '-��' I-' � .1 , � � } � \, '- ..I � i ; E-- t l I_ fI -..j }-t- ' , 1- r-' i}—. I -- 1- -' -+-; —} i �--1 - ._ _>. ► � �_., 1 i � 1 - 'r�-t- ;--� --}`' { i}— - - �-�---�----I-+-i-- i + . a ,..T. I �. _! . j L , - !- ,_ ; , . ; !_-1- F _ .1 i � .�- . _ t 1 � - 1 .. J_ F � �-- -� _.� ; -t- I-- _ -r- -; � _.� t.-i •f � � .� . V- � I I .1 , 1 ,. 1. I {_.....• __ i _ _.._ _ ..t.+ %.I_. _-1...1_ � _ _T _f._I � � 1_ _ 1 t_. �_ 1 � 1 1. 1 i {{ t 1 1 - TT k I ' I t l �_"1 I 1 A i (. f .., �.._�. _, 1 !._.!_. , - , _k , . I j , i ( , ;19V i.. S � 1 _.. I I- - t � - f ; T j- , �•- i . j _, ....� I i ( t No Text C CONSTRUCTION SEQUENCE PROJECT: THE COTTAGES AT MIRAMONT STANDARD FORM C SEQUENCE FOR 19 ONLY COMPLETED BYMEOLShear Engineering Corp. Indicate by use of a bar line or symbols when erosion control measures will be installed. Major modifications to an approved schedule may require submitting a new schedule for approval by the City Engineer. Year 95 96 Month A S O N D J F M A M J J A OVERLOT GRADING WIND EROSION CONTROL * Soil Roughening RAINFALL EROSION CONTROL STRUCTURAL: * Sediment Trap/Basin * Inlet Filters * Straw Barriers * Silt Fence Barriers 0 Asphalt/Concrete Paving VEGETATIVE: * Permanent. Seed Planting * Sod Installation *** *** STRUCTURES: INSTALLED BY: OWNER MAINTAINED BY: OWNER VEGETATION/MULCHING CONTRACTOR: OWNER DATE PREPARED:04/21/95 DATE SUBMITTED: 04IN195 APPROVED BY THE CITY OF FORT COLLINS ON: ® April 24, 1994 Project No. 1410-01-94 0 Basil Hamdan City of Fort Collins Storm Water Utility P.O. Box 580 Ft. Collins, Colorado 80522 Re: The Cottages at A iramont P.U.D.; Fort Collins, Colorado Dear Basil, Attached is the erosion control security deposit estimate for The Cottages at Miramont P.U.D.. EST RATE 1: 700 LF of silt fence at $3.50 per LF 1 Gravel inlet Filter at $75.00 each TOTAL ESTIMATED COST: ESTMATE 2: re -vegetate the disturbed area of 2.20 acres at $650.00 per acre TOTAL ESTMATED COST: $ 2,450.00 75.00 $ 2,525.00 x 1.50 $ 3,787:50 $ 1,430.00 $ 1,430.00 x 1.50 $ 2,145.00 The total required erosion control security deposit will be $ 3,787.50 if paid at one time. Because of the projected phasing of the project, security deposits may be made based on individual estimates for each phase, or phases, of construction. If you have any questions, please call at 226-5334. Sincerely, Mark Oberschmidt, EIT Shear Engineering Corporation BWS / mo cc: Albrecht Homes 4836 S. College, Suite 12 Fort Collins, CO 80525 (303)226-5334 RAINFALL PERFORMANCE STANDARD EVALUATION STANDARD FORM A PROJECT: Co��,5es �,d�irti►-�,o� COMPLETED BY: DATE: DEVELOPED ERODIBILITY Asb Lsb Ssb Lb Sb 'PS SUBBAgIN ZONE (ac) (ft) (;) (feet) o � 0 0 MARCH 1991 8-14 DESIGN CRITERIA lu 4 r L. EFFECTIVENESS CALCULATIONS PROJECT: Cc� i vE-S h��t',3aoaJl STANDARD FORM B COMPLETED BY: M�-Q DATE: Erosion Control C-Factor P-Factor Method Value Value Comment 0,� S\ Feti�v2 �, 0 0. MAJOR PS SUB AREA BASIN (t) BASIN (Ac) CALCULATIONS z= 6, 452� MARCH 1991 8-15 DESIGN CRITERIA 0 0,rn000 � W 0 W ao aD ® o rnrnrnrnoOOOoo . . . . . . . . . . . o �t'd'sr�tntntntntntn � aoa000aoW W W W W W O a MMMm MMMMMMOOO O d'��'d'�r�•�d'�rsr�rd'tntntn cn OaocoWOWOW W W W W W W W 0 t- co co co 01 0% 01 0 0\ 0% 0% 01 01 01 Ot 01 ON M 01 01 . . . . . . . . . . . .. . . . . . . . . o d'�d'•woV*vod'�rd'd'd'd'srsvlg*sr�rMrow N 00 co W 00 00 00 00 00 00 00 co co 00 00 00 CO W o0 00 00 O OMd'11�tDt01C101�1�t�l�l��l��l��l�t�000000000000 . . . . • . . . . . . . . . . . . . . . . . . . . . . p o ��erd'�srerdsr�erd��etsrso�-we owgwV p rt W W W W W 00 W W 0o W W W OD OD CO W W W W CO COO W W W W O co c4 m qr Ln LnLn tG t0 t0 W %0 t0 t- t- t� I- r- r- t- r- r- - co co co p e d'. . . . . . . . . . . a rn M. .4.41;��d'e�'�d'd'd'd'vs Itrd'srsrsrvvv O WWWWWWWWWW0O0a�OaoOOWWWOWWWW U O tD O N M d' d' In In In lff �D t0 10 t0 t0 10 10 �G tG tD I� I� t� l� � l� . . . . . . . . . . . . . . . . . . • . . . . . . . . . t!� c0 M4sYs!'d'-'st'd'd'srd'srd'st'4l'sYst'et'sPsrs1'st'st'd'4 z 00 W 00 00 00 00 00 00 00 W 00 CO 00 00 00 CO 00 CO 00 00 00 00 00 00 CO 00 H 0 O vc11.-INMm st%wd'd'InLn Lntntnlntntntn%D%o%o%o%0%Dt- O t- c 4 c 4 4 t'ato to vo4to 'sr*V*stet vovo -W*V* V*V* f'ed'd'erd'd' U 0000WooCOWWWWWWWWWWWWWgoWWboaoOOWW E+ O Ot0000�-Ir1NNc'1r1r1N1d'd'd'eYd'd'd'd'lnlntntfl�O�D a. • • e e . • . . • • . . . . . . . . • . . • • • e • 'e p t0 MMMsrd'vvvOrd'srd'd'srsrd'd'srd'sr-e.0v.0srd' w 0000OD0000WW00WW000000WW00WWOD00W000000WO c4 ,o tnNtnt.cocnoorlrie-1NNNNNMMMi'1Md'st'st'd'ow O dP • • . • . . • • . . . • . 0 . e . . . . • e . 00W tn NMMMMMstgw.0.0 d'd'd'sr.0gwR1'd'd'st'st'sf'sf'd'd's1' ® 00O0WCOW00000000WW0000000000W00WW0D00W WWCO oin Mtn .-1W r10'1d'tnLn%o%or-t-t-W co co Wcococna%o%Oo00o A,' ad' NNMMMMMMMMMMMMMMMMmoms M94 V041d'd' Hp W ooWWWWWWWWWWWWWWWWaoaoWOaoaoaocoao Ot0tnW0e-iNMd'd'Intntnt0tpt01t)10t�1�.t�t�W W WC►C1 [a • e • • e • • • • e • • • • . • • • • • • • • • • • to IV 4c4c4AN1MMMMMMMMMNI!' Ac4AAc4c1MMMM 00 C0 W W 00 00 W W 00 00 W 00 00 W 00 00 00 00 CO CO W 00 OD W 00 00 Uto r1r11f1t,- W00.-iNNrlMMst'd'd'd'd'lnlntn%D%0%Dt-t- mr-1NNN.NMMMMNIMC'199c4MCIMc4.AAA mMoMo W W W OD W W W W W 00 00 00 00 00 00 00 00 00 CO 00 00 O0 W W W W .p O MN1000CN0riNNMMMsf'd'd's!'d' eLnlnlnLnt01010t0 (,4 . e • • • e • • • e (Yi M 8rly-ie-1rIN44NNNNNNNNNNNNNNNNNN W WWWWWWWW00O0000aoO000000c0OaoWWWWWW a In to in 0t N M st' In tD t� t� t� W W W 0► 01 01 O� 01 01 0 0 0 0 0 0 C4 C• . • • • . . • • • e . • • . • • • e • • • e • . • t 0 0 ri rl rl ri ri t-1_ r-1 r-4 r-i ri r1. rl r1 rl .-i ri r-i N N N N N N r- 00 W OD W W W W W 00 W W W W W 00 W W W W W W W W W W w e7. O sNtnOMtntDWcoa%oo0.-ir4i-irINNr4c,4m "1mm(nM i..i • • • e • • • e • • • • • • • • • • e • e . e • . • N 00 C11 O O O O O O O ri ri .-1 rl rl r-i rl ri rl rl ri ri '-1 ri rl e-4 r1 t- t- co 00 W W W W W 00 CO W 00 00 W CO 00 00 00 00 CO 00 00 00 00 00 to WNW 1d'lnr-t-co(s%(Ti OOrir-iririr r4.NNMMcol MM ri t0 W W000meM0►me0101oO0o000000oCCO00 rt�nrrrr.rrrrao0oc000co W ao W W W W ao W W o0 O tOMOd't�010rINc'1Me1'sMlnlfllntntCtGtOtOl�t�tDtOtG r1 V%Dtl-t-t-t-W00W.W00WWWWWWWWWWWWWWW ® t11 010d'10L-0000t-t-t-to%0%Dtnd'd'MMd'r NN01101(A%0 • • • O O e • • • • e • • • • • . • • • . • N N N N N N N N N N N N N N N N N N N r!ri 4 H O O g Ex-4-+00000000000000000000000000 SC9H QOOOOOOOOOOOOOOOOOO0000000 zW r-1,Nf)d'In10t�W0�OrINMd'tL1tD1�000101nO1f10tn0 Gy Wv r-itlHrirlrlrlrlrlrNNMt'7st'st'to ® Table 8B C-Factors and P-Factors for Evaluating EFF Values. Treatment C-Factor P-Factor BARE SOIL Packedand smooth........................:...:................................... 1.00 1.00 Freshlydisked .:: .................. :.................................................. 1.00 0.90 Roughirregular surface ........................... ....:...... ..................... 1.00 0.90 SEDIMENT BASIN/TRAP................................................................. 1.00 0.50n' STRAW BALE BARRIER, GRAVEL FILTER, SAND BAG ........................ 1.00 0.80 SILTFENCE BARRIER........................................................ ......... .:.. 1:00 0.50 ASPHALT/CONCRETE PAVEMENT ................................................... 0.01 1.00 ESTABLISHED DRY LAND (NATIVE) GRASS ........................... See Fig. 8-A 1.00 SODGRASS................................................................................ 0.01 1.00 TEMPORARY VEGETATION/COVER CROPS ........... :........... ............. 0.45121 1.00 HYDRAULIC MULCH @ 2 TONS/ACRE .......................... ........ 0.10f71 1.00 SOIL SEALANT .... 0.01-0.60141 ................................................................ 1.00 EROSION CONTROL MATS/BLANKETS ................. ................ ........ G.. 0.10 1.00 ® GRAVEL MULCH ® Mulch shall consist of gravel having a diameter of approximately 114" to 1 1/2" and applied at a rate of at least 135 tons/acre.............. 0.05 1.00 HAY OR STRAW DRY MULCH After olantino crass seed, apply mulch at a rate of 2 tons/acre (minimum) and adequately anchor, tack or crimp material into the soil. Slope M 1 to 05............................................................... ::......:..... 0.06 1.00 6 to 10 ................................................. ...............0.06 1.00 11 to 15................................................ ................ .... ....... :. 0.07 1.00 16 to 20.....::...................................................................... 0.11 1.00 21 to 25........................ :............ ......,:... :................... ......... 0.14 1.00 25 to 33.... .................. ,......... ,..... ................... ................ ....0.17 1.00 >33................ ..... :............. ............... 0.................... 0.. 0.20 1.00 NOTE- Use of other C-Factar or P-Factor values reported in this table must be substantiated by documentation (1) Must be constructed as the first step in overlot grading. (2) Assumes planting by dates identified in Table 11-4, thus dry or hydraulic mulches are not required. (3) Hydraulic mulches shall be used only between March 15 and May 15 unless irrigated. (4) Value used must be substantiated by documentation. MARCH 1991 8-6 DESIGN CRITERIA 11 0 APPENDIX II Backup Diagrams and Exhibits Table 3-3; Rational Method Runoff Coefficients for Composite Analysis Table 3-4; Rational Method Frequency Adjustment Factors Figure 3-2; Estimate of Average Flow Velocity for Use with the Rational Formula Figure 3-1 City of Ft. Collins Rainfall Intensity Duration Curve Table 4-1 - Initial Storm - Street Runoff Encroachment Table 4-2 - Major Storm.- Street Runoff Encroachment R-M-P Medium Density Planned Residential District — designation for medium density a variation in use and building placements areas planned as a unit (PUD) to provide with a minimum lot area of 6,000 square feet. ® R-L-M Low Density Multiple Family District- areas containing low density multiple family R-L District with a minimum lot area of 6,000 square feet units or any other use in the for one -family or two-family dwellings and~9,000 square feet for multiple -family M-L dwellings. Low Density Mobile Home District — designation for areas for mobile home parks containing independent mobile homes not exceeding 6 units per acre. M-M Medium Density Mobile Home District — designation for areas of mobile home homes not exceeding 12 units per acre. parks containing independent mobile B G General Business District — district designation for downtown business areas, with minimum lot areas equal to 1 /2 of the total including a variety of permitted uses, floor area of the building. B-P Planned Business District — designates areas planned as unit developments to the surrounding residential areas with provide business services while protecting minumum lot areas the same as R-M. H-B Highway Business District — designates an area of automobile -orientated busi- to 1/2 of the total floor area of the building. nesses with a minimum lot area equal B-L Limited Business District — designates areas for neighborhood convenience centers, including a variety of community uses with minimum lot areas equal to two times the total floor area of the building. C Commercial District —designates areas of commercial, service and storage areas. I-L Limited Industrial District —designates areas of light.industrial uses with a minimum the floor area of the building not to be less than area of lot equal to two times total 20,000 square feet. ® I-P Industrial Park District —designates light industrial park areas containing controlled lot areas equal to two times the total floor area of the industrial uses with minimum building not to be less than 20,000 square feet. I-G General Industrial District — designates areas of major industrial development. T Transition District — designates areas which are in a transitional stage with regard to ultimate development: For current and more explicit definitions of land uses and zoning classifications, refer to the Code of the City of Fort Collins, Chapters 99 and 118. Table 3-3 RATIONAL METHOD RUNOFF COEFFICIENTS FOR COMPOSITE ANALYSIS Character of Surface Runoff Coefficient Streets, Parking Lots, Drives: 0.95 Asphalt..::....................................................................................... ...•. Concrete ........................................................................................... 0.95 .. Gravel....................................................................... 0.50 Roofs.......................... ................................ ......................... ........ ... 0.95 Lawns, Sandy Soil: 0.10 Flat <2%° . ........... ........ Average 2 to 7% .. .... 0.15 Steep>7% ...... . ..................: ....::............ 020 Lawns; Heavy Soil: Flat<2% .........:....:...........................:........................:.... 0.25 . .,. ... 0.25 Average 2 to 7% . •••• "" ® Steep >7% .................... ......... .... 0;35 MAY 1984 3-4 DESIGN CRITERIA 3.1.7 Time of Concentration In order to use the Rainfall Intensity Duration Curve, the time of concentration must be ® known. This can be determined either by the following equation or the "Overland Time of Flow Curves" from the Urban Storm Drainage Criteria Manual, included in this report. (See Figure 3-2). Tc=1.81(1:1 —CC,) D112 S13 Where Tc = Time of Concentration, minutes S = Slope of Basin, % C = Rational Method Runoff. Coefficient D = Length of Basin, feet Ct = Frequency Adjustment Factor Time of concentration calculations should reflect channel and storm. sewer velocities as well as overland flow times. 3.1.8 Adjustment for Infrequent Storms The preceding variables are based on the initial storm, that is, the two to ten year storms. For storms with higher intensities an adjustment of the runoff coefficient is required because of the lessening amount of infiltration, depression retention, and other losses that have a proportionally smaller effecton storm runoff. These frequency adjustment factors are found in Table 3-4. Table 3-4 RATIONAL METHOD FREQUENCY ADJUSTMENT FACTORS Storm Retum Period Frequency Factor (years) C, 2_ to 10 1.10 11 to25 1.0 26 to 50 1.20 51 to100 1,25 Note: The product of C times C, shall not exceed 1.00 3.2 Analysis Methodology The methods presented in this section will be instituted for use in the determination and/or verification of runoff at specific design points in the drainage system. These methods are (1), the Rational Method .and (2) the Colorado Urban Hydrograph Procedure (CUHP). Other computer methods, such as SWMM, STORM, and HEC-1 are allowable if results are not radically different than these two. Where aPPlicaple, drainage systems proposed for construction should provide the minimum protection as determined by the methodology so mentioned above. 32.1 Rational Method For drainage basins of 200 acres or .less, the runoff may be calculated by the Rational Method, which is essentially the following equation: a- CfCIA Where Q = Flow Quantity, cfs A =Total Area of Basin, acres Gf = Storm Frequency Adjustment Factor (See Section 3.1.8) C = Runoff Coefficient (See Section 3.1.6) I =Rainfall Intensity, inches per hour (See Section 3.1.4) 3.2.2 Colorado Urban Hydrograph Procedure For basins larger than 200 acres, the design storm runoff should be analyzed by deriving synthetic unit hydrographs. It is recommended that the Colorado Urban Hydrograph ® Procedure be used for such analysis. This procedure is detailed in the Urban Storm Drainage Criteria Manual, Volume 1, Section 4. MAY 1984 3-5 DESIGN CRITERIA DRAINAGE CRITERIA MANUAL RUNOFF 1J lu 50 30 1- 20 z w U tit a 10 z W a O 5 W cc 3 O U 2 cc tJ F- Q 1 IWAWAS%/1111VM' FAME I • ��milli •/ r ��mm ENEMMIINMN milli ,, ® ®I�■//■II ME%F®/I ■ MEN 00 .2 .3 .5 1 2 3 5 10 20 VELOCITY IN FEET PER SECOND FIGURE 3-2. ESTIMATE OF AVERAGE FLOW VELOCITY FOR USE WITH THE RATIONAL FORMULA. *MOST FREQUENTLY OCCURRING "UNDEVELOPED" LAND SURFACES IN THE DENVER REGION. REFERENCE: "Urban, Hydrology For Small Watersheds" Technical Release No. 55, USDA, SCS Jan. 1975. 5 -1-84 URBAN DRAINAGE & FLOOD CONTROL DISTRICT AVERAGE FLOW VELOCITY FOR USE WITH RATIONAL METHOD FROM FIGURE 3-2 SLOPE VELOCITY (fps) 4 FOREST FALLOW SHORT BARE GRASSED PAVED/ GRASS GROUND WATERWAY GUTTER wrr•rrrr.twwrrwt.rtttrtw:wrt*rrrtttw♦•rr*rrwttw*ttrrrrrrrrrtrttr.rc 0.5 0.19 0.33 0.50 0.70 1.11 1.50 0.6 0.19 0.36 0.54 0.75 1.22 1.61 0.7 0.20 0.38 O.se 0.82 1.33 1.72 0.8 0.22 0.41 0.62 0.85 1.41 1.80 0.9 0.23 0.44 0.66 0.92 1.51 1.88 1.0 0.24 0.46 0.70 0.98 1.58 2.00 1.50.2E 0.54 0.82 1.21 1.83 2.36 2.0 0.35 0.65 1.00 1.47 2..16 2.83 2.5 0.3E 0.73 1.12 1.58 2.39 3.10 3.0 0.43 0.80 1.26 1.72 2.61 3.40 3.5 0.46 0.85 1.37 lies 2.80 3..67 4.0 0.50 0.93 1.47 1.94 3.00 4.00 4.5 0.52 0..97 1.54 2.04 3.17 4.18 5r0 0.54 1.05 1.64 2.19 3.37 4.45 5.5 6.0 6r5 7.0 . 8.0 8.5 9.0 9.5 10.0 No Text FORT COLLINS RAINFALL INTENSITY CURVE DATA FOR CITY OF FORT COLLINS FIG 3-1 INTERPRETED DECEMBER 21, 1992 BY MARK OBERSCHMIDT SHEAR ENGINEERING CORPORATION INTENSITIES IN RED ARE BASED ON STRAIGHT LINE INTERPOLATION BY MARK OBERSCHMIDT ON MARCH 9, 1995 2 5 10 25 50 100 TIME YEAR YEAR YEAR YEAR YEAR YEAR rrrt++++tr+ttt+t+tt+tttt:.tttf.rt+ttrr++tr*+++•'tt++tttrrrr+tttttt 5 3.29 4.70 5.64 1.02 7.95 9.30 6 3.14 4.49 5.402 6:.716 7.63 8.868 7 2.99 4.28 5.164 6.412 7.31 8.436 8 2.84 4.07 4.926 6.108 6.99 6.004 9 2.69 3.86 4.688 5.804 6.67 7.572 10 2.54 3.65 4.45 5.50 6.35 7.14 11 2.46 3:534 4.31 5.32 6.138 6.924 12 2.36 3.416 4.17 5.14 5.926 6.708 13 2.3 3.302 4.03 4.96 5.714 6.492 14 2.22 3.186 3.89 4.7E 5.502 6.276 15 2.14 3.07 3.75 4.60 5.29 6.06 16 2.082 2.986 3.65 4.48 5.152 5.89 17 2.024 2.902 3.55 4.36 5.014 5.72 18 1.966 2.818 3.45 4.24 4.876 5..55 19 1.908 2.734 3:35 4.12 4.136 5.38 ® 20 1.85 2.65 3.25 4.00 4.60 5.21 21 1.806 2.588 3.174 3.908 4.496 5.094 22 1.762 2.526 3.098 3.816 4.392 4.978 23 1.716 2.464 3.022 3.724 4.288 4.862 24 1.674 2.402 2.946 3.632 4.184 4.746 25 1.63 2.34 2-87 3.54 4.08 4.63 26 1.598 2.294 2.816 3.466 3.998 4.544 27 1.566 2.248 2.762 3.392 3.916 4.458 28 1,.534 2.202 2-708 3.318 3.834 4.372 29 1.502 2.156 2.654 3.244 3.752 4.286 30 1.47 2.11 2.60 3.17 3.67 4.20 35 1.32 1.92 2.38 2.88 3.35 3.81 40 1.20 -1..76 2..19 2.67 3.08 3.60 45 1.12 1.62 2.02 2.46 2.84 3.28 50 1.04 1.51 1.87 2.27 2.65 3.02 55 0.97 1.40 1.73 2.12 2.46 2.80 60 0.90 1.32 1.62 1.99 2.32 2.60 65 0.88 1.24 1.52 1.94 2.18 2.43 70 0.82 1.16 1.44 1.72 2.05 2.30 75 0.79 1.11 1.38 1.62 1.93 2.17 80 0.74 1.07 1.30 1.53 1.82 2.07 85 0.70 1.06 1.23 1.46 1.73 1.96 90 0.66 0.97 1.20 1.40 1.67 1.87 95 0.64 0.91 1.13 1.32 1.59 1.77 100 0.61 0.68 1.09 1.27 1.51 1.70 ® 105 0.60 0.83 1.04 1..22 1..46 1.63 110 0.57 0.80 1.00 1.18 1.40 1.57 115 0.54 0:78 0.96 1.14 1.33 1.50 120 0.52 0.76 0.91 1.10 1.19 1.44 4.2.2.1 Street Encroachment The encroachment of gutter flow on the street for the initial storm runoff shall not ex- ceed the specifications set forth in Table 4-1. A storm drainage system shall begin where the encroachment reaches the limits found in this table. Table 4=1 INITIAL STORM —.STREET RUNOFF ENCROACHMENT Street Classification Maximum Encroachment Local (includes places, alleys. No curb -topping. t Flow may spread to marginal access) crown of street Collector No curb -topping. t Flow spread must leave at least one lane width free of water Major Arterial No curb -topping. t Flow spread must leave at least one-half (1 /2) of roadway width free of water in each direction t Where no curbing exists, encroachment shall not extend over property lines. 4.2.2.2Theoretical Capacity Once the allowable pavement encroachment has been established, theoretical gutter capacity shall be computed using the following revised Manning's equation for flow in shallow triangular channels: 0=0.56ZS'"2yM Where o = Theoretical Gutter Capacity, cfs y = Depth of Flow at Face of Gutter, feet n = Roughness Coefficient S = Channel Slope, feet/feet Z = Reciprocal of Cross Slope, feet/feet A nomograph based on the previous equation has been developed and is included in Figure 4-1. The graph is applicable for all gutter configurations. An "n" value of 0.016 shall be used for all calculations involving street runoff. 4.2.2.3 Allowable Gutter Flow In order to calculate the actual flow rate allowable, the theoretical capacity shall be multiplied by a reduction factor. These factors are determined by the curve in Figure 4-2 entitled "Reduction Factors for -Allowable Gutter Capacity". The allowable gutter flow calculated thusly is the value to be use&in the drainage system calculations. MAY 1984 4-2 DESIGN CRITERIA 4.2.3 Major Storms The determination of the allowable street flow due to the major storm shall be based on the ® following criteria: a Theoretical capacity based on allowable depth and inundated area. e Reduced allowable flow due to velocity conditions. 4.2.3.1 Street Encroachment Table 4-2 sets forth the allowable street inundation for the major storm runoff. Table 4-2 MAJOR STORM — STREET RUNOFF ENCROACHMENT Street Classlfcatlon Maximum Encroachment • Local (includes places, alleys, marginal access & collector) Arterial and Major Arterial 4.2.3.2Theoritical Capacity Residential dwellings, public, commercial, and industrial buildings shall not be inundated at the ground line unless buildings are flood proofed. The depth of water over the crown shall not exceed 6 inches. Residential dwellings, public, commercial and industrial buildings shall not be inundated at the ground line unless buildings are flood proofed. Depth of water at the street crown shall not exceed 6 inches to allow operation of emergency vehicles. The depth of water over the gutter flowline shall not exceed 18 inches. In some cases, the 18 inch depth over the gutter flowline is more restrictive than the 6 inch depth over the street crown. For these conditions, the most restrictive of the two criteria shall govern. Manning's equation shall be used to calculate the theoretical runoff -carrying capac- ity based on the allowable street inundation. The equation will be as follows: 0 =1_486 R" S'"2 A n Where 0 = Capacity, cfs n = Roughness Coefficient R = Hydraulic Radius, AIP S = Slope, feetlfeet A = Area, feet Appropriate'n" values can be found in Table 4-3. Any values not listed should be located in the Geological Survey Water Supply Paper, 1849. Table 4-3 MANNING'S ROUGHNESS COEFFICIENTS FOR STREET SURFACES Surface Roughness Coefficient Gutter & Street ..................................... :........ ........................ 0.016 DryRubble ..:.:............. e.............................................. :......... 0.035 . Mowed Kentucky Bluegrass ................................. ....... 0.035 Rough Stony Field w/Weeds..... :........................................... 0.040 Sidewalk & Driveway............................................................ 0.016 MAY 1984 4-5 DESIGN CRITERIA E 0 APPENDIX 11I Portions of the Overall Drainage Study for Oak (Cottonwoods Farm - McClellands Basin to OVERALL DRAINAGE STUDY OAK/COTTONWOOD FARM - McCLELLANDS BASIN FORT COLLINS, COLORADO I. GENERAL LOCATION AND DESCRIPTION A. Location The Oak/Cottonwood Farm development is located in the southeast part of Fort Collins, immediately south of Harmony Road and west of Lemay Avenue. The Oak/Cottonwood Farm development consists of approximately 271.7 acres occupying the east half of Section 1, Township 6 North, Range 69 West, of the 6th Principal Meridian. See the Overall Drainage Plan in the back pocket of this report. This study will deal only with the area within the McClellands Basin, or all of the area north of the Mail Creek Irrigation Ditch. The areas south of the Mail Creek Irrigation Ditch will be addressed under a separate study. B. Description of Property The Oak/Cottonwood Farm site contains two existing churches and assorted retail businesses along Harmony Road, and an existing psychiatric hospital along Lemay Avenue. The remainder of the existing site, prior to the start of construction of the single family developments, consisted of cultivated farmland and natural grasses. The Mail Creek Irrigation Canal runs across the center of the site from northwest to southeast. Topography north of the Mail Creek irrigation canal is generally sloping from northwest to southeast at approximately 1.4% . Topography south of the Mail Creek irrigation canal is generally sloping from north to south at approximately 5,7%. Mail Creek and Fossil Creek is located in the southern part of the development, generally running from west to east. A small portion of the site, planned for residential development, is located south of Mail Creek Three separate single family developments have been designed and construction started within the Oak/Cottonwood Farm development; The Upper Meadow at Miramont First and Second Filings, and Castleridge P.U.D.. Four other developments have been proposed within this Overall development, and either Final or Preliminary plans submitted to the City for review; Miramont Third Filing, Oak Hill Apartments, Tennis Center, and the Courtyards at Miramont. The developments mentioned above have been shown schematically on the overall Drainage Plan included in w'1 the back of this report. Reference should be made to each. individual Drainage reports for more specific detail associated with each project. II. DRAINAGE BASINS A. Major _Basin Description The Oak/Cottonwood Farm site lies within the McClellands Basin, the Mail Creek Basin, and the Fossil Creek Basin per the vicinity map in the appendix. The major basin delineations are also shown on the Overall Drainage Plan. II1. DRAINAGE DESIGN CRITERIA A. Regulations The City of Fort Collins Storm Drainage Design Criteria is being used for the subject site. B. Development Criteria Reference and Constraints The portion of the Oak/Cottonwood Farm site within the McClellands Basin historically drains southeasterly under Lemay Avenue and through the adjacent Oakridge development. Downstream improvements have been completed within the Oakridge development to accept a maximum storm water runoff of 119 cfs (0.5 cfs per acre) from the Oak/Cottonwood Farm site per the report titled "Master Drainage Study for the Oakridge Business Park". Detention requirements for the McClellands Master Drainage Basin have been established to be 0.20 cfs/acre for the minor, or 10 year storm event, and 0.5 cfs/acre for the major, or 100 year storm event. Detention ponds ultimately designed for the area of Oak/Cottonwood Farms within the McClellands Basin should attempt to be designed to allow for multiple release rates to accommodate both release requirements. The detention requirement for the minor storm is not a requirements within the Oak/Cottonwood Farm site (to be further explained Later in the report). C. Hydrological Criteria The SWMM model, as acquired from the Urban Drainage and Flood Control District, was utilized for the portion of the Oak/Cottonwood Farm OA site within the McClellands Basin. The adjacent Oakridge development utilized SWMM modeling for the 10 year and 100 year storm events with a different model for each storm event. Due to the number of existing and proposed detention facilities within this portion of the subject site, and the need to determine the size of the future detention ponds, a new SWMM model was developed for the Oak/Cottonwood Farm site. The 2, 5, 10, 25, 50, and 100 year rainfall events, which were obtained from the City of Fort Collins and required to be run by the City, were run for a new single SWMM model developed for the site. The new SWMM model was not.. incorporated into the existing Oakridge site SWMM model. D. Hydraulic Criteria. All calculations with this report have been prepared in accordance with the City of Fort Collins Storm Drainage Criteria.. E. Variances_ from_ Criteria. No variances are being sought for the Oak/Cottonwood Farm site. IV. DRAINAGE FACILITY DESIGN - OVERALL DRAINAGE STUDY FOR. OAK/COTTONWOOD FARM mom A. General Conceot As development continues to occurs within the Oak/Cottonwood Farm site, the drainage concepts shown on the Overall Drainage Plan in the back pocket of this report should be followed. Specific detention requirements exist in the McClellands Basin, where as the Mail Creek Basin and the Fossil Creek Basins allow for undetained storm water runoffdirectly to Mail Creek and to Fossil Creek. B. Specific Details To. the East of the Oak/Cottonwood Farm property, within the McClellands Basin, is the Oakridge Business Park and Residential Community. The appendix includes portions of the text from the Master Drainage Study for the Oakridge Business Park. Three existing 36" pipes lie beneath Lemay Avenue, approximately 3000 feet south of Harmony Road, which in effect direct the Oak/Cottonwood Farm storm water runoff to the Oak.ridge property. Within the Oakridge development, the Storm Water Management Model (SWMM) was utilized to model the anticipated storm water runoff. Within the Oakridge Master Drainage. Study, SWMM modeled the proposed Oak/Cottonwood Farm development with a 100 year developed storm water release rate of 0.5 cfs per acre. The Oakridge development 10 year SWMM model did not include any site specific detention requirements for the Oak/Cottonwood Farm development. This is due to the existing detention pond within the Oakridge development and its ability to control and adequately bring the 10 year release rate within the McClellands Basin, at this location, to the allowable 0.2 cfs per acre discharge. Thus the 10 year detention control of 0.2 cfs per acre within the McClellands Basin is not necessary for the Oak/Cottonwood Farm development. The SWMM model developed for the Oakridge development consisted of two different models, one model for the 10 year and one model for the 100 year storm events. The .numbering scheme is different in the two SWMM models. The City Stormwater Utility now requires that SWMM models route the 2, 5, 10, 25, 50, and 100 year rainfall events. Due to the differences in the Oakridge SWMM model elements for the different storm events, and the complexity of the Oak/Cottonwood Farm development, a new SWMM model has been developed, independent of the Oakridge SWMM model, for the Oak/Cottonwood Farm development. The new SWMM model utilizes the same hydrological assumptions and criteria that the Oakridge SWMM model utilized, but the numbering of the basins and elements has changed. The Oak/Cottonwood Farm SWMM model study area was broken up into sub -basins per the developments proposed in each sub -basins as shown on the Overall Drainage Plan. Included in the appendix is a SWMM schematic for the Oak/Cottonwood Farm development. In addition to the SWMM schematic, the SWMM model numbers have been included on the Overall Drainage Plan for ease of reference. The SWMM model includes previously developed areas draining through the Oak/Cottonwood Farm site as these areas also drain to the three existing 36 pipes under Lemay Avenue. Information was obtained on the drainage characteristics of the existing developments within the SWMM area modeled. The SWMM model was calibrated using the basin widths as a physical parameter, per the City of Fort Collins Stormwater Utility. For the Pace Membership Warehouse, the Builders Square site and the Steele's Market site numerous detention ponds exist on these properties. . The two basins defining these existing developments were not broken down to show each of the numerous detention ponds on the sites. The basins were calibrated to release runoff to the Oak/Cottonwood Farm development at the projected* design rates of these sites. For the Collinswood Treatment Complex immediately north of the existing 36" 4 pipes, the SWMM model was also calibrated to release runoff from this property at a target design rate for the site. Once the SWMM model was calibrated for the existing developments within the study area, the study area was evaluated in reference to the required 0.5 cfs per acre ,100 year storm event, release rate. Future detention pond sites were planned with the Client to the best extent possible in order to determine how the study area would drain. Each detention pond system was modeled with a release rate of 0.5 cfs per acre during a 100 year storm event. The off -site residential neighborhood to the west of the Oak/Cottonwood Farm site drains southeasterly and through the first planned development in the Oak/Cottonwood Farm. site. The extent of this off -site area was estimated to be 14.75 acres per the Mail Creek. Hydrologic Information drawing by Water Engineering & Technology, Inc. dated 2-29-90. For this report, it has been assumed that the separation between the Mail Creek Basin and the McClellands Basin has been shown correctly on the Mail Creek Hydrologic Information drawing. Per a conversation with the City Stormwater Utility, it was learned that within the Mail Creek Basin it was assumed during storm events that the Mail Creek Ditch is flowing full and land above the Ditch will sheet flow storm water directly over the Ditch and downstream to Mail Creek. Per a meeting with John Moen (Ditch Rider of the Mail Creek Ditch) the Mail Creek irrigation ditch has no available capacity for storm water runoff and during a storm event storm water runoff sheet flows directly over the Mail Creek irrigation ditch. This off -site storm water runoff from the 14.75 acres of existing residential neighborhood only has a minor impact to the Oak/Cottonwood Farm site and these off -site flows are collected in the First Filing development as .discussed later in this report. Included on the Overall Drainage Plan is a summary table of the proposed detention ponds. their required capacities, and their maximum allowable release rates (Summarized below). The detention pond capacities were sized with the anticipated type of development contributory to the ponds at the time of this report. As the development of these sites progresses to final design, the SWMM model should be updated to finalize the size of each detention pond per its final. type of development. Outflow from each pond shall utilize a rating curve based on the ultimate pond configuration. The rating curves for detention ponds 321 (Associated with Miramont First Filing), and _Detention pond 340 (Associated partly with Miramont Second Filing) have been included in. the model with this update. Minimum Maximum Detention Pond Storage Outflow 303 0.6 ac.ft 3.0 cfs 306 1.0 ac.ft 4.0 cfs 313 (5c� Re.►�s�l) 4.2 ac.ft 22.0 cfs 321 �'�a D 3.5 ac.ft 7.0 cfs 322 ��,)54 2.1 ac.ft 11.0 cfs 340 hr%t O 4.9 ac.ft 66.0 cfs Detention ponds 322 and 306 have not been modeled with a* rating curve, but with a pipe outlet preliminarily sized to approximate a release rate of 0.5 cfs per acre. As final design occurs around these ponds, a rating curve should be built into the model to better approximate actual conditions. The reader should be advised that with the insertion of a rating curve into the 'model, the required minimum pond size can be expected to be increased. With this update, the SWMM model parameters for Basin 201 were modified to reflect a higher impervious factor. This caused the require storage volume of Existing pond 321, located between Miramont 1 st and 2nd Filing to increase. A drainage certification has been performed on Miramont 1 st Filing, and the actual volume of the pond constructed was found to be approximately 3.8 ac.ft., or large enough to account for this change in model parameters. The model also shows a detention requirement for conveyance elements 301, 303, 307, and 311. The. following methodologies were applied during the modeling of these conveyance elements: Element 301 - Steele's sites (Basin 204) Per the Harmony Market 3rd Filing drainage report, the designed release rate at this location is 24 cfs. No SWMM model rating curves are available for the detention ponds existing within this basin. For the SWMM modeling herein, a conveyance element was derived which modeled the maximum release rate of 24 cfs occurring from this basin, and caused water over and above this release rate to be detained at the upstream end of the conveyance element. This way of modeling the existing facilities enables the model to realize the intended release rate at this location so the downstream systemanalysis can be completed utilizing the full upstream impact. Per 'the SWMM Model output, the water detained at conveyance element 301 is 1.3 ac.ft.. The actual 6 detention volume. available within basin 204 based on field verification is 3.4 ac.-ft.. Because the existing available volume is greater than the required volume per the SWMM Model, this method of modeling Basin 204 is adequate. Element 307 - Pace and Builders Square (Basin 203) Per the Harmony Market 2nd Filing drainage report, the designed release rate at this location is 6 cfs. No SWMM model rating curves are available for the detention ponds existing within this basin. For the SWMM modeling herein, a conveyance element was derived which modeled the maximum release rate of 6 cfs occurring from this basin, and caused water over and above this release rate to be detained at the upstream end of the conveyance element. This way of modeling the existing facilities enables the model to realize the intended release rate at this location so the downstream system analysis can be completed utilizing the full upstream impact. Per the SWMM Model output, the water detained at conveyance element 307 is 5.3 ac.ft.. The actual detention - volume available within basin 203 based on field verification is 8.0 ac.-ft.. Because the existing available volume is greater than the required volume per the SWMM Model, this method of modeling Basin 203 is adequate. Element 303 - Church Site (Basin 205) No SWMM model rating curves are available for the detention pond existing within this basin. For the SWMM modeling herein, a conveyance element was derived which modeled the maximum release rate of 0.5 cfs/acre occurring from this basin per the criteria within the McClellands Basin, and caused water over and above this release rate to be detained at the upstream end of the conveyance element. This way of modeling the existing facilities enables the model to realize the intended release rate at this location so the downstream system analysis can be completed utilizing .the full upstream impact. The actual detention volume available within basin 205 by a field verification is outside the scope of this project. Element 311 - Collinswood Treatment Complex (Basin 207) No SWMM model rating curves are available for the detention pond existing within this basin. For the SWMM modeling herein, a conveyance element was derived which modeled the maximum 7 release rate of 0.5 cfs/acre occurring from this basin per the criteria within the McClellands Basin, and caused water over and above this release rate to be detained at the upstream end of the conveyance element. This way of modeling the existing facilities enables the model to realize the intended release rate at this location so the downstream system analysis can be completed utilizing the full upstream. impact. The actual detention volume available within basin 207 by a field verification is outside the scope of this project. A network of storm sewers and channels exist along the west side of Lemay Avenue, and along the westerly property line of the Hospital and Church, and these systems transports stormwater runoff from the Pace Membership Warehouse, Builders Square, Steele's Market, Church, and Collinswood Treatment Complex to the existing 36" pipes under Lemay Avenue. As the Tennis center project is final designed, those existing conveyance elements, particularly those associated with the easterly property line of the Tennis center should be examined to determine the effects of development. This system will need to be extended across a portion of the Oak/Cottonwood Farm site to the existing 36" pipes. For master planning purposes, the outlet to detention pond number 313 is proposed to be connected into the existing storm sewer system on the west side of Lemay Avenue and routed directly into the existing 36" culvert under Lemay Avenue. The original Overall Drainage Plan showed Detention pond being located over towards the southwesterly corner of the existing Hospital site. During construction of The Upper Meadow at Miramont first Filing, it was determined that pond 313 would be located adjacent to Boardwalk Drive. This shift caused the contributory area to Pond 313 to decrease, and the contributory area for Pond 340 to increase. The future Park site will now have detention provided within Detention pond 340. The shift in the location of the pond was discussed with the Parks and Recreation Department. Detention pond 313 will also have a permanent water surface to store irrigation water forthe adjacent residential developments. The SWMM model and the overall drainage plan reflect the shift in pond 313. With the development of the first residential community within the Oak/Cottonwood Farm Development, titled The Upper Meadow at Miramont First Filing, the construction of Boardwalk Drive from Oakridge Drive to Lemay Avenue was required. With the development of Boardwalk Drive, and the need•for the developable land lying west and southwest of Boardwalk Drive to drain under Boardwalk Drive and to the 1:1 existing 36" culverts under Lemay Avenue, a second drainage system was master planned along Boardwalk. A series of storm sewers and open channels was constructed along Boardwalk from the existing 36" storm sewers under Lemay Avenue, upstream to Oakridge Drive. A detention pond was planned and partially constructed for the property in the northwest corner of the Oak/Cottonwood Farm site with an 18" storm sewer outlet to release runoff at the required 0.5 cfs per acre. On the Overall Drainage Plan a storm sewer system has been shown in Boardwalk Drive to transport the northwestern detention pond outlet flows to the downstream storm sewer and open channel system. This system was built according to this overall plan. At the time of this update, Detention pond 322 will outlet onto Boardwalk Drive and be conveyed by curb and gutter to the storm sewer system (a combination of pipes and open channels). An agreement between GT Land and Front fRange Baptist Church exists that limits the release from basin 202 to 5.57 cfs for the 10 year storm event and 11.45 cfs for the 100 year storm event (Based on the capacity of Boardwalk Drive Curb and Gutter). Detention pond 321 will outlet on the west side of Boardwalk and be conveyed downstream to Lemay Avenue by the same series of pipes and open channels. A copy of this agreement has been included in the appendix of this report. The storm sewer system in Boardwalk Drive was sized to carry the 25 year storm runoff event due to the location of the proposed high and low points in Boardwalk Drive. As storm events occur greater than the 25 year storm event, minor ponding is planned to occur at the low points. In the event the storm sewer systems become plugged, overflow swales have been provided to redirect storm water runoff to the proposed open channel system to safely convey storm water runoff to the proposed detention pond number 340 and the existing 36" culverts under Lemay Avenue. In order to achieve the required 0..5 cfs per acre release at the existing 36" culverts under Lemay Avenue, detention pond number 340 is planned immediately upstream of the 36" culverts. During final design of this detention pond, the hydraulics of the connection from the detention pond to the existing 36" culverts will need to be worked out to ensure the 0.5 cfs per acre release rate is not exceeded. A preliminary rating curve based on the proposed ultimate design of this pond has been included in the model, and the calculations are included in the appendix of this report. The rating curve included is based on the existing 36" pipes under Lemay being built according to plan, and that rating curve is a preliminary design only. As pond 340 is finalized, these existing 36" culverts will need to be reevaluated and the new rating curves based on ® 9 actual field conditions. The pond 340 size will need to be reexamined & downstream flows to Oakridge will need to be decreased to 119 cfs (the model currently shows a release to Oakridge of 129 cfs). Pond 340 will need to be permanently designed when the area of the Overall plan known as the Hamlet is developed, (the Hamlet was defined as a part of the Miramont Phase 3 Preliminary Plan), or basin 213 is developed. V. EROSION. CONTROL A. General Concept The Oak/Cottonwood Farm site lies within the Moderate and High Rainfall Erodibility Zone and. within the Low to Moderate Wind Erodib.ility Zone per the City of Fort Collins zone maps. Per the City of Fort Collins Erosion Control Reference Manual for Construction Sites, at the time of final design of the site, the erosion control performance standard will need to be calculated and appropriate measures taken to control erosion from the site. VI. CONCLUSIONS A. Compliance with. Standards 41 All computations within this report have been completed in compliance with the City of Fort Collins Storm Drainage Design Criteria.. B. Drainage Concept The proposed drainage concepts adequately provide for the transmission of developed on -site runoff to the proposed detention facilities. The sizes and locations of each detention pond within the study area will enable the Oak/Cottonwood Farm site to develop in conformance with the McClellands; Mail Creek and Fossil Creek Basin requirements. The street systems will need to convey storm water runoff to the downstream outlets without exceeding the capacities of the street conveyance systems. If the street capacities are exceed, storm sewer systems may be required to transport storm water runoff to the downstream outlets. Per the City criteria, only the initial storm event is required to be transported to the downstream outlets by storm sewer systems once the street systems become overloaded. City requirements for the transportation of the 100 year developed flows must also be observed and complied with. Each of the on -site detention ponds in the McClellands Basin will be required to provide one foot of freeboard and 10. l an emergency overflow outlet in,the event the outlet structure and pipe become plugged. All on -site drainage facilities will be maintained by a homeowners association, or other entity created by the developer. The City of Fort Collins will maintain the storm sewer systems located within dedicated right-of-ways. REFERENCES 1. Storm Drainage Design Criteria and Construction Standards by the City of Fort Collins, Colorado, May 1984. 2. Erosion Control Reference Manual for Construction Sites by the City of Fort Collins, Colorado, January 1991. 3. Master Drainage Study for the Oakridge Business Park in Fort Collins, Colorado, by RBD Inc., September 1990. 4. Final Drainage and Erosion Control Study for The Upper Meadow at Miramont First Filing, Fort Collins, Colorado, by RBD, Inc., November 10, 1992. 5. Final Drainage and Erosion Control Study for The Upper Meadow at Miramont Second Filing, -Fort Collins, Colorado, by RBD, Inc. 6. Final Drainage and Erosion Control Study for Castleridge at Miramont First Filing, Fort Collins, Colorado, by RBD, Inc., October 7, 1993. 7. Preliminary Design Report for Mail Creek Stability Study, by L-idstone and Anderson & TST, Inc., January 28, 1994. 8. Preliminary Drainage and Erosion Control Study for Miramont 3rd Phase P.U.D., Fort Collins, Colorado, by RBD, Inc., February 4, 1994. 9. Final Drainage and Erosion Control Study for Miramont P.U.D. Third Filing, Fort Collins, Colorado, by RBD, Inc., April 4, 1994. 10. Preliminary Drainage and Erosion Control Plan for the Oak Hill Apartments, Fort Collins, Colorado, by RBD, Inc., February 4, 1994 11 CLIENT KA I AMnkrr L{--4 3INC PROJECT�,t -lS,'» CALCULATIONS FOR _�1�/11`A It /Ic�f�Ct Engineering Consultants MADE BY�DATE '+•�CHECKEDBY DATE SHEET12f2_OF r. : : Gp1!lV�Y4�J Zos oND t t. . i .. 320 t 323 + 4._ 3ZI t r �9 t i Z14 _ .... r %011 771 .: CLIENT Ne 1f,041G bV-E/9L- JOB NO. •' OX -ao / PROJECT 27262w00o - CALCULATIONSFOR Engineering Consultants MADE BY KwG DATE'/ L HECKEDBY DATE SHEET OF L DETE72M/wE BAS/.V 'PA,PA•METeR3 __ t 64. GA7CNME�JT. ; 7D 77e/B• - IU(iM BER W/OT/!• i9GkE5 ../r1P ScoPE._.. _.� - 1 j_ 700 50 ��.:. a + 903 .ZS O' 7, oo. . / ODi SO _....... S9o': 65-0.1 7.70 :: 70 O, 900i 1 I .... { . 2d,7 1. 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'.r • I i t i t t_ I i y.... 1. i L4.. j 1 i i-' r �•Y•7 ! i } r .'+`-._J c .! 1 �.s !.- ice. t Li-.- _1,a... �...-•1-• •+ 1 t• ;• f_ i .I..7..,..r } t } ; .i. t 1 •. � i . - ---� •--�•'�•11-i-+ �•-�-I-1 r -j j + }-i1 j, .j,.T.i.l..j. t I .t l f-T-•k-i•+-r �.a •-+-. }._. •—.r-�__............ _� .1 •'�-i:,{ i 7 •j- 1, '- i ?_� t y..� _L T } i . t , t r • .. 1 «. i .4-•: ,' ..1 1_ .(. � -1_j_L 1 L -�. a ! + s � y. i . • .! t I 1 -r t , i i , i•� •1 1. t l l ! i t 1 1 •, 1 APPENDIX IV Stuffier Envelope Drainage and Erosion Control Plan Preliminary Drainage and Erosion Control Plan (Overall area; for reference) Final Grading Plan for Courtyards atMiramont Second Filing Erosion Control Security Deposit Requirements I& April 24, 1995 Project No; 1410-01-94 Re: EROSION CONTROL SECURITY DEPOSIT REQUIREMENTS: The Cottages at Miramont P.U.D.; Fort Collins, Colorado A. An erosion control security deposit is required in accordance with City of Fort Collins policy (Chapter 7, Section C SECURITY; page 7.23 of the City of Fort Collins Development Manual). In no instance shall the amount of the security be less than $1000.00. 1. According to current City of Fort Collins policy, the erosion control security deposit is figured based on the larger amount of 1.5 times the estimated cost of installing the approved erosion control measures or 1.5 times the cost to re -vegetate the anticipated area to be disturbed by construction activity.. a The cost to install the proposed erosion control devices for the Courtyards at Miramont P.U.D., Second Filing is $2,525.00. 1.5 times this estimate is $ 3,787.50. i. unit prices have been provided by Connell Resources. b. Based on current data provided by the City of Fort Collins Storm Water Utility, and based on an actual anticipated net affected disturbed area during construction of the The Cottages at Miramont P.U.D.. (approximately 2.22 acres) we estimate that the cost to re -vegetate the disturbed area will be $1,430.00 ($650.00 per acre x 2.20 acres). 1.5 times the cost to re -vegetate the disturbed area is $2,145.00. i. The 2.22 acres is the actual area of the The Cottages at Miramont P.U.D., housing project. ii. The $650.00 per acre for re -seeding sites of less than 10 acres was quoted to us by the City of Fort Collins Storm Water Utility staff. CONCLUSION: The erosion control security deposit amount required for this project will be $ 3,787.50. Because of the anticipated construction phasing, separate erosion control deposit amounts may be established for the phase to be constructed. 4836 S. College, Suite 12 Fort Collins; CO 80525 (303)22&5334