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Home My WebLink AboutFORT COLLINS HOTEL (DOWNTOWN HOTEL) - PDP - PDP150008 - SUBMITTAL DOCUMENTS - ROUND 1 - DRAINAGE REPORTJune 24, 2015 PRELIMINARY DRAINAGE AND EROSION CONTROL REPORT FOR FORT COLLINS HOTEL Fort Collins, Colorado Prepared for: Bohemian Companies & Mcwhinney Prepared by: 200 South College Avenue, Suite 10 Fort Collins, Colorado 80524 Phone: 970.221.4158 Fax: 970.221.4159 www.northernengineering.com Project Number: 947-002  This Drainage Report is consciously provided as a PDF. Please consider the environment before printing this document in its entirety. When a hard copy is absolutely necessary, we recommend double-sided printing. June 24, 2015 City of Fort Collins Stormwater Utility 700 Wood Street Fort Collins, Colorado 80521 RE: Preliminary Drainage and Erosion Control Report for FORT COLLINS HOTEL Dear Staff: Northern Engineering is pleased to submit this Preliminary Drainage and Erosion Control Report for your review. This report accompanies the Project Development Plan submittal for the proposed Fort Collins Hotel. This report has been prepared in accordance to Fort Collins Stormwater Criteria Manual (FCSCM), and serves to document the stormwater impacts associated with the proposed project. We understand that review by the City is to assure general compliance with standardized criteria contained in the FCSCM. If you should have any questions as you review this report, please feel free to contact us. Sincerely, NORTHERN ENGINEERING SERVICES, INC. Aaron Cvar, PE Project Engineer Fort Collins Hotel Preliminary Drainage Report TABLE OF CONTENTS I. GENERAL LOCATION AND DESCRIPTION ................................................................... 1 A. Location ............................................................................................................................................. 1 B. Description of Property ..................................................................................................................... 2 C. Floodplain.......................................................................................................................................... 3 II. DRAINAGE BASINS AND SUB-BASINS ....................................................................... 4 A. Major Basin Description .................................................................................................................... 4 B. Sub-Basin Description ....................................................................................................................... 5 III. DRAINAGE DESIGN CRITERIA ................................................................................... 5 A. Regulations........................................................................................................................................ 5 B. Four Step Process .............................................................................................................................. 5 C. Development Criteria Reference and Constraints ............................................................................ 6 D. Hydrological Criteria ......................................................................................................................... 6 E. Hydraulic Criteria .............................................................................................................................. 6 F. Modifications of Criteria ................................................................................................................... 6 IV. DRAINAGE FACILITY DESIGN .................................................................................... 7 A. General Concept ............................................................................................................................... 7 B. Specific Details .................................................................................................................................. 7 V. CONCLUSIONS ........................................................................................................ 8 A. Compliance with Standards .............................................................................................................. 8 B. Drainage Concept .............................................................................................................................. 9 APPENDICES: APPENDIX A.1 - Historic Conditions Hydrologic Computations APPENDIX A.2 - Developed Conditions Hydrologic Computations APPENDIX B.1 - Erosion Control Report APPENDIX C.1 - Base Flood Elevation Analysis Fort Collins Hotel Preliminary Drainage Report LIST OF FIGURES: Figure 1 – Aerial Photograph ................................................................................................ 2 Figure 2– Proposed Site Plan ................................................................................................ 3 Figure 3 – Existing Floodplains ............................................................................................. 4 MAP POCKET: Proposed Drainage Exhibit Fort Collins Hotel Preliminary Drainage Report 1 I. GENERAL LOCATION AND DESCRIPTION A. Location Vicinity Map 1. The project site is located in the southwest quarter of Section 12, Township 7 North, Range 69 West of the 6th Principal Meridian, City of Fort Collins, County of Larimer, State of Colorado. 2. The project site is located just north of the intersection of Walnut Street and Mountain Avenue. 3. The project site lies within the Old Town Basin. A small portion of the site drains to the storm sewer system in Walnut Street, which is conveyed south to Oak Street and then the Udall water quality treatment area. The majority of the site drains into the existing storm sewer system in Chestnut Street, which conveys flows into the Cache La Poudre River. The Downtown River District Final Design Report, by Ayres 2012 (Ref. 5), shows the majority of the site conveyed via sheet flow into the Chestnut Street storm system (Basin 106). As long as existing site runoff rates are not increased, detention is not required for the site. However, the site still must provide meet current City Low Impact Design (LID) requirements. Several water quality treatment methods are proposed for the site, and are described in further detail Fort Collins Hotel Preliminary Drainage Report 2 below. 4. As this is an infill site, the area surrounding the site is fully developed. 5. No offsite flows enter the site from the south, west, or east. A small area to the northwest of the site sheet flows onto the site. This area has been broken into two offsite basins, which is described further in Section IV.A, below. B. Description of Property 1. The development area is roughly 2.4 net acres. Figure 1 – Aerial Photograph 2. The subject property is currently composed of existing buildings, and landscaped areas. Existing ground slopes are mild to moderate (i.e., 1 - 6±%) through the interior of the property. General topography slopes from northwest to southeast. 3. According to the United States Department of Agriculture (USDA) Natural Resources Conservation Service (NRCS) Soil Survey website: http://websoilsurvey.nrcs.usda.gov/app/WebSoilSurvey.aspx, the site consists of Paoli fine sandy loam (Hydrologic Soil Group A), and Santana loam (Hydrologic Soil Group B). 4. The proposed project site plan is composed of the development of a hotel and parking lot. Associated site work, water, and sewer lines will be constructed with the development. Current City Low Impact Design (LID) requirements will be implemented with the project, and will consist of several LID features which are discussed in Section IV, below. Fort Collins Hotel Preliminary Drainage Report 3 Figure 2– Proposed Site Plan 5. There are no known irrigation laterals crossing the site. 6. The proposed land use is a downtown hotel development. C. Floodplain 1. The project site is not encroached by any City or FEMA designated 100-year floodplain. However, the City of Fort Collins Stormwater Utility has identified areas adjacent to the site as a 100-year flood risk zone. The adjacent Walnut Street and Chestnut Street have been studied for flood risk, and base flood elevation in these adjacent streets has been analyzed. Appendix C provides a summary of the analysis performed to determine base (100-year) flood elevation in adjacent street Right of Way, which is intended to be utilized for the design of finished floor elevation or flood proofing at Final design. Fort Collins Hotel Preliminary Drainage Report 4 Figure 3 –Area Floodplain Mapping 2. A minimum of 12-inches of freeboard will be provided at Final design from base (100-year) flood elevation in adjacent Right of Way. This freeboard level will be applied to either the design of finished floor elevations, or the minimum level of flood proofing measures. II. DRAINAGE BASINS AND SUB-BASINS A. Major Basin Description 3. The project site lies within the Old Town Basin. Generally, detention requirements for this basin are to detain the difference between the 100-year developed inflow rate and the historic 2-year release rate. However, a portion of the site drains to the storm sewer system in Walnut Street, which is conveyed south to Oak Street and then the Udall water quality treatment area. The remainder of the site drains into the existing storm sewer system in Chestnut Street, which conveys flows into the Cache La Poudre River. As long as existing site runoff rates are not increased, detention is not required for the site. The site still must meet current City Low Impact Design (LID) requirements. Several LID treatment methods are proposed for the site, and are described in further detail below. Fort Collins Hotel Preliminary Drainage Report 5 B. Sub-Basin Description 1. The subject property historically drains overland from northwest to southeast. Runoff from the majority of the site has historically been collected in existing inlets located within Walnut Street and Chestnut Street. 2. A more detailed description of the project drainage patterns is provided below. III. DRAINAGE DESIGN CRITERIA A. Regulations There are no optional provisions outside of the FCSCM proposed with the proposed project. B. Four Step Process The overall stormwater management strategy employed with the proposed project utilizes the “Four Step Process” to minimize adverse impacts of urbanization on receiving waters. The following is a description of how the proposed development has incorporated each step. Step 1 – Employ Runoff Reduction Practices Several techniques have been utilized with the proposed development to facilitate the reduction of runoff peaks, volumes, and pollutant loads as the site is developed from the current use by implementing multiple Low Impact Development (LID) strategies including: Conserving existing amenities in the site including the existing vegetated areas. Providing vegetated open areas throughout the site to reduce the overall impervious area and to minimize directly connected impervious areas (MDCIA). Routing flows, to the extent feasible, through vegetated swales to increase time of concentration, promote infiltration and provide initial water quality. Step 2 – Implement BMPs That Provide a Water Quality Capture Volume (WQCV) with Slow Release The efforts taken in Step 1 will facilitate the reduction of runoff; however, urban development of this intensity will still generate stormwater runoff that will require additional BMPs and water quality. The majority of stormwater runoff from the site will ultimately be intercepted and treated using extended detention methods prior to exiting the site. Step 3 – Stabilize Drainageways There are no major drainageways within the subject property. While this step may not seem applicable to proposed development, the project indirectly helps achieve stabilized drainageways nonetheless. By providing water quality treatment, where none previously existed, sediment with erosion potential is removed from downstream drainageway systems. Furthermore, this project will pay one-time stormwater development fees, as well as ongoing monthly stormwater utility fees, both of which help achieve City-wide drainageway stability. Step 4 – Implement Site Specific and Other Source Control BMPs. The proposed project will improve upon site specific source controls compared to historic conditions: Fort Collins Hotel Preliminary Drainage Report 6 The proposed development will provide LID features which enhance water quality; thus, eliminating sources of potential pollution previously left exposed to weathering and runoff processes. C. Development Criteria Reference and Constraints The subject property is surrounded by currently developed properties. Thus, several constraints have been identified during the course of this analysis that will impact the proposed drainage system including: Existing elevations along the property lines will generally be maintained. As previously mentioned, overall drainage patterns of the existing site will be maintained. Elevations of existing downstream facilities that the subject property will release to will be maintained. D. Hydrological Criteria 1. The City of Fort Collins Rainfall Intensity-Duration-Frequency Curves, as depicted in Figure RA-16 of the FCSCM, serve as the source for all hydrologic computations associated with the proposed development. Tabulated data contained in Table RA-7 has been utilized for Rational Method runoff calculations. 2. The Rational Method has been employed to compute stormwater runoff utilizing coefficients contained in Tables RO-11 and RO-12 of the FCSCM. 3. Three separate design storms have been utilized to address distinct drainage scenarios. A fourth design storm has also been computed for comparison purposes. The first design storm considered is the 80th percentile rain event, which has been employed to design the project’s water quality features. The second event analyzed is the “Minor,” or “Initial” Storm, which has a 2-year recurrence interval. The third event considered is the “Major Storm,” which has a 100-year recurrence interval. The fourth storm computed, for comparison purposes only, is the 10-year event. 4. No other assumptions or calculation methods have been used with this development that are not referenced by current City of Fort Collins criteria. E. Hydraulic Criteria 1. As previously noted, the subject property maintains historic drainage patterns. 2. All drainage facilities proposed with the project are designed in accordance with criteria outlined in the FCSCM and/or the Urban Drainage and Flood Control District (UDFCD) Urban Storm Drainage Criteria Manual. 3. As stated above, the subject property is not located in a City or FEMA designated floodplain. The proposed project does not propose to modify any natural drainageways. F. Modifications of Criteria 1. The proposed development is not requesting any modifications to criteria at this time. Fort Collins Hotel Preliminary Drainage Report 7 IV. DRAINAGE FACILITY DESIGN A. General Concept 1. The main objectives of the project drainage design are to maintain existing drainage patterns, and to ensure no adverse impacts to any adjacent properties. 2. Onsite LID features will be provided and will enhance water quality. These measures are discussed further below. 3. Drainage patterns anticipated for drainage basins shown in the Drainage Exhibit are described below. Drainage basins have been defined for preliminary design purposes and are subject to change at Final design; however, general drainage patterns and concepts are not expected to be significantly altered. Basins 1a through 1c Basins 1a through 1c will generally drain via overland flow and roof drains into proposed LID features and then into existing storm drain systems within Walnut Street and Chestnut Street. Basin 2 Basin 2 will generally drain via sheet flow into LID features and a series of proposed area drains which will tie to the existing storm drain system within Chestnut Street. Please see further discussion of LID features in Section IV.B, below. Basins OS1, OS2 Basins OS1 and OS2 consist of areas to the north of the project site which sheet flow towards the site. Basin OS1 will be conveyed through the site via the existing alleyway (which will be improved) running in between the hotel portion of the site and the parking area. Basin OS2 will be conveyed along the north side of the proposed parking area and flow north into the adjacent Jefferson Street. Basins OS3 through OS5 Basins OS3 through OS5 consist of adjacent Rights of Way of Walnut Street, Chestnut Street, and Mountain Avenue. Basin OS3 will drain via sheet flow and curb and gutter into an improved inlet to be constructed in Walnut Street, which will tie to the existing storm line in Chestnut Street. Basin OS4 will drain via sheet flow and curb and gutter into improved inlets to be constructed in Chestnut Street, which will tie to the existing storm line in Chestnut Street. Basin OS5 will drain via sheet flow and curb and gutter into the existing curb and gutter of Mountain Avenue. A full-size copy of the Drainage Exhibit can be found in the Map Pocket at the end of this report. Runoff computations for these basins based on the Rational Method is provided in Appendix A. B. Specific Details 1. Low Impact Design (LID) measures will be incorporated into the site design which will consist of permeable paver fields placed at key on-site locations within the development area. Design of the paver fields will include subdrain systems draining into the adjacent Chestnut Street storm drain. Details of this design will be provided at Final design. Preliminary locations of paver fields are noted on the Drainage Exhibit. Fort Collins Hotel Preliminary Drainage Report 8 2. The following table summarizes proposed LID features and overall percentage of the basin being treated by the proposed LID features. Table 1 – LID Summary 50% On-Site Treatment by LID Requirement New Impervious Area 1.670 Ac. Paver Area 0.208 Ac. Traditional Pavement Area 0.830 Ac. Other Impervious Surfaces (Roofs, Concrete Walks, etc.) 0.632 Ac. Required Minimum Impervious Area to be Treated 0.835 Ac. Area of Pavers 0.208 Ac. Run-on area for Pavers (parking area) 0.830 Ac. Run-on area for Pavers (other - concrete walks, etc.) 0.080 Ac. Impervious Area Treated by LID Pavers 1.118 Ac. Total Impervious Area Treated 1.118 Ac. Percent of Impervious Area Treated 66.92 % 25% Permeable Pavement Requirement New Pavement Area 36154 Sq. Ft. Required Minimum Area of Permeable Pavement 9039 Sq. Ft. Total Permeable Pavement Area 9039 Sq. Ft. Actual % of Permeable Pavement Provided 25.0 % 3. Final design details, construction documentation, and Standard Operating Procedures (SOP) Manual shall be provided to the City of Fort Collins for review prior to Final Development Plan approval. A final copy of the approved SOP manual shall be provided to City and must be maintained on-site by the entity responsible for the facility maintenance. Annual reports must also be prepared and submitted to the City discussing the results of the maintenance program (i.e. inspection dates, inspection frequency, volume loss due to sedimentation, corrective actions taken, etc.). 4. Proper maintenance of the drainage facilities designed with the proposed development is a critical component of their ongoing performance and effectiveness. V. CONCLUSIONS A. Compliance with Standards 1. The drainage design proposed with the proposed project complies with the City of Fort Collins’ Stormwater Criteria Manual. 2. The drainage design proposed with this project complies with requirements for the Old Town Basin. 3. The drainage plan and stormwater management measures proposed with the Fort Collins Hotel Preliminary Drainage Report 9 proposed development are compliant with all applicable State and Federal regulations governing stormwater discharge. B. Drainage Concept 1. The drainage design proposed with this project will effectively limit any potential damage associated with its stormwater runoff by compliance with requirements set forth in current City master plans. 2. The drainage concept for the proposed development is consistent with requirements for the Old Town Basin and the Downtown River District Final Design Report. References 1. Fort Collins Stormwater Criteria Manual, City of Fort Collins, Colorado, as adopted by Ordinance No. 174, 2011, and referenced in Section 26-500 (c) of the City of Fort Collins Municipal Code. 2. Larimer County Urban Area Street Standards, Adopted January 2, 2001, Repealed and Reenacted, Effective October 1, 2002, Repealed and Reenacted, Effective April 1, 2007. 3. Soils Resource Report for Larimer County Area, Colorado, Natural Resources Conservation Service, United States Department of Agriculture. 4. Old Town Master Drainage Plan, Baseline Hydraulics, Volume II, Anderson Consulting, July 15, 2003. 5. Downtown River District Final Design Report, Ayres, February 2012. 6. Urban Storm Drainage Criteria Manual, Volumes 1-3, Urban Drainage and Flood Control District, Wright-McLaughlin Engineers, Denver, Colorado, Revised April 2008. APPENDIX A.1 HISTORIC CONDITIONS HYDROLOGIC COMPUATIONS CHARACTER OF SURFACE: Runoff Coefficient Percentage Impervious Project: 947-002 Streets, Parking Lots, Roofs, Alleys, and Drives: Calculations By: ATC Asphalt ……....……………...……….....…...……………….…………………………………. 0.95 100% Date: Concrete …….......……………….….……….………………..….……………………………… 0.95 90% Gravel ……….…………………….….…………………………..………………………………. 0.50 40% Roofs …….…….………………..……………….…………………………………………….. 0.95 90% Pavers…………………………...………………..…………………………………………….. 0.40 22% Lawns and Landscaping Sandy Soil ……..……………..……………….…………………………………………….. 0.15 0% Clayey Soil ….….………….…….…………..………………………………………………. 0.25 0% 2-year Cf = 1.00 100-year Cf = 1.25 Basin ID Basin Area (s.f.) Basin Area (ac) Area of Asphalt (ac) Area of Concrete (ac) Area of Roofs (ac) Area of Gravel (ac) Area of Lawn, Rain Garden, or Landscaping (ac) 2-year Composite Runoff Coefficient 10-year Composite Runoff Coefficient 100-year Composite Runoff Coefficient Composite % Imperv. H1a 1363 0.03 0.03 0.00 0.00 0.00 0.00 0.95 0.95 1.00 1.00 H1b 7543 0.17 0.17 0.00 0.00 0.00 0.00 0.95 0.95 1.00 1.00 H1c 34057 0.78 0.38 0.11 0.18 0.00 0.11 0.85 0.85 1.00 0.82 H2 47462 1.09 0.24 0.08 0.72 0.00 0.05 0.92 0.92 1.00 0.88 OS1 18920 0.43 0.43 0.00 0.00 0.00 0.00 0.95 0.95 1.00 1.00 OS2 10772 0.25 0.25 0.00 0.00 0.00 0.00 0.95 0.95 1.00 1.00 OS3 16862 0.39 0.33 0.06 0.00 0.00 0.00 0.95 0.95 1.00 0.98 OS4 30999 0.71 0.45 0.17 0.00 0.00 0.09 0.86 0.86 1.00 0.85 OS5 5138 0.12 0.08 0.02 0.00 0.00 0.02 0.82 0.82 1.00 0.80 Overland Flow, Time of Concentration: Project: 947-002 Calculations By: Date: Gutter/Swale Flow, Time of Concentration: Tt = L / 60V Tc = Ti + Tt (Equation RO-2) Velocity (Gutter Flow), V = 20·S½ Velocity (Swale Flow), V = 15·S½ NOTE: C-value for overland flows over grassy surfaces; C = 0.25 Is Length >500' ? C*Cf (2-yr Cf=1.00) C*Cf (10-yr Cf=1.00) C*Cf (100-yr Cf=1.25) Length, L (ft) Slope, S (%) Ti 2-yr (min) Ti 10-yr (min) Ti 100-yr (min) Length, L (ft) Slope, S (%) Velocity, V (ft/s) Tt (min) Length, L (ft) Slope, S (%) Velocity, V (ft/s) Tt (min) 2-yr Tc Rational Method Equation: Project: 947-002 Calculations By: Date: From Section 3.2.1 of the CFCSDDC Rainfall Intensity: H1a H1a 0.03 5 5 5 0.95 0.95 1.00 2.85 4.87 9.95 0.08 0.14 0.31 H1b H1b 0.17 5 5 5 0.95 0.95 1.00 2.85 4.87 9.95 0.47 0.80 1.72 H1c H1c 0.78 5 5 5 0.85 0.85 1.00 2.85 4.87 9.95 1.90 3.25 7.78 H2 H2 1.09 5 5 5 0.92 0.92 1.00 2.85 4.87 9.95 2.86 4.88 10.84 OS1 OS1 0.43 5 5 5 0.95 0.95 1.00 2.85 4.87 9.95 1.18 2.01 4.32 OS2 OS2 0.25 5 5 5 0.95 0.95 1.00 2.85 4.87 9.95 0.67 1.14 2.46 OS3 OS3 0.39 5 5 5 0.95 0.95 1.00 2.85 4.87 9.95 1.05 1.79 3.85 OS4 OS4 0.71 5 5 5 0.86 0.86 1.00 2.85 4.87 9.95 1.74 2.98 7.08 OS5 OS5 0.12 5 5 5 0.82 0.82 1.00 2.85 4.87 9.95 0.28 0.47 1.17 Area, A (acres) Intensity, i2 (in/hr) 100-yr Tc (min) HISTORIC RUNOFF COMPUTATIONS C100 Design Point Flow, Q100 (cfs) Flow, Q2 (cfs) 10-yr Tc (min) 2-yr Tc (min) C2 Flow, Q10 (cfs) Intensity, i100 (in/hr) Basin(s) ATC June 15, 2015 Intensity, i10 (in/hr) Rainfall Intensity taken from the City of Fort Collins Storm Drainage Design Criteria (CFCSDDC), Figure 3.1 C10 Q  C f  C i  A APPENDIX A.2 DEVELOPED CONDITIONS HYDROLOGIC COMPUATIONS CHARACTER OF SURFACE: Runoff Coefficient Percentage Impervious Project: 947-002 Streets, Parking Lots, Roofs, Alleys, and Drives: Calculations By: ATC Asphalt ……....……………...……….....…...……………….…………………………………. 0.95 100% Date: Concrete …….......……………….….……….………………..….……………………………… 0.95 90% Gravel ……….…………………….….…………………………..………………………………. 0.50 40% Roofs …….…….………………..……………….…………………………………………….. 0.95 90% Pavers…………………………...………………..…………………………………………….. 0.40 22% Lawns and Landscaping Sandy Soil ……..……………..……………….…………………………………………….. 0.15 0% Clayey Soil ….….………….…….…………..………………………………………………. 0.25 0% 2-year Cf = 1.00 100-year Cf = 1.25 Basin ID Basin Area (s.f.) Basin Area (ac) Area of Asphalt (ac) Area of Concrete (ac) Area of Roofs (ac) Area of Gravel (ac) Area of Lawn, Rain Garden, or Landscaping (ac) 2-year Composite Runoff Coefficient 10-year Composite Runoff Coefficient 100-year Composite Runoff Coefficient Composite % Imperv. 1a 1363 0.03 0.00 0.03 0.00 0.00 0.00 0.95 0.95 1.00 0.90 1b 7543 0.17 0.00 0.17 0.00 0.00 0.00 0.95 0.95 1.00 0.90 1c 34057 0.78 0.00 0.00 0.78 0.00 0.00 0.95 0.95 1.00 0.90 2 47462 1.09 0.83 0.01 0.00 0.00 0.25 0.79 0.79 0.99 0.77 OS1 18920 0.43 0.43 0.00 0.00 0.00 0.00 0.95 0.95 1.00 1.00 OS2 10772 0.25 0.25 0.00 0.00 0.00 0.00 0.95 0.95 1.00 1.00 OS3 16862 0.39 0.36 0.00 0.00 0.00 0.03 0.90 0.90 1.00 0.92 OS4 30999 0.71 0.22 0.57 0.00 0.00 -0.09 1.04 1.04 1.00 1.04 OS5 5138 0.12 0.09 0.02 0.00 0.00 0.01 0.89 0.89 1.00 0.90 Overland Flow, Time of Concentration: Project: 947-002 Calculations By: Date: Gutter/Swale Flow, Time of Concentration: Tt = L / 60V Tc = Ti + Tt (Equation RO-2) Velocity (Gutter Flow), V = 20·S½ Velocity (Swale Flow), V = 15·S½ NOTE: C-value for overland flows over grassy surfaces; C = 0.25 Is Length >500' ? C*Cf (2-yr Cf=1.00) C*Cf (10-yr Cf=1.00) C*Cf (100-yr Cf=1.25) Length, L (ft) Slope, S (%) Ti 2-yr (min) Ti 10-yr (min) Ti 100-yr (min) Length, L (ft) Slope, S (%) Velocity, V (ft/s) Tt (min) Length, L (ft) Slope, S (%) Velocity, V (ft/s) Tt (min) 2-yr Tc Rational Method Equation: Project: 947-002 Calculations By: Date: From Section 3.2.1 of the CFCSDDC Rainfall Intensity: 1a 1a 0.03 5 5 5 0.95 0.95 1.00 2.85 4.87 9.95 0.08 0.14 0.31 1b 1b 0.17 5 5 5 0.95 0.95 1.00 2.85 4.87 9.95 0.47 0.80 1.72 1c 1c 0.78 5 5 5 0.95 0.95 1.00 2.85 4.87 9.95 2.11 3.61 7.78 2 2 1.09 5 5 5 0.79 0.79 0.99 2.85 4.87 9.95 2.45 4.19 10.69 OS1 OS1 0.43 5 5 5 0.95 0.95 1.00 2.85 4.87 9.95 1.18 2.01 4.32 OS2 OS2 0.25 5 5 5 0.95 0.95 1.00 2.85 4.87 9.95 0.67 1.14 2.46 OS3 OS3 0.39 5 5 5 0.90 0.90 1.00 2.85 4.87 9.95 0.99 1.69 3.85 OS4 OS4 0.71 5 5 5 1.04 1.04 1.00 2.85 4.87 9.95 2.10 3.59 7.08 OS5 OS5 0.12 5 5 5 0.89 0.89 1.00 2.85 4.87 9.95 0.30 0.51 1.17 Intensity, i10 (in/hr) Rainfall Intensity taken from the City of Fort Collins Storm Drainage Design Criteria (CFCSDDC), Figure 3.1 C10 Area, A (acres) Intensity, i2 (in/hr) 100-yr Tc (min) DEVELOPED RUNOFF COMPUTATIONS C100 Design Point Flow, Q100 (cfs) Flow, Q2 (cfs) 10-yr Tc (min) 2-yr Tc (min) C2 Flow, Q10 (cfs) Intensity, i100 (in/hr) Basin(s) ATC June 15, 2015 Q  C f  C i  A APPENDIX B.1 EROSION CONTROL REPORT Fort Collins Hotel Preliminary Erosion Control Report EROSION CONTROL REPORT A comprehensive Erosion and Sediment Control Plan (along with associated details) will be included with the final construction drawings. It should be noted, however, that any such Erosion and Sediment Control Plan serves only as a general guide to the Contractor. Staging and/or phasing of the BMPs depicted, and additional or different BMPs from those included may be necessary during construction, or as required by the authorities having jurisdiction. It shall be the responsibility of the Contractor to ensure erosion control measures are properly maintained and followed. The Erosion and Sediment Control Plan is intended to be a living document, constantly adapting to site conditions and needs. The Contractor shall update the location of BMPs as they are installed, removed or modified in conjunction with construction activities. It is imperative to appropriately reflect the current site conditions at all times. The Erosion and Sediment Control Plan shall address both temporary measures to be implemented during construction, as well as permanent erosion control protection. Best Management Practices from the Volume 3, Chapter 7 – Construction BMPs will be utilized. Measures may include, but are not limited to, silt fencing along the disturbed perimeter, gutter protection in the adjacent roadways and inlet protection at existing and proposed storm inlets. Vehicle tracking control pads, spill containment and clean-up procedures, designated concrete washout areas, dumpsters, and job site restrooms shall also be provided by the Contractor. Grading and Erosion Control Notes can be found on the Utility Plans. The Final Plans will contain a full-size Erosion Control sheet as well as a separate sheet dedicated to Erosion Control Details. In addition to this report and the referenced plan sheets, the Contractor shall be aware of, and adhere to, the applicable requirements outlined in the Development Agreement for the development. Also, the Site Contractor for this project will be required to secure a Stormwater Construction General Permit from the Colorado Department of Public Health and Environment (CDPHE), Water Quality Control Division – Stormwater Program, prior to any earth disturbance activities. Prior to securing said permit, the Site Contractor shall develop a comprehensive StormWater Management Plan (SWMP) pursuant to CDPHE requirements and guidelines. The SWMP will further describe and document the ongoing activities, inspections, and maintenance of construction BMPs. APPENDIX C.1 WATER WAWABASE FLOOD ELEVATION ANALYSIS 1 June 5, 2015 City of Fort Collins Stormwater Utility Attn: Mr. Shane Boyle, PE 700 Wood Street Fort Collins, Colorado 80521 RE: 100-Year Flood Elevation Determination for Downtown Fort Collins Hotel Mr. Boyle: Northern Engineering is pleased to submit this 100-Year Flood Elevation Determination for the proposed Downtown Fort Collins Hotel for your review. The project is located just north of the intersection of Walnut and Chestnut and Walnut Street. VICINITY MAP North Mitchell Block Project Site Flow Split Walnut St. Chestnut St. Mountain Ave. 2 The City of Fort Collins has identified Walnut Street and Chestnut Street as potential flooding areas, and has requested we perform floodplain modeling to further define flood potential within these adjacent roadways by determining 100-year flood elevations. The project site is located just north of a previous project site, the “Mitchell Block”, for which we conducted similar hydraulic modeling. This modeling was summarized in our previous report entitled “Final Drainage Report for Mitchell Block”, dated February 25, 2009. However, for the purposes of the Mitchell Block project, the previous modeling separated out flows in the adjacent south half-street of Walnut Street, and determined a 100-year peak flow rate of 36.3 cfs. Additionally, the flow split at Chestnut Street was not analyzed because this was not relevant to the Mitchell Block project. In 2009, we obtained effective HEC-RAS files from the City of Fort Collins in order to set up base hydraulic modeling. We added several cross-sections to the effective HEC-RAS model in the streets adjacent to the Mitchell Block project (Mountain Avenue and Walnut Street). Please see the effective model workmap in Appendix 1.1. For current modeling efforts, the base modeling obtained from the City of Fort Collins in 2009 for the Mitchell Block was utilized as our starting point. However, in order to model the flow split at Walnut and Chestnut, we needed to create a separate truncated model because HEC- RAS does not allow a flow split junction to have multiple reaches entering and exiting the junction. The truncated model we created is named “Oak_NEmod” and is provided in Attachment 2.2. This model focuses on the flow split that occurs at the Walnut Street, Chestnut Street, and Mountain Avenue confluence. We used the effective model peak 100-year flow in Walnut of 60.0 cfs, and we also utilized the effective model water surface elevation in Mountain Avenue near section 11+00 of 4976.18 as a starting water surface elevation in Mountain Ave. This water surface elevation is conservative, as it is based on 100% of the flow from Walnut St. entering Mountain Ave., resulting in slightly higher water surface elevations within our area of interest. The starting water surface elevation was converted from NGVD-29 to NAVD-88 utilizing a conversion factor of 3.18-ft, based on City of Fort Collins Bechmark No. 5-00. Several cross-sections were added within Walnut Street, Chestnut Street, and Mountain Avenue in order to define the flow split that occurs at the intersection. We utilized the same parameters found in the effective HEC-RAS model, with n-values in both channel and overbank of 0.016. A hydraulic modeling workmap for the current model “Oak_NEmod”, is provided in Appendix 2.1. Table 1, below provides a summary of our modeling results. As shown in Table 1, a flow split occurs at the intersection of Walnut St., Chestnut St., and Mountain Ave. such that roughly 33% of the flow in Walnut St. goes to Chestnut St. and roughly 67% of the flow goes to Mountain Ave. This is reasonable, as the Chestnut St. turn lane has a little less than half the conveyance area of that of the Mountain Ave. turn-off. 3 TABLE 1 – HEC-RAS MODELING RESULTS Street Section ID 100-Yr Discharge (CFS) 100-Yr WSEL (Ft-NAVD88) Walnut St. 10 60 4977.13 Walnut St. 20 60 4978.81 Chestnut St. 10 19.58 4974.08 Chestnut St. 20 19.58 4975.26 Chestnut St. 30 19.58 4976.69 Mountain Ave. 10 40.42 4976.18 Mountain Ave. 20 40.42 4976.71 If you should have any questions as you review this, please feel free to contact us at your earliest convenience. Sincerely, NORTHERN ENGINEERING SERVICES, INC. Aaron Cvar, PE Project Engineer ATTACHMENT 1.1 EFFECTIVE HEC-RAS MODELING WORKMAP ATTACHMENT 2.1 PROPOSED CONDITION HEC-RAS MODELING WORKMAP W MOUNTAIN AVE. SPLIT CHESTNUT ST. SPLIT WALNUT ST. 10 20 30 10 20 10 20 WALNUT STREET CHESTNUT STREET MOUNTAIN AVENUE PROJECT SITE NORTH ( IN FEET ) 1 inch = ft. 60 0 60 Feet 60 HEC-RAS MODELING EXHIBIT ATTACHMENT 2.2 PROPOSED CONDITION HEC-RAS MODEL OUTPUT OAK STREET OUTFALL; TRUNCATED MODEL FORT COLLINS DOWNTOWN HOTEL 100-YR PROPOSED CONDITION NORTHERN ENGINEERING; 6/1/15 HEC-RAS Version 4.1.0 Jan 2010 U.S. Army Corps of Engineers Hydrologic Engineering Center 609 Second Street Davis, California X X XXXXXX XXXX XXXX XX XXXX X X X X X X X X X X X X X X X X X X X XXXXXXX XXXX X XXX XXXX XXXXXX XXXX X X X X X X X X X X X X X X X X X X X X X XXXXXX XXXX X X X X XXXXX PROJECT DATA Project Title: Oak Street Outfall - 100yr-Proposed Project File : Oak_NEmod.prj Run Date and Time: 6/8/2015 3:30:00 PM Project in English units PLAN DATA Plan Title: Plan01_Chestnut Split Plan File : d:\Projects\947-002\Drainage\Modeling\HEC-RAS\Proposed Cond-2015-06-02\Oak_NEmod.p01 Geometry Title: Chestnut Split Flow Geometry File : d:\Projects\947-002\Drainage\Modeling\HEC-RAS\Proposed Cond-2015-06- 02\Oak_NEmod.g01 Flow Title : Flow 01 Flow File : d:\Projects\947-002\Drainage\Modeling\HEC-RAS\Proposed Cond-2015-06- 02\Oak_NEmod.f01 Plan Summary Information: Number of: Cross Sections = 7 Multiple Openings = 0 Culverts = 0 Inline Structures = 0 Bridges = 0 Lateral Structures = 0 Computational Information Water surface calculation tolerance = 0.01 Critical depth calculation tolerance = 0.01 Maximum number of iterations = 20 Maximum difference tolerance = 0.3 Flow tolerance factor = 0.001 Computation Options Critical depth computed only where necessary Conveyance Calculation Method: At breaks in n values only Friction Slope Method: Average Conveyance Computational Flow Regime: Subcritical Flow FLOW DATA Flow Title: Flow 01 Flow File : d:\Projects\947-002\Drainage\Modeling\HEC-RAS\Proposed Cond-2015-06-02\Oak_NEmod.f01 OAK STREET OUTFALL; TRUNCATED MODEL FORT COLLINS DOWNTOWN HOTEL 100-YR PROPOSED CONDITION NORTHERN ENGINEERING; 6/1/15 Flow Data (cfs) River Reach RS PF 1 Chestnut Split 1 30 10 Mountain 1 20 50 Walnut 1 20 60 Mountain Split 1 20 50 Boundary Conditions River Reach Profile Upstream Downstream Chestnut Split 1 PF 1 Normal S = 0.005 Mountain Split 1 PF 1 Known WS = 4976.18 GEOMETRY DATA Geometry Title: Chestnut Split Flow Geometry File : d:\Projects\947-002\Drainage\Modeling\HEC-RAS\Proposed Cond-2015-06- 02\Oak_NEmod.g01 Reach Connection Table River Reach Upstream Boundary Downstream Boundary Chestnut Split 1 Split_1 Mountain Split 1 Split_1 Walnut 1 Split_1 JUNCTION INFORMATION Name: Split_1 Description: Energy computation Method Length across Junction Tributary River Reach River Reach Length Angle Walnut 1 to Chestnut Split 1 70.4 Walnut 1 to Mountain Split 1 70.4 CROSS SECTION RIVER: Chestnut Split REACH: 1 RS: 30 INPUT Description: Station Elevation Data num= 6 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev 0 4977.14 23 4976.68 23.05 4976.18 41 4976.54 41.05 4977.04 46 4977.2 Manning's n Values num= 3 Sta n Val Sta n Val Sta n Val 0 .016 0 .016 46 .016 Bank Sta: Left Right Lengths: Left Channel Right Coeff Contr. Expan. 0 46 224.9 224.9 224.9 .1 .3 OAK STREET OUTFALL; TRUNCATED MODEL FORT COLLINS DOWNTOWN HOTEL 100-YR PROPOSED CONDITION NORTHERN ENGINEERING; 6/1/15 CROSS SECTION OUTPUT Profile #PF 1 E.G. Elev (ft) 4976.86 Element Left OB Channel Right OB Vel Head (ft) 0.17 Wt. n-Val. 0.016 W.S. Elev (ft) 4976.69 Reach Len. (ft) 224.90 224.90 224.90 Crit W.S. (ft) 4976.69 Flow Area (sq ft) 6.00 E.G. Slope (ft/ft) 0.005847 Area (sq ft) 6.00 Q Total (cfs) 19.58 Flow (cfs) 19.58 Top Width (ft) 18.67 Top Width (ft) 18.67 Vel Total (ft/s) 3.26 Avg. Vel. (ft/s) 3.26 Max Chl Dpth (ft) 0.51 Hydr. Depth (ft) 0.32 Conv. Total (cfs) 256.0 Conv. (cfs) 256.0 Length Wtd. (ft) 224.90 Wetted Per. (ft) 19.27 Min Ch El (ft) 4976.18 Shear (lb/sq ft) 0.11 Alpha 1.00 Stream Power (lb/ft s) 46.00 0.00 0.00 Frctn Loss (ft) 1.37 Cum Volume (acre-ft) 0.05 C & E Loss (ft) 0.01 Cum SA (acres) 0.20 Warning: The energy equation could not be balanced within the specified number of iterations. The program used critical depth for the water surface and continued on with the calculations. Warning: The energy loss was greater than 1.0 ft (0.3 m). between the current and previous cross section. This may indicate the need for additional cross sections. Warning: During the standard step iterations, when the assumed water surface was set equal to critical depth, the calculated water surface came back below critical depth. This indicates that there is not a valid subcritical answer. The program defaulted to critical depth. CROSS SECTION RIVER: Chestnut Split REACH: 1 RS: 20 INPUT Description: Station Elevation Data num= 7 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev 0 4975.45 10 4975.25 10.05 4974.75 27 4975.4 44 4974.75 44.05 4975.25 54 4975.45 Manning's n Values num= 3 Sta n Val Sta n Val Sta n Val 0 .016 0 .016 54 .016 Bank Sta: Left Right Lengths: Left Channel Right Coeff Contr. Expan. 0 54 113.1 113.1 113.1 .1 .3 CROSS SECTION OUTPUT Profile #PF 1 E.G. Elev (ft) 4975.39 Element Left OB Channel Right OB Vel Head (ft) 0.13 Wt. n-Val. 0.016 W.S. Elev (ft) 4975.26 Reach Len. (ft) 113.10 113.10 113.10 Crit W.S. (ft) 4975.26 Flow Area (sq ft) 6.90 E.G. Slope (ft/ft) 0.006352 Area (sq ft) 6.90 Q Total (cfs) 19.58 Flow (cfs) 19.58 Top Width (ft) 28.15 Top Width (ft) 28.15 Vel Total (ft/s) 2.84 Avg. Vel. (ft/s) 2.84 Max Chl Dpth (ft) 0.51 Hydr. Depth (ft) 0.25 Conv. Total (cfs) 245.6 Conv. (cfs) 245.6 Length Wtd. (ft) 113.10 Wetted Per. (ft) 29.07 Min Ch El (ft) 4974.75 Shear (lb/sq ft) 0.09 Alpha 1.00 Stream Power (lb/ft s) 54.00 0.00 0.00 OAK STREET OUTFALL; TRUNCATED MODEL FORT COLLINS DOWNTOWN HOTEL 100-YR PROPOSED CONDITION NORTHERN ENGINEERING; 6/1/15 Frctn Loss (ft) 0.63 Cum Volume (acre-ft) 0.02 C & E Loss (ft) 0.01 Cum SA (acres) 0.07 Warning: The energy equation could not be balanced within the specified number of iterations. The program used critical depth for the water surface and continued on with the calculations. Warning: Divided flow computed for this cross-section. Warning: The energy loss was greater than 1.0 ft (0.3 m). between the current and previous cross section. This may indicate the need for additional cross sections. Warning: During the standard step iterations, when the assumed water surface was set equal to critical depth, the calculated water surface came back below critical depth. This indicates that there is not a valid subcritical answer. The program defaulted to critical depth. CROSS SECTION RIVER: Chestnut Split REACH: 1 RS: 10 INPUT Description: Station Elevation Data num= 36 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev 0 4981 .1 4974.78 3.76 4974.66 6.16 4974.7 6.45 4974.71 7.98 4974.52 10.34 4974.24 10.6 4974.09 10.87 4973.88 12.36 4973.95 23.84 4974.25 24.64 4974.27 25.25 4974.27 48.43 4974.49 48.98 4974.49 61.12 4974.31 67.12 4974.22 84.73 4973.44 85.39 4973.42 85.42 4973.42 86.39 4973.5 86.52 4973.36 86.71 4973.68 86.85 4973.85 86.88 4973.85 86.97 4973.81 86.98 4973.81 87.05 4973.81 87.08 4973.81 89.84 4973.88 93.27 4974.09 95.28 4974.27 96.53 4974.34 97.34 4974.36 98.5 4974.38 98.6 4981 Manning's n Values num= 3 Sta n Val Sta n Val Sta n Val 0 .016 3.76 .016 96.53 .016 Bank Sta: Left Right Coeff Contr. Expan. 3.76 96.53 .1 .3 CROSS SECTION OUTPUT Profile #PF 1 E.G. Elev (ft) 4974.19 Element Left OB Channel Right OB Vel Head (ft) 0.11 Wt. n-Val. 0.016 W.S. Elev (ft) 4974.08 Reach Len. (ft) Crit W.S. (ft) 4974.05 Flow Area (sq ft) 7.50 E.G. Slope (ft/ft) 0.004994 Area (sq ft) 7.50 Q Total (cfs) 19.58 Flow (cfs) 19.58 Top Width (ft) 29.43 Top Width (ft) 29.43 Vel Total (ft/s) 2.61 Avg. Vel. (ft/s) 2.61 Max Chl Dpth (ft) 0.72 Hydr. Depth (ft) 0.25 Conv. Total (cfs) 277.0 Conv. (cfs) 277.0 Length Wtd. (ft) Wetted Per. (ft) 29.86 Min Ch El (ft) 4973.36 Shear (lb/sq ft) 0.08 Alpha 1.00 Stream Power (lb/ft s) 98.60 0.00 0.00 Frctn Loss (ft) Cum Volume (acre-ft) C & E Loss (ft) Cum SA (acres) Warning: Divided flow computed for this cross-section. CROSS SECTION OAK STREET OUTFALL; TRUNCATED MODEL FORT COLLINS DOWNTOWN HOTEL 100-YR PROPOSED CONDITION NORTHERN ENGINEERING; 6/1/15 RIVER: Mountain Split REACH: 1 RS: 20 INPUT Description: Station Elevation Data num= 37 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev 7.25 4978.23 11.84 4978.11 12.27 4978.08 12.74 4978.03 18.87 4977.05 18.95 4976.97 19.39 4976.54 19.68 4976.56 21.38 4976.68 26.56 4976.67 38.06 4976.66 38.09 4976.66 38.1 4976.66 38.53 4976.67 38.93 4976.68 39.8 4976.68 39.85 4976.63 40 4976.63 41.56 4976.64 45.49 4976.46 49.69 4976.39 52.51 4976.38 62.19 4976.2 64.02 4976.18 65.86 4975.88 66.23 4975.83 66.56 4975.83 66.78 4976.08 67.15 4976.5 69.14 4976.51 71.09 4976.52 71.24 4976.5 72.64 4976.36 73.48 4976.41 74.36 4976.47 75.62 4976.53 80 4976.68 Manning's n Values num= 3 Sta n Val Sta n Val Sta n Val 7.25 .016 11.84 .016 75.62 .016 Bank Sta: Left Right Lengths: Left Channel Right Coeff Contr. Expan. 11.84 75.62 179.3 179.3 179.3 .1 .3 CROSS SECTION OUTPUT Profile #PF 1 E.G. Elev (ft) 4976.85 Element Left OB Channel Right OB Vel Head (ft) 0.14 Wt. n-Val. 0.016 0.016 W.S. Elev (ft) 4976.71 Reach Len. (ft) 179.30 179.30 179.30 Crit W.S. (ft) 4976.71 Flow Area (sq ft) 13.25 0.48 E.G. Slope (ft/ft) 0.007216 Area (sq ft) 13.25 0.48 Q Total (cfs) 40.42 Flow (cfs) 39.57 0.85 Top Width (ft) 60.79 Top Width (ft) 56.41 4.38 Vel Total (ft/s) 2.95 Avg. Vel. (ft/s) 2.99 1.79 Max Chl Dpth (ft) 0.88 Hydr. Depth (ft) 0.23 0.11 Conv. Total (cfs) 475.9 Conv. (cfs) 465.8 10.0 Length Wtd. (ft) 179.30 Wetted Per. (ft) 56.86 4.42 Min Ch El (ft) 4975.83 Shear (lb/sq ft) 0.10 0.05 Alpha 1.01 Stream Power (lb/ft s) 80.00 0.00 0.00 Frctn Loss (ft) 0.15 Cum Volume (acre-ft) 0.00 0.12 0.00 C & E Loss (ft) 0.04 Cum SA (acres) 0.00 0.33 0.01 Warning: The energy equation could not be balanced within the specified number of iterations. The program used critical depth for the water surface and continued on with the calculations. Warning: The cross-section end points had to be extended vertically for the computed water surface. Warning: The conveyance ratio (upstream conveyance divided by downstream conveyance) is less than 0.7 or greater than 1.4. This may indicate the need for additional cross sections. Warning: During the standard step iterations, when the assumed water surface was set equal to critical depth, the calculated water surface came back below critical depth. This indicates that there is not a valid subcritical answer. The program defaulted to critical depth. CROSS SECTION RIVER: Mountain Split REACH: 1 RS: 10 INPUT Description: Station Elevation Data num= 61 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev 0 4981 .1 4975.92 1.42 4975.93 9.93 4975.63 12.88 4975.5 OAK STREET OUTFALL; TRUNCATED MODEL FORT COLLINS DOWNTOWN HOTEL 100-YR PROPOSED CONDITION NORTHERN ENGINEERING; 6/1/15 14.56 4975.4 16.97 4975.33 17.37 4975.03 17.58 4974.86 19.22 4974.97 19.58 4975.01 19.61 4975 22.89 4975.25 23.47 4975.28 27.21 4975.47 27.47 4975.48 32.38 4975.69 34.39 4975.78 34.67 4975.79 35.43 4975.78 35.44 4975.8 39.92 4975.91 41.77 4975.94 48.53 4976.15 53.97 4976.21 58.88 4976.26 60.92 4976.22 62.38 4976.23 63.6 4976.25 64.06 4976.25 65.81 4976.23 67.99 4976.22 69.08 4976.19 74.15 4975.99 74.66 4976.96 74.69 4977.01 75.43 4976.95 76.47 4976.87 77.6 4976.84 79.53 4977.05 79.89 4976.19 79.99 4975.98 83.06 4976 94.01 4976.12 100.59 4975.94 106.07 4975.78 110.29 4975.67 112.77 4975.61 121.21 4975.39 121.8 4975.34 123.21 4975.22 123.36 4975.36 123.71 4975.72 126.88 4975.77 128.14 4975.78 128.27 4975.79 128.62 4975.78 128.76 4975.8 128.87 4976.13 128.91 4975.79 129 4981 Manning's n Values num= 3 Sta n Val Sta n Val Sta n Val 0 .016 1.42 .016 126.88 .016 Bank Sta: Left Right Coeff Contr. Expan. 1.42 126.88 .1 .3 CROSS SECTION OUTPUT Profile #PF 1 E.G. Elev (ft) 4976.19 Element Left OB Channel Right OB Vel Head (ft) 0.01 Wt. n-Val. 0.016 0.016 0.016 W.S. Elev (ft) 4976.18 Reach Len. (ft) Crit W.S. (ft) 4975.77 Flow Area (sq ft) 0.34 43.52 0.79 E.G. Slope (ft/ft) 0.000302 Area (sq ft) 0.34 43.52 0.79 Q Total (cfs) 40.42 Flow (cfs) 0.19 39.70 0.53 Top Width (ft) 105.12 Top Width (ft) 1.33 101.76 2.04 Vel Total (ft/s) 0.91 Avg. Vel. (ft/s) 0.58 0.91 0.67 Max Chl Dpth (ft) 1.32 Hydr. Depth (ft) 0.25 0.43 0.39 Conv. Total (cfs) 2325.6 Conv. (cfs) 11.2 2284.1 30.3 Length Wtd. (ft) Wetted Per. (ft) 1.58 102.45 2.96 Min Ch El (ft) 4974.86 Shear (lb/sq ft) 0.00 0.01 0.01 Alpha 1.01 Stream Power (lb/ft s) 129.00 0.00 0.00 Frctn Loss (ft) Cum Volume (acre-ft) C & E Loss (ft) Cum SA (acres) Warning: Divided flow computed for this cross-section. CROSS SECTION RIVER: Walnut REACH: 1 RS: 20 INPUT Description: Effective Model Section 2+58 Station Elevation Data num= 13 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev 100 4981.18 100.1 4979.08 106.2 4978.78 116 4978.32 116.2 4977.9 118.3 4977.77 141.2 4979.02 153.9 4979.2 165.7 4979.02 191.3 4978.48 191.6 4978.98 203.6 4979.18 203.7 4981.18 Manning's n Values num= 3 Sta n Val Sta n Val Sta n Val 100 .016 106.2 .016 203.6 .016 Bank Sta: Left Right Lengths: Left Channel Right Coeff Contr. Expan. 106.2 203.6 183.3 183.3 183.3 .1 .3 CROSS SECTION OUTPUT Profile #PF 1 E.G. Elev (ft) 4979.00 Element Left OB Channel Right OB Vel Head (ft) 0.19 Wt. n-Val. 0.016 0.016 W.S. Elev (ft) 4978.81 Reach Len. (ft) 183.30 183.30 183.30 OAK STREET OUTFALL; TRUNCATED MODEL FORT COLLINS DOWNTOWN HOTEL 100-YR PROPOSED CONDITION NORTHERN ENGINEERING; 6/1/15 Crit W.S. (ft) 4978.81 Flow Area (sq ft) 0.01 17.12 E.G. Slope (ft/ft) 0.005516 Area (sq ft) 0.01 17.12 Q Total (cfs) 60.00 Flow (cfs) 0.00 60.00 Top Width (ft) 47.36 Top Width (ft) 0.56 46.80 Vel Total (ft/s) 3.50 Avg. Vel. (ft/s) 0.39 3.50 Max Chl Dpth (ft) 1.04 Hydr. Depth (ft) 0.01 0.37 Conv. Total (cfs) 807.8 Conv. (cfs) 0.0 807.8 Length Wtd. (ft) 183.30 Wetted Per. (ft) 0.56 47.30 Min Ch El (ft) 4977.77 Shear (lb/sq ft) 0.00 0.12 Alpha 1.00 Stream Power (lb/ft s) 203.70 0.00 0.00 Frctn Loss (ft) 0.92 Cum Volume (acre-ft) 0.00 0.10 0.01 C & E Loss (ft) 0.02 Cum SA (acres) 0.00 0.24 0.03 Warning: The energy equation could not be balanced within the specified number of iterations. The program used critical depth for the water surface and continued on with the calculations. Warning: Divided flow computed for this cross-section. Warning: The energy loss was greater than 1.0 ft (0.3 m). between the current and previous cross section. This may indicate the need for additional cross sections. Warning: During the standard step iterations, when the assumed water surface was set equal to critical depth, the calculated water surface came back below critical depth. This indicates that there is not a valid subcritical answer. The program defaulted to critical depth. CROSS SECTION RIVER: Walnut REACH: 1 RS: 10 INPUT Description: Station Elevation Data num= 49 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev 0 4981 1.02 4977.13 1.14 4977.1 8.14 4976.98 8.84 4976.96 10.44 4976.82 11.7 4976.81 11.94 4976.8 12.29 4976.37 12.38 4976.28 12.92 4976.23 14.83 4976.19 19.29 4976.53 20.24 4976.59 21.78 4976.67 28.24 4976.97 38.58 4977.18 44.11 4977.29 46.18 4977.32 46.6 4977.31 54.9 4977.12 62.06 4976.91 66.97 4976.8 67.12 4976.8 68.6 4976.75 71.42 4976.67 72.77 4976.6 74.13 4976.51 74.79 4976.84 74.98 4976.96 74.99 4976.98 76.48 4977.16 77.63 4976.94 78.24 4976.93 80.15 4976.93 80.23 4976.79 80.25 4976.78 81.82 4976.85 82.66 4976.89 83.28 4976.93 86.58 4976.93 89.45 4976.96 91.08 4976.92 91.47 4976.92 92.26 4976.92 98.6 4976.88 99.55 4976.88 101.6 4976.89 101.7 4981 Manning's n Values num= 3 Sta n Val Sta n Val Sta n Val 0 .016 1.02 .016 89.45 .016 Bank Sta: Left Right Coeff Contr. Expan. 1.02 89.45 .1 .3 CROSS SECTION OUTPUT Profile #PF 1 E.G. Elev (ft) 4977.24 Element Left OB Channel Right OB Vel Head (ft) 0.11 Wt. n-Val. 0.016 0.016 W.S. Elev (ft) 4977.13 Reach Len. (ft) Crit W.S. (ft) 4977.11 Flow Area (sq ft) 19.78 2.73 E.G. Slope (ft/ft) 0.004606 Area (sq ft) 19.78 2.73 Q Total (cfs) 60.00 Flow (cfs) 53.74 6.26 Top Width (ft) 81.54 Top Width (ft) 69.38 12.16 Vel Total (ft/s) 2.67 Avg. Vel. (ft/s) 2.72 2.30 Max Chl Dpth (ft) 0.94 Hydr. Depth (ft) 0.29 0.22 OAK STREET OUTFALL; TRUNCATED MODEL FORT COLLINS DOWNTOWN HOTEL 100-YR PROPOSED CONDITION NORTHERN ENGINEERING; 6/1/15 Length Wtd. (ft) Wetted Per. (ft) 69.91 12.39 Min Ch El (ft) 4976.19 Shear (lb/sq ft) 0.08 0.06 Alpha 1.01 Stream Power (lb/ft s) 101.70 0.00 0.00 Frctn Loss (ft) 0.38 Cum Volume (acre-ft) 0.02 0.00 C & E Loss (ft) 0.00 Cum SA (acres) Warning: Divided flow computed for this cross-section. Warning: A flow split was encountered. The program first calculated the momentum of both channels below the junction. An energy balance was performed across the junction from the stream with the highest momentum downstream to the section upstream. SUMMARY OF MANNING'S N VALUES River:Chestnut Split Reach River Sta. n1 n2 n3 1 30 .016 .016 .016 1 20 .016 .016 .016 1 10 .016 .016 .016 River:Mountain Split Reach River Sta. n1 n2 n3 1 20 .016 .016 .016 1 10 .016 .016 .016 River:Walnut Reach River Sta. n1 n2 n3 1 20 .016 .016 .016 1 10 .016 .016 .016 SUMMARY OF REACH LENGTHS River: Chestnut Split Reach River Sta. Left Channel Right 1 30 224.9 224.9 224.9 1 20 113.1 113.1 113.1 1 10 River: Mountain Split Reach River Sta. Left Channel Right 1 20 179.3 179.3 179.3 1 10 River: Walnut Reach River Sta. Left Channel Right OAK STREET OUTFALL; TRUNCATED MODEL FORT COLLINS DOWNTOWN HOTEL 100-YR PROPOSED CONDITION NORTHERN ENGINEERING; 6/1/15 1 20 183.3 183.3 183.3 1 10 SUMMARY OF CONTRACTION AND EXPANSION COEFFICIENTS River: Chestnut Split Reach River Sta. Contr. Expan. 1 30 .1 .3 1 20 .1 .3 1 10 .1 .3 River: Mountain Split Reach River Sta. Contr. Expan. 1 20 .1 .3 1 10 .1 .3 River: Walnut Reach River Sta. Contr. Expan. 1 20 .1 .3 1 10 .1 .3 Profile Output Table - Standard Table 1 River Reach River Sta Profile Q Total Min Ch El W.S. Elev Crit W.S. E.G. Elev E.G. Slope Vel Chnl Flow Area Top Width Froude # Chl (cfs) (ft) (ft) (ft) (ft) (ft/ft) (ft/s) (sq ft) (ft) Chestnut Split 1 10 PF 1 19.58 4973.36 4974.08 4974.05 4974.19 0.004994 2.61 7.50 29.43 0.91 Chestnut Split 1 20 PF 1 19.58 4974.75 4975.26 4975.26 4975.39 0.006352 2.84 6.90 28.15 1.01 Chestnut Split 1 30 PF 1 19.58 4976.18 4976.69 4976.69 4976.86 0.005847 3.26 6.00 18.67 1.01 Mountain Split 1 10 PF 1 40.42 4974.86 4976.18 4975.77 4976.19 0.000302 0.91 44.65 105.12 0.25 Mountain Split 1 20 PF 1 40.42 4975.83 4976.71 4976.71 4976.85 0.007216 2.99 13.72 60.79 1.09 Walnut 1 10 PF 1 60.00 4976.19 4977.13 4977.11 4977.24 0.004606 2.72 22.51 81.54 0.90 Walnut 1 20 PF 1 60.00 4977.77 4978.81 4978.81 4979.00 0.005516 3.50 17.13 47.36 1.02 Profile Output Table - Standard Table 2 River Reach River Sta Profile E.G. Elev W.S. Elev Vel Head Frctn Loss C & E Loss Q Left Q Channel Q Right Top Width (ft) (ft) (ft) (ft) (ft) (cfs) (cfs) (cfs) (ft) Chestnut Split 1 10 PF 1 4974.19 4974.08 0.11 19.58 29.43 OAK STREET OUTFALL; TRUNCATED MODEL FORT COLLINS DOWNTOWN HOTEL 100-YR PROPOSED CONDITION NORTHERN ENGINEERING; 6/1/15 Chestnut Split 1 20 PF 1 4975.39 4975.26 0.13 0.63 0.01 19.58 28.15 Chestnut Split 1 30 PF 1 4976.86 4976.69 0.17 1.37 0.01 19.58 18.67 Mountain Split 1 10 PF 1 4976.19 4976.18 0.01 0.19 39.70 0.53 105.12 Mountain Split 1 20 PF 1 4976.85 4976.71 0.14 0.15 0.04 39.57 0.85 60.79 Walnut 1 10 PF 1 4977.24 4977.13 0.11 0.38 0.00 53.74 6.26 81.54 Walnut 1 20 PF 1 4979.00 4978.81 0.19 0.92 0.02 0.00 60.00 47.36 MAP POCKET DRAINAGE EXHIBITS LEGEND: FIELD SURVEY BY: CALL 2 BUSINESS DAYS IN ADVANCE BEFORE YOU DIG, GRADE, OR EXCAVATE FOR THE MARKING OF UNDERGROUND MEMBER UTILITIES. CALL UTILITY NOTIFICATION CENTER OF COLORADO R ( IN FEET ) 0 1 INCH = 20 FEET 20 20 40 60 MOUNTAIN AVENUE PROPOSED DOWNTOWN HOTEL EXISTING PROPERTY LINE EXISTING RIGHT-OF-WAY EXISTING RIGHT-OF-WAY EXISTING RIGHT-OF-WAY EXISTING PROPERTY LINE ISS. # KEY PLAN DESCRIPTION DATE ARCHITECT'S PROJECT NUMBER copyright 2015 NOT FOR CONSTRUCTION OWNER 4240 ARCHITECTURE INC 3507 RINGSBY COURT SUITE 117 DENVER, CO 80216 t: 303.292.3388 f: 303.292.3113 ARCHITECT WALNUT ST & CHESTNUT ST FORT COLLINS, CO 80524 21129.00 FORT COLLINS HOTEL MCWHINNEY 2725 ROCKY MOUNTAIN AVE STE 200 LOVELAND, CO 80538 OWNER SAGE HOSPITALITY 1575 WELTON STREET STE 300 DENVER, CO 80202 OPERATOR t: 970.962.9990 t: 303.595.7200 f: 303.595.7219 BOHEMIAN COMPANIES 262 E MOUNTAIN AVE FORT COLLINS, CO 80524 t: 970.490.2626 NORTHERN ENGINEERING, INC 200 S COLLEGE AVE FORT COLLINS, CO 80524 CIVIL RUSSELL + MILLS STUDIOS 141 S COLLEGE AVE FORT COLLINS, CO 80524 LANDSCAPE t: 970.568.5415 f: 970.221.4159 t: 970.484.8855 A PDP SUBMITTAL 24 JUNE 2015 C500 DRAINAGE PLAN PARKING LOT ALTERNATIVE NOTES: REVIEW SET NOT FOR CONSTRUCTION REVIEW SET NOT FOR CONSTRUCTION PROPOSED 2' WIDE CONCRETE CHASE EXISTING DRIVEWAY LIMITS OF CONSTRUCTION A B2 1.45 ac Conv. Total (cfs) 884.1 Conv. (cfs) 791.8 92.3 (min) 10-yr Tc (min) 100-yr Tc (min) 1a 1a No 0.95 0.95 1.00 20 2.00% 1.0 1.0 0.7 53 1.00% 2.00 0.4 0 0.00% N/A N/A 5 5 5 1b 1b No 0.95 0.95 1.00 20 2.00% 1.0 1.0 0.7 307 1.00% 2.00 2.6 0 0.00% N/A N/A 5 5 5 1c 1c No 0.95 0.95 1.00 45 1.00% 1.9 1.9 1.3 183 1.00% 2.00 1.5 0 0.00% N/A N/A 5 5 5 22No0.95 0.95 1.00 75 2.00% 1.9 1.9 1.3 168 0.50% 1.41 2.0 0 0.00% N/A N/A 5 5 5 OS1 OS1 No 0.95 0.95 1.00 45 1.00% 1.9 1.9 1.3 112 0.50% 1.41 1.3 0 0.00% N/A N/A 5 5 5 OS2 OS2 No 0.95 0.95 1.00 30 1.00% 1.5 1.5 1.0 144 0.50% 1.41 1.7 0 0.00% N/A N/A 5 5 5 OS3 OS3 No 0.95 0.95 1.00 30 2.00% 1.2 1.2 0.8 124 0.50% 1.41 1.5 0 0.00% N/A N/A 5 5 5 OS4 OS4 No 0.95 0.95 1.00 40 2.00% 1.4 1.4 0.9 320 0.50% 1.41 3.8 0 0.00% N/A N/A 5 5 5 OS5 OS5 No 0.95 0.95 1.00 30 2.00% 1.2 1.2 0.8 56 0.50% 1.41 0.7 0 0.00% N/A N/A 5 5 5 DEVELOPED TIME OF CONCENTRATION COMPUTATIONS Gutter Flow Swale Flow Design Point Basin Overland Flow ATC June 15, 2015 Time of Concentration (Equation RO-4)  3 1 1 . 87 1 . 1 * S Ti C Cf L   DEVELOPED COMPOSITE % IMPERVIOUSNESS AND RUNOFF COEFFICIENT CALCULATIONS Runoff Coefficients are taken from the City of Fort Collins Storm Drainage Design Criteria and Construction Standards, Table 3-3. % Impervious taken from UDFCD USDCM, Volume I. 10-year Cf = 1.00 June 15, 2015 (min) 10-yr Tc (min) 100-yr Tc (min) H1a H1a No 0.95 0.95 1.00 20 2.00% 1.0 1.0 0.7 53 0.50% 1.41 0.6 0 0.00% N/A N/A 5 5 5 H1b H1b No 0.95 0.95 1.00 20 2.00% 1.0 1.0 0.7 307 0.50% 1.41 3.6 0 0.00% N/A N/A 5 5 5 H1c H1c No 0.95 0.95 1.00 112 1.70% 2.5 2.5 1.7 221 0.80% 1.79 2.1 0 0.00% N/A N/A 5 5 5 H2 H2 No 0.95 0.95 1.00 30 2.00% 1.2 1.2 0.8 188 0.50% 1.41 2.2 0 0.00% N/A N/A 5 5 5 OS1 OS1 No 0.95 0.95 1.00 45 1.00% 1.9 1.9 1.3 112 0.50% 1.41 1.3 0 0.00% N/A N/A 5 5 5 OS2 OS2 No 0.95 0.95 1.00 30 1.00% 1.5 1.5 1.0 144 0.50% 1.41 1.7 0 0.00% N/A N/A 5 5 5 OS3 OS3 No 0.95 0.95 1.00 30 2.00% 1.2 1.2 0.8 124 0.50% 1.41 1.5 0 0.00% N/A N/A 5 5 5 OS4 OS4 No 0.95 0.95 1.00 40 2.00% 1.4 1.4 0.9 320 0.50% 1.41 3.8 0 0.00% N/A N/A 5 5 5 OS5 OS5 No 0.95 0.95 1.00 30 2.00% 1.2 1.2 0.8 56 0.50% 1.41 0.7 0 0.00% N/A N/A 5 5 5 HISTORIC TIME OF CONCENTRATION COMPUTATIONS Gutter Flow Swale Flow Design Point Basin Overland Flow ATC June 15, 2015 Time of Concentration (Equation RO-4)  3 1 1 . 87 1 . 1 * S Ti C Cf L   HISTORIC COMPOSITE % IMPERVIOUSNESS AND RUNOFF COEFFICIENT CALCULATIONS Runoff Coefficients are taken from the City of Fort Collins Storm Drainage Design Criteria and Construction Standards, Table 3-3. % Impervious taken from UDFCD USDCM, Volume I. 10-year Cf = 1.00 June 15, 2015