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Home My WebLink AboutDrainage Reports - 05/24/2019 INT<RT-, S U LT I N G G R O U P May 22, 2019 City of Ft. CoNins pro . Puns Mr.Wes Lamarque AMfOVed ey,. FCollinsUtilities—Stormwater Fort Co t@ 700 Wood Street Fort Collins,CO 80522 Re: 221 East Mountain Final Storm Drainage Letter Dear Wes, Please accept the following letter describing the storm drainage intent demonstrating the proposed site improvement's ability to comply with the City's Stormwater requirements. INTRODUCTION The 221 East Mountain is a redevelopment project proposed to construct a mixed-use condominium building with supporting utility infrastructure and site accesses (pedestrian/vehicular). The site is located at the southwest corner of the intersection of E. Mountain Ave and Mathews St. There is a 20' public alley to the south, and 10' public alley along the west. The roadway frontages will be improved along E. Mountain Ave and Mathews St, along with the alleys to the south and west. The legal description is as follows: Lots 1 thru 6, Block 131, Town of Fort Collins, located in part of the Northwest Quarter of Section 12, Township 7 North, Range 69 West of the 6'Principal Meridian, City of Fort Collins, County of Larimer, State of Colorado. The property is addresses as 221 E. Mountain Ave. A vicinity map is attached for reference. EXISTING CONDITIONS The project site is located within the Udall drainage basin. The existing site consists of a vehicle maintenance shop/showroom, and a parking lot. The site is approximately 0.45 acres and is impervious except for a 40 sgft gravel area near the existing vehicle entrance off of E. Mountain Ave. The site generally slopes to the east at 1.0% grade. Approximately 4,250 sqft drains to E. Mountain Ave, and the remaining drains to Mathew St. All existing improvements will be removed from the site to accommodate the new construction.The existing southern alley is entirely paved, and the existing western alley appears to be unimproved. We are not aware of any site-specific drainage studies for this site. The project is not located within a FEMA mapped 100-yr floodplain and is not within a defined City of Fort Collins floodplain. 1218 W. ASH,STE. A, WINDSOR,COLORADO 80550 TEL.970.674.3300-FAX 970.674.3303 221 East Mountain Final Storm Drainage Letter May 22,2019 Page 2 of 4 PROPOSED DEVELOPMENT The proposed redevelopment improvements will consist of constructing a 4-story mixed-use multi-family condominium building, with below grade parking, and will include the supporting utility infrastructure and pedestrian/vehicle accesses.The project is planned to be constructed in a single phase. The project has zero setback requirements, encouraging zero-lot line construction. The proposed building footprint is approximately 18,420 sqft, consuming 94% of the site. The improvements will generally be 100% impervious, consistent with the existing conditions. The proposed improvements are divided into 3 onsite drainage basins and 2 offsite drainage basins: Basin D1 consists of the northwest portion of the proposed roof area and the runoff will be conveyed through storm drains to the existing Type R inlet on E. Mountain Ave. Basin D1 will be treated by a F1oGard Water Quality Filter system designed by Old Castle prior to being conveyed to the existing inlet. Basin D2 consists of the northeast portion of the proposed roof area and the runoff will be conveyed through storm drains to the existing Type R inlet on E. Mountain Ave. Basin D2 will be treated by a F1oGard Water Quality Filter system designed by Old Castle prior to being conveyed to the existing inlet. Basin D3 consists of the south portion of the proposed roof area and the runoff will be conveyed through a proposed sidewalk chase to the flowline of Matthews Street where the runoff will be conveyed north to an existing Type R inlet. Basin D3 will be treated by a F1oGard Water Quality Filter system designed by Old Castle prior to being conveyed to the sidewalk chase. Basin OS1 consists of the southern alley and several adjacent rooftops and parking areas. The basin was delineated by survey elevations of the alley visually observing the existing conditions, and buildings in the vicinity of the project site. In general, the proposed drainage patterns of this basin will not change from existing, draining along the improved alley east to Mathews Street. This offsite drainage basin can be viewed in more detail by reviewing the attached Offsite Drainage Basin Exhibit.The runoff associated with this basin was modeled at key locations along the east-west alley corridor to determine the water surface elevation of the alley flows in a 100-yr event. The 100-yr peak runoff from this basin is estimated to be 5.56 cfs. To ensure building protection, the modeled flow depths within the alley were increased by 33%to 7.40 cfs and do not enter the building openings. Basin OS2 consists of the western DDA owned alley. This alley will be paved and the runoff from this alley will be collected in an area inlet and directed to the interior of the building where it will be combined with flows from Basin D1 and D2 prior to being conveyed to the existing inlet on E. Mountain Ave. The proposed improvements do not create an increase in impervious area over 5,000 sq-ft which would require onsite detention. Standard water quality is provided downstream within the Udall Basin and is not required onsite. Low Impact Development (LID) code would require that 50% of the site area be treated with an adopted BMP treatment method. See below for more detail on the proposed F1oGard Filters. All calculations and exhibits are attached for reference. 221 East Mountain Final Storm Drainage Letter May 22,2019 Page 3 of 4 LOW IMPACT DEVELOPMENT TECHNIQUES In reference to the code requirements for implementation of Low Impact Development (LID) techniques, the use of 100% treatment of the roof area via three (3) F1oGard Filters is proposed to satisfy these requirements. These filter systems are an emerging technology that has been adopted in other regions of the country but is not currently on an approved list of approved treatment methods. After extensive evaluation of alternative methods including Planter Box Rain Gardens, Bio-retention within the public street parkway, and water quality tree well systems, it was determined that the various site constraints for the 221 East Mountain project made those alternatives not viable. Therefore, we are proposing the use of the roof filtering systems to treat 100%of the roof area in lieu of the required 50%treatment area. Below is a description of the 4 step process for selecting structural BMPs: Urban Drainage and Flood Control District (UDFCD) recommends a Four Step Process for receiving water protection that focuses on reducing runoff volumes, treating the water quality capture volume (WQCV), stabilizing drainageways and implementing long-term source controls. The Four Step Process applies to the management of smaller,frequently occurring events. Step 1: Employ Runoff Reduction Practices To reduce runoff peaks, volumes, and pollutant loads from urbanizing areas, implement Low Impact Development(LID) strategies,including Minimizing Directly Connected Impervious Areas (MDCIA). Runoff from 100% of the roof will be directed to one of three (3) F1oGard Filter systems in the building prior to being released into the adjacent storm drain systems. Step 2: Implement BMPs that Provide a Water Quality Capture Volume with Slow Release The roof filter systems do not have a water quality capture volume component. Step 3: Stabilize Drainageways Natural Drainageways are subject to bed and bank erosion due to increases in frequency, duration, rate and volume of runoff during and following development. Because the site will drain to an existing roadway and storm system, bank stabilization is unnecessary with this project. Step 4: Implement Site Specific and Other Source Control BMPs Proactively controlling pollutants at their source by preventing pollution rather than removing contaminants once they have entered the stormwater system or receiving waters is important when protecting storm systems and receiving waters. This can be accomplished through site specific needs such as construction site runoff control, post-construction runoff control and pollution prevention/good housekeeping. It will be the responsibility of the contractor to develop a procedural best management practice for the site. All calculations are attached for reference. 221 East Mountain Final Storm Drainage Letter May 22,2019 Page 4 of 4 EROSION CONTROL Erosion and sedimentation will be controlled on-site by use of sediment control logs, inlet protection, a gravel construction entrance, seeding, mulch, and turf. The measures are designed to limit the overall sediment yield increase due to construction as required by the City of Fort Collins. During overlot and final grading the soil will be roughened and furrowed perpendicular to the prevailing winds. During the performance of the work required by these specifications or any operations appurtenant thereto, whether on right-of-way provided by the City or elsewhere, the contractor shall furnish all labor, equipment, materials, and means required. The Contractor shall carry out proper efficient measures wherever and as necessary to reduce dust nuisance, and to prevent dust nuisance that has originated from his operations from damaging crops, orchards, cultivated fields, and dwellings, or causing naissance to persons. The Contractor will be held liable for any damage resulting from dust originating from his operations under these specifications on right-of-way or elsewhere. It is unlawful to track or cause to be tracked mud or other debris onto city streets or rights-of-way. Wherever construction vehicles access routes or intersect paved public roads, previsions must be made to minimize the transport of sediment by runoff or vehicles tracking onto the paved surface. Stabilized construction entrances are required with base material consisting of 6" coarse aggregate. The contractor will be responsible for clearing mud tracked onto city streets daily. All temporary and permanent erosion and sediment control practices must be maintained and repaired as needed to assure continued performance of their intended function. Silt fence and sediment control logs will require periodic replacement. Maintenance is the responsibility of the contractor. All disturbed areas must be seeded and mulched within 30 days of project start. Vegetation shall not be considered established until a ground cover is achieved which is demonstrated to be mature enough to control soil erosion to the satisfaction of the City Inspector and to survive severe weather condition. Thank you in advance for your time and if you have any questions or comments please contact me at (970)674-3300. Sincerely, /a441� A4��# C` Logan Johnson,P.E. Robert Almirall, P.E. Interwest Consulting Group Interwest Consulting Group Attachments , POO REG/ .•AL. F 33441 �• �o 05-22-19 ;•��v Fss�••......•��G� ONAL , VINE DRIVE Ld / i / , / i / / /SITE W E Mountain Ur Ave / J jJ W 0 Q 2 a 0 / MULBERRY STREET / / i PROJECT VICINITY MAP N.T.S. PROJECT VERTICAL DATUM: NAVD88 CITY OF FORT COLLINS BENCHMARK 1-1 3: SOUTHWEST CORNER OF COLLEGE AVE.AND MAPLE ST.,ON A CONCRETE TRAFFIC SIGNAL BASE. ELEVATION =4979.75(NAVD88) FORT COLLINS BENCHMARK 5-00: LOCATED ON THE TOP OF A CURB OF A SIGNAL POLE BASE AT THE NORTHWEST CORNER OF LINDEN ST.AND JEFFERSON ST. ELEVATION =4978.05(NAVD88) PLEASE NOTE:THIS PLAN SET IS USING NAVD88 FOR A VERTICAL DATUM. SURROUNDING DEVELOPMENTS HAVE USED NGVD29 UNADJUSTED FOR THEIR VERTICAL DATUMS. IF NGVD UNADJUSTED DATUM IS REQUIRED FOR ANY PURPOSE,THE FOLLOWING EQUATION SHOULD BE USED: NGVD UNADJUSTED =4979.75(NAVD88)-3.17 =4976.58 NGVD UNADJUSTED=4978.05(NAVD88)-3.18 = 4974.87 MOUNTAIN AVENUE ,,. < m � 10 5 O 10 20 SCALE:1"=10' \ i RYF�1976.75 • •• RS _-_--J---- --- - --6--- f(�4970.69(SE) W - ---------------- _ R3 ---- NOTES 1. CONTRACTOR TO PROVIDE AND MAINTAIN ALL NECESSARY EROSION CONTROL MEASURES PRIOR TO AND THROUGHOUT f,n y _ _ `'• - 'r • / IJ 1 CONSTRUCTION.PLACE EROSION CONTROL PROTECTION AT ALL EXISTING INLETS DOWNSTREAM FROM THE CONSTRUCTION AREA EROSION CON IRCL PROTECTION SHALL REMAIN IN PUCE UNTIL CONSTRUCTION 15 COMPLETE AND ALL DISTURBED GROUND IS ADEQUATELY VEGETATED WITH OWNER'S APPROVAL FM REMOVAL -- 1' ., i STpP7 NN 2. THE EXTENT(7F EROSION CONTROL PROTECTION SHALL BE OBSERVED ND ADJUSTED AS NEEDED DURING CONSTRUCTION — - ••. L MEASURES SHOWN.TO SUPPLY �" R/Y 4976.56 I BASED ON SITE CONDITIONS ND T1iE PERFORMANCE OF THE EROSION CONTROL CONTRO I IN+497176(EJ SUFFiC ERO510NCONTROLANDMINIMREDOWNSTREAMWATERNAYPoLLUTION • /�\ /NV/N-4967 J6(N) 3. LIMIT DISTURBANCE TO AREAS WITHIN EROSION CONTROL BOUNDARIES. ADNST EROSION CONTROL BOUNDARIES AS N /NV GY/T=496716(5) d I NECESSARY TO ADEQUATELY COMPLETE PROPOSED WORK ALL DISTURBED AREAS SHALL BE PREPARED(SEEDED B MULCHED. } In --- t1' tT".RAIN 2"SD 12"m tY 9D 1 Ir>p 1YS f�/9 ( ) SURFACE ROUGHENIO.ETC)TO MINIMIZE EROSION POTENTIAL AND 500.MIGRATION. Z W O r 4. STORMWATER MANAGEMENT PLAN SHALL BE PREPARED AND SUBMITTED BY CONTRACTOR PRIOR TO CONSTRUCTION a• Q Z DO - COMMENCEMENT. o OSTQ4A/INLfT75.68 SSEE LANDSCAPE PLAN FOR ON SHALL BE METHODS AND DETAILS. LCUAS CONSTRUCTION.NY SQL DISTURBED AO NOT LLTQ°s4975.68 UNDER ACTIVE CONSTRUCTION SHALL BE SEEDED AND MULCHED PER LCUASS STNDARDS. f LU6-ROOF DRAIN W/ S O FG-DS8 FILTER AI 4968.64(NW) 6. ANVDISTURBEDLANDMUST RECEIVE SURFACE ROUGHENING.INCLUDINGBUT NOT LIMITEDTOSLOFEDAREAS. 4I O 11. N FG-DS8 FILTER ' Q R e 496362(E) ` T AREAS THAT EXPERIENCE EROSION ISSUES FROM STEEP SLOPES OR WATER EROSION RESULTING IN SEED NOT BEING ABLE TOcIS m Z ESTABLISH DURING THE FIRST GROWING SEASON SHALL REQUIRE RESEEDING AND EROSION CONTROL BLAM(ETS TO a Z L J Il � I m W STA8ILRE ME SOIL d � J y`r,, B. REFERENCE SHEET Ra FOR EROSION CONTROL DETAILS. Z N O W V/; COFC STANDARD EROSION AND SEDIMENT CONTROL NOTES: a III ULn Z ' ® N 1. THE CT•STORMWATER UEPARTMENi EROSION CONTROL INSPECTOR MUST BE NOTWID AT LEAST 24 HOURS FRIOR TO NY �Z N �' O O I CONSTRUCTION ON TH JS SIZE. Z m 0 (L RS I O 2. ALL REWIRED BMPS MUST BE INSTALLED PRIOR TO NY UNIT DISTUH&TUG ACTIVftt(STOCKPILING.STRIPPING.GRADING.ETCI. o l Q ALL REQUIRED EROSION CONTROL MEASURES MUST BE INSTALLED AT THE APPROPRIATE TIME IN THE CONSI'RUCTgN SEQUENCE AS INDIOATD IN THE APPROVED PROJECT SCHEDULE CONSTRUCTION PLANS.AND EROSION CONTROL REPORT. ' I / 3. PREOISTURBANCE VEGETATION SHALL BE PROTECTED AND RETAINED WHEREVER POSSIBLE.REMOVAL OR DISTURBANCE CIF tj EXISTING VEGETATION SHALL BE LIMITED TO THE AREA REQUIRED FOR IMMEDIATE CONSTRUCTION OPERATIONS.AO FOR THE SHORTEST PRACTICAL PERIOD OF TIME. 4, N_LSQLSEJtPCP DURMGLANDDISTURBINGACTIVETY(STRIPPING.GRADING.UTILRYMST TION5.5,OCKHUNG.FlWNG. ETC.)SHALL BE KEPT IN A ROUGHENED CONDITION BY RIPPING OR DISKING ALONG LAND CONTOURS UNTIL MULCH. VEGETATION.OR OTHER PERMANENT EROSION CONTROL IS INSTALLED.NO SOILS IN AREAS OUTSIDE PROJECT STREET RIGHTS OF WAY SHALL REMAIN EXPOSED BY LAND DISTURBING ACTIVITY FOR MORE THAN THIRTY DID)DAYS BEFORE REOUNiED OTHESTORMWATEFI DEI TM CONTROL IE.G,SEED/MULCH.UNOSCAPIO.ETCJ IS INSTALLED.UNLESS OTHERWISE APPROVEOSY 0.11 1.00 ' I 5. THE PROPERTY MUST BE WATERED AND MAINTAINED AT ALL TIMES DURING CONSTRUCTION ACTIVITIES SO AS TO PREVENT WINDCAUSD EROSION.ALL L O DISTURBING ACTIVITIES SHALL BE IMMEDIATELY DISCONTINUED WHEN FUGITIVE DUST j I MMGTSADJACENT PROPERTIES.ASDETERMlN6DBYTHECT'ENGINEERMGDCPARR4ENT. ,I 6. ALL TEMPORARY(STRUCTURAU ERCSION CONTROL MEASURES MUST BE INSPECTED ND REPAIRED OR RECONSTRUCTED AS NECESSARY AFTER EACH RUNOFF EVENT AND EVERY 14 DAYS IN ORDER TO ASSURE CONTINUED PERFORMANCE OF THEIR r ' AND DISPOSED OF IN A MANON ALL NER AND LOCATION SO AINED SEDMENTS. AS NOT TO CAUSFF TH THOSE OR RELEASEN PAVED EIIWO ANY DAY �N SURFACES. BE REMOVED _j ' 1 j NO SOIL STOCKPILE SHALL EXCEED TEN I10)FEET IN HEIGHT.ALL SOIL 5 PILE 1 CCKS SHALL BE PROTECTED FROM SEDIMENT Ly, J 'l 1 TRAM T BY SURFACE ROUGHENING.WATERING.AND PERIMETER SILT FENCING.NY SOIL STOCKPILE REMAINING AFTER 30 Q DAYS SHALL BE SEEDED AND MULCHED J B. CITY ORDINANCE PROHIBITS THE TRACKING.DROPPING.OR DEPOSITING OF SOILS OR ANY OTHER MATERIAL ONTO CITY O —b— ' _ ! I / STREETS BY OR FROM ANY VEHICLE.ANY INADVERTENT DEPOSITED MATERIAL SHALL BE CLEANED IMMEDU.TELv B+THIE DR AIN AGEOACCESS, ' ' I CONTRACTOR Ar UTILITY ESMT LL r Z m m m m m m m m m m m m m m m m mSAM m m m m m m m m m m m m m m m m m m = U o I i / rco•Nn.,w„RM,..I Aldw.r� DP.00rM. GroNrN .�e.as�a rn..wl I"ei°ae ua.eee..el Q 221 E.MOUNTAIN AVE !ea M ement -met Z O Z FFE-4978 00 wM1 „x i ta,llM! u ,F n n.�Arom�I v��wawuo�• W s t KM n(^YanK!• O (A O 1 Pd tea• A, otart:IMt cove Ra Ime d 1.; I / x II.FG• Anr c.mr Inlet,twr•wla ase o• d H w G I O OS (2)6'ROOF DRAIN PIPES CONVERGE I I CU MVER7 SIDEWALK �G�ti AGdIw/TAxo.e v. MIe Y.1cb IN TO SLOG I mxa.AxRee ea rAlaGNnMIKcolxdeeG..xn W TO 10-PIPE W/ '� I I xrd>:xr.•a,A MKa wx..m.»,MalGn umx Geeeee w' FG—DS10 FILTER a•^I+^xx*^ `Y ' a I I / NaKw Axl•tla,e,ne 9le.B,X 4aaKM wn3D D.R. Z D3 03 I I Am nm.me Gaea xcn ao mem uanw 1 - - dIla N.aaunG.. tWm Any eme tne+Ita WaXIllneela O-n G ° I / � I - CALL BEFORE YOU DIG uul unLm NGnnunoN AgT II LEGEND CENTER OFCOLORADO I I / I IN DE SIGNATION 1-800-922-1987 m \ BASIN - O U D01 or 8-1-1 0 g �M AI� •I -) 1.25 0.50 BASIN COEFFICIENT I I OOYRO AU zeV5v DAn'.AovArKE N !I 7 > > IETGAE YOU DIG,GAADE M EA ATE P0a i>E N m m k I MAMIWOIIMDERCROIMDHE RUTIUTIES. \ _ 1 BASIN AREA I > W W CV �6'ROOF DRAIN 6'ROOF DRAIN -1 ® DESIGN POINT W J J 2 U City of Fort Collins,Colorado F- < < 0 w X DRAINAGE FLOW ARROW UTILITY PLAN APPROVAL o v v0 o U z . • • ..< I' j'µf BOUNDARY AS CI ■ . I — APPROVED: Iy E ^0 . osi GEBASIN I _�_ CRAINA nP^ear Data ra' .LOW PAIR CHECKED BY: 5 _—T 6 i■� •• a•: • I 0.56 1.00 a I i O `1 '.NLET PROTECTION Water&W-t—le.III,IM Date —.� •■s�-�'. •' I —��.` _'— VTC l I 5a SEDIMENT CONTROL LOG CHECKED BY: Slo m"te,Umly Date 4 .• . • • • . • • • I.:I O �' '■ tl 201 PUBLIC ALLEY CHECKED BY: • \�� O — ROCKSOCKS Traffic Engineer Data • • J r '� rk CHECKED BY: CURB h GUTTER CWA Pas ana R—b- Data 9 _ Oa YTC CONSTRUCTON ENTRANCE W/VEHICLE TRACKING CONTHOI PROD.NO.1324-028-0 CHECKED BY: e ,1'Y) �• ® CWA CONCRETE WASMOLfT AREA Envkmmemal Planner Dale e I— I 1 1 I x ®� BLOCK i31 4 x - o I CHECKED BY: Date OF 1 1 3 IT a _ II 1 1 : 1I 1 i , 1 � 1 11 1 1 11 1 1 1 11 1 1 I 1 � i 1 1i 1 k � 1 1 I 1 n n�0 1 1 � I 1 11 1 1 1 I 1 1 , li 1 t 20'ALLEY — 1 (ASPHALT) ° 1 V' 1 VI co ' o I mg I 1 1 1 1 1 1 1 1 1 I �� 1n_J ro l Q, I 1 ' xN � 00It,2 1 � ® 0 1 ir 1n //�� n D 1 A OD �D D N N w yl r m z ZZ z 0 z z z m m 1 Q D D> > z > n o '•- _1 o m m N ,. u>i T Q Z > r 0 0 n J z z f ~ n > O O 1 D zo A z 0 f $ 1p N 1 O T DATE: 09/1 2/18 PROJECT NAME PREPARED FOR o SCALE I 10• 221 EAST MOUNTAIN NEENAN COMPANY z " 0 9 3325 S.TIMBERLINE RD mew an S". SCALEWY N/A wwbso..cao.a°o aossD w FORT COLLINS,CO 80525 Fnw t9101974d3DD N Fev.197D1674 3 OOQ DESIGNED BY: JTC PHONE:970.493.8747 N OFFSITE DRAINAGE BASIN EXHIBIT FEWEST CONSULTING G R 0 U P CHECKED BY: JTC 221 East Mountain DEVELOPED IMPERVIOUS AREA CALCULATION Design Engineer: L.Johnson Design Firm: Interwest Consulting Group Project Number: 1324-028-00 Date: May 1,2019 DESIGN CRITERIA: Urban Storm Drainage Criteria Manual by Urban Drainage and Flood Control District,June 2001 (Revised January 2016) BASINS: %Impervious values from Table RC-3 in the Urban Storm Drainage Criteria Manual Runoff Coefficients and Frequency Adjustment Factors for City of Fort Collins-Storm Water Criteria Manual Frequency Land Use % Runoff Return adjustment Impervious Coefficient C Period Factor(Cf) to Paved 100% 0.95 2-year 1.00 10- ear Roof 100% 0.95 100-year 1.25 Walks 90% 0.95 Gravel/Pavers 40% 0.50 Lawns (Heavy,2-7%Sloe 0% 0.25 Sub-basin Atotal Atotal Apaved Aroof Awalk Agravel/pavers Alawn Weighted% COMPOSITE Designation (sq feet) (acres) (sq feet) (sq feet) (sq feet) (sq feet) (sq feet) Impervious CZ to CIO Cioo D1 4,901 0.11 0 4,901 0 0 0 100.0% 0.95 1.00 D2 4,901 0.11 0 4,901 0 0 0 100.0% 0.95 1.00 D3 9,693 0.22 0 9,693 0 0 0 100.0% 0.95 1.00 Overall 19,496 0.45 0 19,496 0 0 0 100.0% 0.95 1.00 OSl 24,323 0,56 11,309 8,950 0 4,064 0 90.0% 0.87 1.00 OS2 1,296 0.03 1,296 0 0 0 0 100.0% 0.95 1.00 1324-028-00 Rational Calcs (FC).xlsx Page 1 of 4 Interwest Consulting Group 221 East Mountain DEVELOPED TIME OF CONCENTRATION Design Engineer: L.Johnson Design Firm: Interwest Consulting Group Project Number: 1324-028-00 Date: May 1,2019 DESIGN CRITERIA: Urban Storm Drainage Criteria Manual by Urban Drainage and Flood Control District,June 2001(Revised January 2016) Overland Flow Equations for City of Fort Collins-Storm Water Criteria Manual EQUATIONS: � t� =t tt -Equation 6-2 V = Cv Sws. -Equation 6-4 t� _ (18- 15i) + -Urbanized Check Equation 6-5 60(24i + 12),vrS- tl = 1.87(1.1 -CXCf)y L -CoFC Overland Flow tt _ L 6 3 r CONSTRVAINTS: 300 ft-Overland flow shall not exceed for developed condition 500 ft-Overland flow shall not exceed for undeveloped condition Final tr =minimum of t; +tt and urbanized basin check recommended minimum tc=5 min for urbanized basins Time of Concentration (2-yr to 10-yr) SUB-BASIN DATA INITIAL/OVERLAND TIME TRAVEL TIME(tt) Urban Check Final t DESIGN % AREA LENGTH SLOPE t LENGTH SLOPE Table VELOCITY 4 (min) OVERALL SLOPE t POINT Sub-basin Impervious C'10 (acres) (ft) (ft/ft) (min) (ft) (ft/ft) Type of Travel (ft/s) (min) (ft/ft) (min) (min) Surface Dl Dl 100.0% 0.95 0.113 43 0.0100 1.84 43 0.0100 Paved Areas 20 2.00 0.36 5.00 0.0100 5.00 5.00 D2 D2 100.0% 0.95 0.113 43 0.0100 1.84 43 0.0100 Paved Areas 20 2.00 0.36 5.00 0.0100 5.00 5.00 D3 D3 100.0% 0.95 0.223 34 0.0100 1.65 126 0.0100 Paved Areas 20 2.00 1.05 5.00 0.0100 5.00 5.00 OSl Os1 90.0% 0.87 0.558 149 0.0100 5.15 308 0.0143 Paved Areas 20 2.39 2.15 7.29 0.0129 6.50 6.50 OS2 052 100.0% 0.95 0.030 9 1 0.0180 1 0.77 88 1 0.0153 Paved Areas 20 2.47 0.59 5.00 0.0156 5.00 5.00 1324-028-00 Rational Calcs (FC).xlsx Page 2 of 4 Interwest Consulting Group 221 East Mountain DEVELOPED TIME OF CONCENTRATION Design Engineer: L.Johnson Design Firm: Interwest Consulting Group Project Number: 1324-028-00 Date: May 1,2019 DESIGN CRITERIA: Urban Storm Drainage Criteria Manual by Urban Drainage and Flood Control District,June 2001(Revised January 2016) Overland Flow Equations for City of Fort Collins-Storm Water Criteria Manual EQUATIONS: � t' =t +tt -Equation 6-2 V -C�.S os -Equation 6-4 tc = (18- 15i) + -Urbanized Check Equation 6-5 60(24i+ 12)V-S- 1.87 1.1 -C Cf) t = L ( x -CoFC Overland Flow t 60V t( _ CONSTRAINTS: 300 ft-Overland flow shall not exceed for developed condition 500 ft-Overland flow shall not exceed for undeveloped condition Final tc =minimum of t; +tt and urbanized basin check recommended minimum tc =5 min for urbanized basins Time of Concentration (100-yr) SUB-BASIN DATA INITIAL/OVERLAND TIME TRAVEL TIME(tt) Urban Check (t�) Final t DESIGN % AREA LENGTH SLOPE ti LENGTH SLOPE Table RO-2 VELOCITY t, (min) OVERALL SLOPE tc c POINT Sub-basin Impervious C1D° (acres) (ft) (ft/ft) (min) (ft) (ft/ft) Type of Travel (ft/s) (min) (ft/ft) (min) (min) Surface D1 D1 100.0% 1.00 0.113 43 0.0100 1.23 43 0.0100 Paved Areas 20 2.00 0.36 5.00 0.0100 5.00 S.00 D2 D2 100.0% 1.00 0.113 43 0.0100 1.23 43 0.0100 Paved Areas 20 2.00 0.36 5.00 0.0100 5.00 5.00 D3 D3 100.0% 1.00 0.223 34 0.0100 1.10 126 0.0100 Paved Areas 20 2.00 1.05 5.00 0.0100 5.00 S.00 OSl O51 90.0% 1.00 0.558 149 0.0100 2.29 308 0.0143 Paved Areas 20 2.39 2.15 5.00 0.0129 6.50 5.00 OS2 OS2 100.0% 1.00 0.030 9 0.0180 0.47 88 0.0153 Paved Areas 20 2.47 0.59 5.00 0.0156 5.00 5.00 1324-028-00 Rational Calcs (FC).xlsx Page 3 of 4 Interwest Consulting Group 221 East Mountain DEVELOPED PEAK RUNOFF Design Engineer: L.Johnson Design Firm: Interwest Consulting Group Project Number: 1324-028-00 Date: May 1,2019 DESIGN CRITERIA: Urban Storm Drainage Criteria Manual by Urban Drainage and Flood Control District,June 2001(Revised August 2006) EQUATIONS: I =rainfall intensity(in/hr) Q" = n-yr peak discharge(cfs) P1 =one-hour point rainfall depth(in) Q" _C"In An C" =n-yr runoff coefficient 28.5 P tc =time of concentration(min) 1 =n-yr rainfall intensity(in/hr) I = (10+t o7&sl) P2.zyr= 0.82in A" =Basin drainage area(ac) �) P1_10,r= 1.40 in P 1_10eyr= 2.86 in BASIN SUMMARY: 2-yr Peak Runoff 10-yr Peak Runoff 100-yr Peak Runoff Design Sub-basin Area(acres) Runoff Coeff Intensity 3 Runoff Coeff Intensity 3 Runoff Coeff. in a Point t,(min) C(A)(acres) Q(ft/s) t�(min) C(A)(acres) Q(ff/s) t�(min) C(A)(acres) Q(ft/s) (ce-m) (in/hr) (C2.2o) lin/hrl (cl.) (in/hr) D1 D1 0.113 5.00 0.95 0.11 2.78 0.30 5.00 0.95 0.11 4.87 0.52 5.00 1.00 0.11 9.95 1.12 D2 D2 0.113 5.00 0.95 0.11 2.78 0.30 5.00 0.95 0.11 4.87 0.52 5.00 1.00 0.11 9.95 1.12 D3 D3 0.223 5.00 0.95 0.21 2.78 0.59 5.00 0.95 0.21 4.87 1.03 5.00 1.00 0.22 9.95 2.21 OSl O51 0.558 6.50 0.87 0.49 2.58 1.26 6.50 0.87 0.49 4.40 2.15 5.00 1.00 0.56 9.95 5.56 OS2 OS2 0.030 5.00 0.95 0.03 2.78 0.08 5.00 0.95 0.03 4.87 0.14 5.00 1.00 0.03 9.95 0.30 1324-028-00 Rational Calcs(FC).xlsx Page 4 of 4 Interwest Consulting Group Channel Report Hydraflow Express Extension for Autodesk0 AutoCADO Civil 3D0 by Autodesk, Inc. Wednesday,May 22 2019 221 E Mountain - Southern Alley Flow Depth XS 1 User-defined Highlighted Invert Elev (ft) = 4978.52 Depth (ft) = 0.22 Slope (%) = 3.00 Q (cfs) = 7.400 N-Value = 0.013 Area (sqft) = 1.68 Velocity (ft/s) = 4.40 Calculations Wetted Perim (ft) = 15.46 Compute by: Known Q Crit Depth, Yc (ft) = 0.31 Known Q (cfs) = 7.40 Top Width (ft) = 15.45 EGL (ft) = 0.52 (Sta, El, n)-(Sta, El, n)... (-11.30,4978.75)-(10.00,4978.98,0.013)-(13.45,4979.20,0.013) Elev (ft) Section Depth (ft) 4980.00 1.48 1979.50 0.98 1979.00 0.48 1978.50 -0.02 $978.00 -0.52 -5 0 5 10 15 20 Sta (ft) Channel Report Hydraflow Express Extension for Autodesk®AutoCAD®Civil 3D®by Autodesk, Inc. Wednesday,May 22 2019 221 E Mountain - Southern Alley Flow Depth XS 2 User-defined Highlighted Invert Elev (ft) = 4978.42 Depth (ft) = 0.27 Slope (%) = 1.80 Q (cfs) = 7.400 N-Value = 0.013 Area (sqft) = 1.95 Velocity (ft/s) = 3.79 Calculations Wetted Perim (ft) = 14.46 Compute by: Known Q Crit Depth, Yc (ft) = 0.35 Known Q (cfs) = 7.40 Top Width (ft) = 14.45 EGL (ft) = 0.49 (Sta, El, n)-(Sta, El, n)... (-11.30,4978.75)-(10.00,4978.89,0.013)-(13.45,4979.12,0.013) Elev (ft) Section Depth (ft) 4980.00 1.58 4979.50 1.08 1979.00 0.58 1978.50 0.08 4978.00 -0.42 t977.50 -0.92 -5 0 5 10 15 20 Sta (ft) Channel Report Hydraflow Express Extension for Autodesk®AutoCAD®Civil 3D®by Autodesk,Inc. Wednesday,May 22 2019 221 E Mountain - Southern Alley Flow Depth XS 3 User-defined Highlighted Invert Elev (ft) = 4977.56 Depth (ft) = 0.31 Slope (%) = 0.48 Q (cfs) = 7.400 N-Value = 0.013 Area (sqft) = 3.09 Velocity (ft/s) = 2.39 Calculations Wetted Perim (ft) = 18.17 Compute by: Known Q Crit Depth, Yc (ft) = 0.32 Known Q (cfs) = 7.40 Top Width (ft) = 18.16 EGL (ft) = 0.40 (Sta, El, n)-(Sta, El, n)... (-10.00,4977.95)-(8.50,4977.82,0.013)-(10.00,4977.95,0.013)-(10.00,4979.12,0.013) Elev (ft) Section Depth (ft) t980.00 2.44 4979.50 1.94 4979.00 1.44 1978.50 0.94 4978.00 0.44 L977.50 -0.06 G977.00 -0.56 -2 0 2 4 6 8 10 12 Sta (ft) Channel Report Hydraflow Express Extension for AutodeskO AutoCADO Civil 3D0 by Autodesk, Inc. Wednesday, May 22 2019 221 E Mountain - Southern Alley Flow Depth XS 4 User-defined Highlighted Invert Elev (ft) = 4977.60 Depth (ft) = 0.33 Slope (%) = 0.48 Q (cfs) = 7.400 N-Value = 0.013 Area (sqft) = 3.07 Velocity (ft/s) = 2.41 Calculations Wetted Perim (ft) = 16.63 Compute by: Known Q Crit Depth, Yc (ft) = 0.33 Known Q (cfs) = 7.40 Top Width (ft) = 16.62 EGL (ft) = 0.42 (Sta, El, n)-(Sta, El, n)... (-10.00,4977.95)-(8.50,4978.01,0.013)-(10.00,4978.09,0.013)-(10.00,4979.32,0.013) Elev (ft) Section Depth (ft) 4980.00 2.40 4979.50 1.90 4979.00 1.40 1978.50 0.90 4978.00 0.40 4977.50 -0.10 4977.00 -0.60 -2 0 2 4 6 8 10 12 Sta (ft) Channel Report Hydraflow Express Extension for Autodesk®AutoCAD®Civil 31D®by Autodesk, Inc. Wednesday,May 22 2019 221 E Mountain - Southern Alley Flow Depth XS 5 User-defined Highlighted Invert Elev (ft) = 4976.99 Depth (ft) = 0.24 Slope (%) = 0.42 Q (cfs) = 7.400 N-Value = 0.013 Area (sqft) = 3.20 Velocity (ft/s) = 2.31 Calculations Wetted Perim (ft) = 18.23 Compute by: Known Q Crit Depth, Yc (ft) = 0.24 Known Q (cfs) = 7.40 Top Width (ft) = 18.07 EGL (ft) = 0.32 (Sta, El, n)-(Sta, El, n)... (-10.00,4977.25)-(7.79,4977.14,0.013)-(8.29,4977.30,0.013) Elev (ft) Section Depth (ft) 4978.00 1.01 977.50 0.51 v 4977.00 0.01 4976.50 -0.49 4976.00 -0.99 -2 0 2 4 6 8 10 12 Sta (ft) Interwest Consulting Group 1218 W.Ash,Suite A Windsor,CO 80550 Inlet Flow Calculation for Area Inlet(24" Drop ADS Inlet) Project: 221 E.Mtn Job Number: 1324-028-00 Calculations by: laj Date: 5/1/2019 Objective: to find the number of inlet grates required WSEL Geometry at inlet Grate Open Area and information: Square Feet Open(A): 1.145 sf Reduction Factor(F): 50% Grate Flow: Use the orifice equation Qi=C*A*SQRT(2*g*H)to find the ideal inlet capacity.* *See Hydraulic Design Handbook by McGraw-Hill for verificaiton of equation use and C-value C=Orifice discharge coefficient= 0.67 A=Orifice area(ft2)-open area of grate g=gravitational constant= 32.2 fUs2 H=head on grate centroid,ponding depth(feet) Then multiply by the reduction factor for the allowable capacity. QG=Qi*(1-F) DP L Q= 0.30 cfs Q100 H= 0.01 ft A= 1.15 ft2 Q;= C*A*SQRT(2*g*H) = 0.62 cfs QG= Qi*F 0.31 cfs OK Q= 0.30 cfs Req'd Head d= 0.01 ft Available Head Prior to Overtopping= 0.48 ft Pagel 221 East Mountain Low Impact Development Design Engineer: L. Johnson Design Firm: Interwest Consulting Group Project Number: 1324-028-00 Date: May 1, 2019 DESIGN CRITERIA Urban Storm Drainage Criteria Manual, Urban Drainage and Flood Control District, January 2010 City of Fort Collins -Ordinance No. 007, 2016 -Treat at least 75%of any newly developed or redeveloped impervious area using one or a combination of LID techniques, or -Treat at least 50%of any newly developed or redeveloped impervious area using one or a combination of LID techniques when 25%of private driveable surfaces are permeable. This project is required to treat 50%of any newly developed or redeveloped imperious area using one or a combination of LID techniques. Low Impact Development Summary Developed Area Summary Total Roof Area: 19,496 sgft Total Roof Area required for Treatment(50%): 9,748 sgft Total Area Treated by FloGard Roof Filters: 20,085 sgft (includes balconies) Percent Area Treated by LID: 103.0% Elevations Credit Union Roof Drain Filters 0.55x2-yr 0.55x2-yr 100-yr 100-yr Capacity Bypass Capacity Basin 2-yr (cfs) (cfs) (gpm) (cfs) (gpm) Unit Size (gpm) (gpm) D1 0.30 0.17 76 1.12 503 8" 185 915 D2 0.30 0.17 76 1.12 503 8" 185 915 D3 I 0.59 1 0.32 144 2.21 992 10" 325 1650 Oldcastle Infrastructure" ` A CRH COMPANY R N ITI N Rooftop Removes Non-Soluble Solids Installation&Maintenance such as sediment,debris,metals is easy and economical and hydrocarbons. r� by design. Corrosion-Resistant s s"" Custom Downspout stainless steel accepts standard pow"sp adapter shapes and sizes diameter downspout pipes. are available. Variable Design Filter Medium can be flush mounted or can be customized depending recessed. on the pollutants of concern. �s y�- i FLOGARD° DOWNSPOUT FILTER Inline Filter Specially Designed for Downspouts ` The Flogard Downspout Filter is typically installed on downspout pipes of commercial buildings for the removal of non-soluble pollutants normally found on building roofs and parking decks. .k l The inline downspout filter is an ideal solution for urban sites j with little-to-no property area outside of the building perimeter. \ It is designed to provide effective filtering at low flows and incorporates a high-flow bypass to ensure conveyance is not impeded. INLET FILTRATION 0 Oldcastle Infrastructure" RECONDITION ACRHCOMPANY Rooftop Runoff Fully Scalable Solution for Stormwater Treatment The Flogard Downspout Filter can be installed as a stand-alone treatment device or used in conjunction with other Oldcastle products as part of a total Stormwater management solution. Standard round downspout inlet connection Waterproof access door and gasket assembly Standard round downspout outlet Removable slide-in connection collection basket with geotexti►e liner SPECIFICATIONS Inlet ID Box ID Solid Storage Filtered Flow Bypass Capacity Model No. (dia,in) (in x in x in) (cu ft) (gpm) (gpm) FG-DS4 4 14 x 29 x 7.5 0.35 30 145 FG-DS6 6 14 x 29 x 7.5 0.35 85 425 FG-DS8 8 22 x 33 x 17.5 1.70 185 915 FG-DS10 10 22 x 33 x 17.5 1.70 325 1,650 Storage capacity reflects 80%of maximum solids collection prior to impeding filtering bypass. Filtered flow rate includes a safety factor of 2 to 1. CITY OF LOS ANGELES Available with standard Fossil Rock or other custom absorbants. * Research report#5584 Should be used in conjunction with a regular maintenance program. * Filter is approved for use in Refer to manufacturer's recommended guidelines. the city of Los Angeles. ` (800) 579-8819 oldcastlestormwatei.com