HomeMy WebLinkAboutMARS LANDING - PDP190013 - SUBMITTAL DOCUMENTS - ROUND 5 - DRAINAGE REPORT
PREPARED FOR:
Goodwin Knight
PREPARED BY:
Galloway & Company, Inc.
5265 Ronald Regan Blvd., Suite 210
Johnstown, Colorado 80534
ORIGINAL PREPARATION:
September 11, 2019
REVISED:
March 3, 2021
June 2, 2021
July 28, 2021
MARS LANDING
FORT COLLINS, COLORADO
PRELIMINARY DRAINAGE REPORT
PRELIMINARY DRAINAGE REPORT – Mars Landing
September 11, 2019
March 3, 2021
June 2, 2021
July 28, 2021
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I. CERTIFICATIONS ..................................................................................................................................... 3
CERTIFICATION OF ENGINEER .................................................................................................... 3
CERTIFICATION OF OWNER ......................................................................................................... 3
II. GENERAL LOCATION AND DESCRIPTION ........................................................................................... 5
SITE LOCATION .............................................................................................................................. 5
DESCRIPTION OF PROPERTY ...................................................................................................... 5
III. DRAINAGE BASINS AND SUB-BASINS ................................................................................................. 6
MAJOR BASIN DESCRIPTION ....................................................................................................... 6
SUB-BASIN DESCRIPTION ............................................................................................................ 6
IV. DRAINAGE DESIGN CRITERIA ............................................................................................................. 7
REGULATIONS ............................................................................................................................... 7
DEVELOPMENT CRITERIA REFERENCE AND CONSTRAINTS ................................................. 7
HYDROLOGICAL CRITERIA ........................................................................................................... 8
HYDRAULIC CRITERIA................................................................................................................... 9
V. DRAINAGE FACILITY DESIGN ............................................................................................................. 10
GENERAL CONCEPT ................................................................................................................... 10
VI. EROSION AND SEDIMENT CONTROL MEASURES .......................................................................... 13
VII. FLOODPLAIN ....................................................................................................................................... 14
VIII. CONCLUSIONS .................................................................................................................................. 15
COMPLIANCE WITH STANDARDS .............................................................................................. 15
VARIANCES .................................................................................................................................. 15
IX. REFERENCES ...................................................................................................................................... 16
Appendices:
A. Appendix A – Reference Material
B. Appendix B – Hydrologic Calculations
C. Appendix C – Hydraulic Calculations
D. Appendix D – Existing Drainage Study Excerpts
E. Appendix E – Proposed Condition Drainage Map
TABLE OF CONTENTS
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I. CERTIFICATIONS
CERTIFICATION OF ENGINEER
“I hereby certify that this report for the preliminary drainage design of Mars Landing was prepared by me
(or under my direct supervision) in accordance with the provisions of the Fort Collins Stormwater Criteria
Manual (December 2018) for the owners thereof.”
To be signed and sealed at time of Final Drainage Report
______________________________________
Donald B. Cecil, PE
Registered Professional Engineer
State of Colorado No. 52303
For and on behalf of Galloway & Company, Inc.
CERTIFICATION OF OWNER
“Goodwin Knight hereby certifies that the drainage facilities for Mars Landing shall be constructed
according to the design presented in this report. We understand that the City of Fort Collins does not and
will not assume liability for drainage facilities designed and/or certified by our engineer. We also
understand that the City of Fort Collins relies on the representation of others to establish that drainage
facilities are designed and constructed in compliance with City of Fort Collins guidelines, standards or
specifications. Review by the City of Fort Collins can therefore in no way limit or diminish any liability,
which we or any other party may have with respect to the design or construction of such facilities.”
____________________________________
Goodwin Knight
Attest:
___________________________________
Name of Responsible Party
__________________________________
Notary Public
__________________________________
Authorized Signature
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II. GENERAL LOCATION AND DESCRIPTION
SITE LOCATION
Mars Landing (hereafter referred to as “the site” or “project site”) is a 3.79 acre project site located in the
City of Fort Collins, Larimer County, Colorado. The project site is bound to the north by Skyway Drive, to
the east by Mars Drive, to the south by undeveloped land, and to the west by undeveloped land. The
project site is located on Outlot A, South College Storage Subdivision in the southeast quarter of Section
11, T. 6N., R. 69 W. of the 6th P.M, City of Fort Collins, County of Larimer, State of Colorado. Refer to
Appendix A for a Vicinity Map showing the project site.
DESCRIPTION OF PROPERTY
The 3.79 acre project site is currently undeveloped and consists of open fallow land. Vegetation on the
project site consists of mostly invasive weeds and grasses. A section of the North Loudon Ditch bisects
the project site. The ditch has been abandoned and ditch flows are now conveyed via a system of
underground storm sewer. This underground storm sewer does not encroach onto the project site. The
Mars Drive right-of-way and the South College Storage Units site plan immediately to the east of the
project site were approved and constructed between 2017 and 2019. The project site currently drains
from west to east at slopes ranging from 2% to 25%. The steeper slopes up to 25% occur adjacent to the
east property boundary at Mars Drive where large earthwork cuts occurred for the construction of Mars
Drive. A culvert was extended under Mars Drive to the project site near the intersection with Skyway
Drive as part of the South College Storage Units project. The culvert was designed to bypass runoff from
the Mars Landing site under Mars Drive. A drainage analysis of the Mars Landing site and adjacent lands
was performed for sizing of the culvert under Mars Drive. An offsite drainage area immediately to the
west of the project site, between the west property boundary and Gateway Center Drive, was delineated
as part of the South College Storage Units Final Drainage Report. This offsite area drains onto the Mars
Landing site and eventually is captured by the culvert in Mars Drive. A copy of the the drainage map from
the South College Storage Units Final Drainage Report are included in Appendix E.
The project site covers the entire ±3.79 acre Outlot A. The proposed improvements include two multi-
family residential buildings with 90 dwelling units, detached garage buildings, internal roadways, wet/dry
utilities and landscaping in common and amenity areas. A small portion of Mars Drive will be added to
the current road alignment and will extend from its existing terminus approximately 150’ to the south
where it will terminate perpendicular to the Mars Landing project site.
According to the Natural Resources Conservation Service (NRCS) Web Soil Survey, the project site
consists of a mix of soil types and Hydrologic Soil Groups (HSGs)including:
- Fort Collins Loam, HSG ‘C’, 16.7% of total project area
- Kim Loam, HSGs ‘B’, 45.6%
- Kim-Thedalund Loam, HSG ‘B’, 37.7%
The predominant on-site HSG is ‘B’. Group B soils have a moderate infiltration rate when thoroughly wet.
These consist chiefly of moderately deep to deep, moderately well drained or well drained soils that have
moderately fine texture to moderately coarse texture. These soils have a moderate rate of water
transmission. Refer to Appendix A, for the Web Soil Survey and soils information.
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A geotechnical report was prepared by Earth Engineering Consultants (EEC) in July 2019 for the project
site. The EEC report included site-specific borings for the project site. Nine exploratory borings were
performed across the project site and discovered that subsurface conditions generally consisted of clayey
sand/sandy lean clay and/or lean clay with sand subsoils, extending to underlying bedrock depths of
approximately 2’ to 6’ below the ground surface. Groundwater was observed at depths of approximately
14’ to 17’ below the ground surface.
III. DRAINAGE BASINS AND SUB-BASINS
MAJOR BASIN DESCRIPTION
The basin which includes the Mars Landing project site was included within the Final Drainage Report for
the South College Storage Units by Northern Engineering, dated September 2017. Refer to Appendix D,
for the South College Storage Units Drainage Exhibit. The project site is a part of Basin W1, which
discharges into the culvert under Mars Drive. For purposes of this study for the Mars Landing project,
Basin W1 is generally divided into two major drainage basins, Basin A and Basin B. Runoff from Basin A,
will be conveyed via a system of swales, curb and gutter, underground storm sewer, and detention
facilities to the culvert under Mars Drive. Runoff from Basin B consists generally of runoff that cannot be
captured via the proposed conveyance system to be constructed with the Mars Landing project site.
These flows will run off the property overland via overland flow into Mars Drive. A portion of the proposed
improvements including the Mars Drive road extension were included in the original calculations for the
South College Storage Units and are not included with this Study.
The project site is enveloped entirely within the Fossil Creek drainage basin, as delineated by the City of
Fort Collins Drainage Basin Master Plan. The Drainage Basin Master Plan was approved by City Council
in June of 2004 and describes the flooding history of the specified basins and offers guidance for new
development within the basins.
The project site is shown on FEMA Map Numbers 08069C1000F and 08069C1200F. The floodplain map
indicates the project exists within Zone X - Area of Minimal Flood Hazard and is, therefore, not impacted
by an existing floodplain/floodway. Refer to Appendix A for a Firmette of the Flood Plain Hazard Map.
SUB-BASIN DESCRIPTION
The sub-basin development included herein is intended as a step toward informing future detailed
preliminary and final storm drain infrastructure design. The developed drainage basins shown on sheet
C8.0 will be further subdivided as the grading design evolves.
A Basins: These basins are compositionally similar and comprised of the proposed building roof areas,
asphalt, curb and gutter, sidewalks, landscaping, and outdoor amenity areas. These basins are intended
to be captured via the on-site drainage system and routed through the proposed detention pond to the
culvert under Mars Drive.
B Basins: These basins are compositionally similar and are comprised of both paved drive entrances to
the site, landscaped areas and sidewalk/other hardscape. Due to the location of these sub-basins
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directly adjacent to Mars Drive, they cannot be captured via the on-site drainage system and will runoff
directly into Mars Drive.
OS1 Basin: This basin is the only offsite basin entering our site. This basin was delineated with the
South College Storage Units Final Drainage Report. This land consists of open field to the west of the
project site along the entire west property line. Flows from this basin will flow overland to the west
property line will they enter the site evenly distributed along the property line. The Mars Landing project
proposes to make landscaping improvements to this area to count toward required mitigation of habitat
removal associated with the proposed development. No additional impervious cover or earthwork
improvements are proposed in this offsite basin.
IV. DRAINAGE DESIGN CRITERIA
REGULATIONS
This preliminary drainage design presented herein is prepared in accordance with the Fort Collins
Stormwater Criteria Manual (December (2018).
DEVELOPMENT CRITERIA REFERENCE AND CONSTRAINTS
The project site is enveloped entirely within the Fossil Creek drainage basin, as delineated by the City of
Fort Collins Drainage Basin Master Plan. The Drainage Basin Master Plan was approved by City Council
in June of 2004 and describes the flooding history of the specified basins and offers guidance for new
development within the basins. Several site specific constrains helped develop the Low Impact Design
Water Quality BMPs and detention pond design presented here.
· The outfall for the project site is a stub out provided via the culvert under Mars Drive at the
northwest corner of the site, constructed with the South College Storage Units Final Utility Plan.
The invert elevation of this culvert is 5032.46.
· The site configuration is disproportionate, with the north-south property boundary lines being
much greater than that of the east-west boundary lines. The site is generally flat along the north-
south property boundary lines, but is relatively steep along those boundary lines running east and
west.
· The property line is directly adjacent to Mars Drive to the east and Skyway Drive to the north.
· The existing soils are unsuitable for infiltrating stormwater runoff and generally consist of clayey
sand/sandy lean clay and/or lean clay with sand subsoils
Due to the project site being encumbered by these constraints, we developed a strategy for implementing
“The Four-Step Process” for stormwater quality management to the Maximum Extent Practicable (MEP).
Each step is listed below along with a brief narrative describing the implementation strategy.
Step 1 – Employ Runoff Reduction Practices
All developed runoff from Drainage Basin A will be routed through the on-site detention pond. The
detention pond will restrict the flowrate of stormwater leaving the site and reduce the impact on
downstream drainage areas. Further, all runoff from half of the developed runoff from the garage roofs
will be routed across earthen swales before they are captured in the site’s storm sewer system or
detention pond. Further, 90% of the project’s added impervious area will be routed through the
underwater stormwater quality chambers.
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Step 2 – Implement BMPs that provide a Water Quality Capture Volume
Approximately 90% of the project’s added impervious area will be routed through the underwater
stormwater quality chambers to meet the LID requirements set forth. Sub-basins within Basin A not
routed through the underwater stormwater quality chambers will be treated using other water quality
treatment methods described in other sections of this report. Generated runoff from the majority of Basin
B, which will not be routed through the underwater chambers or detention pond, will pass across grass
landscaped areas before they flow into Mars Drive and, eventually, public storm sewer within Mars Drive.
Step 3 – Stabilize Drainageways
There are no defined drainageways on the site. Earthen swales will be planted to stabilize the shallow
embankments and prevent erosion.
Step 4 – Implement site specific and other source control BMPs
An erosion control plan and Stormwater Management Plan will be implemented to prevent erosion and
control sediment on the project site and downstream drainageways during and after construction.
HYDROLOGICAL CRITERIA
For urban catchments that are not complex and generally 160 acres or less in size, it is acceptable to
estimate the design storm runoff with the rational method. The rational method is often used when only
the peak flow rate or total volume of runoff is needed (e.g., inlet sizing, storm sewer sizing or simple
detention basin sizing).
The Rational Method is based on the Rational Formula:
Q = CiA
where:
Q = the maximum rate of runoff, cfs
C = a runoff coefficient that is the ratio between the runoff volume from an area and the average rate of
rainfall depth over a given duration for that area
i = average intensity of rainfall in inches per hour for a duration equal to the time of concentration
A = area, acres
The runoff coefficient, C, for each basin is a weighted average of the runoff coefficient associated with
each land-use type (e.g., asphalt = 0.95). Refer to Appendix A and Tables 3.2-2 and 3.2-3 which list
runoff coefficient associated with each land use type and the Frequency Adjustment Factors (Cf) that
were used to adjust the runoff coefficients for lower probability storm events.
The one-hour rainfall Intensity-Duration-Frequency tables for use with the Rational Method of runoff
analysis are provided in Table 3.4.1 (refer to Appendix B).
The 2-year and 100-year storm events serve as the basis for the drainage system design. The 2-year
storm is considered the minor storm event. It has a fifty percent probability of exceedance during any
given year. The 100-year storm is considered the major storm event. It has a one percent probability of
exceedance in any given year.
The 2-year drainage system, at a minimum, must be designed to transport runoff from the 2-year
recurrence interval storm event with minimal disruption to the environment. The 100-year drainage
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system, as a minimum, must be designed to convey runoff from the 100-year recurrence interval flood to
minimize life hazards and health, damage to structures, and interruption to traffic and services.
HYDRAULIC CRITERIA
The storm drain system is limited to culverts and swales on the project site that will convey runoff
underneath drives and parking areas to the underground water quality and above ground detention pond.
The storm drain system hydraulic analysis will be completed in a future submittal using Bentley StormCAD
V8i. This software routes flows based on the longest upstream Time of Concentration (tc) at each junction.
Given the controlling tc, StormCAD V8i calculates the flow at the junction with the corresponding intensity
(e.g., i2 and i100) and aggregate CA.
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V. DRAINAGE FACILITY DESIGN
GENERAL CONCEPT
The preliminary design presents the design of a system for collecting and conveying developed runoff
from the proposed development at the Mars Landing project site into the on-site underground water
quality basins and the above ground detention pond.
Developed runoff will generally consist generally of flows generated from roof areas, paved drives and
parking areas, landscaped areas, and hardscape. The developed runoff for each basin begins as
overland flow at numerous locations throughout the project site. The runoff then flows via a stormwater
conveyance system consisting of swales, curb and gutter, and underground storm sewer into the
underground water quality system and the above ground detention pond.
Significant work is required beyond that which is included herein to design the on-site stormwater
conveyance and water quality and detention system. This work includes:
· fine grading design;
· further sub-basin delineation;
· area inlet design;
· swale design;
· storm drain system design (i.e., hydraulic grade line analysis).
SPECIFIC DETAILS
A Basins
These basins comprise approximately 3.44 acres. The developed runoff from these basins is captured
via a system of overland flow, swales, curb and gutter, and an underground storm sewer system. Runoff
from the majority of the A Basins, except for Basins A-1 & A-3, is diverted trough the below ground water
quality treatment basins. Runoff from Basin A-1 will be captured via a system of curb and gutter and
routed to an inlet where runoff will be treated for water quality with a Snout hood water quality BMP. A
variance to the Stormwater Criteria Manual has been requested for treatment of Basin A-1 with the Snout
Hood rather than other approved water quality treatment methods. Runoff from Basin-A-3 will flow
overland from impervious areas included roof and hardscape across vegetated areas and grass lined
swales before entering the detention pond. All A Basins are conveyed to the on-site detention pond.
Runoff from Basin A-1 is the only on-site basin routed through the detention pond that will not be treated
by the Stormtech Subsurface Stormwater Management System for purposes of Low Impact Development.
A variance from the City of Fort Collins Stormwater Criteria Manual Chapter 1.2.3.5 – Water Quality and
Chapter 7.4 – Water Quality Detention has been requested to allow installation of the Snout hood water
quality BMP versus an approved LID method or Water Quality Detention.
B Basins
These basins comprise approximately 0.35 acres. The developed runoff from these basins flow overland
from the two driveways along Mars Drive and across landscape areas and hardscape into Mars Drive.
Due to the location of these basins immediately adjacent to Mars Drive, they cannot be captured and
conveyed to the on-site water quality and detention facilities. Since the majority of these flows are routed
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across landscaped areas, and since this basin is spread across the entire Mars Drive right-of-way
boundary adjacent to the project site, it is expected that the landscaped areas will serve as water quality
buffers for runoff generated in these basins. Further, the point flows generated in these basins are
considered negligible and should not have an adverse impact on the downstream stormwater
infrastructure.
Underground Water Quality
The underground water quality treatment system will be comprised on the Stormtech Subsurface
Stormwater Management System (Stormtech) manufactured by Advanced Drainage Systems, Inc., which
is an allowed method by the City of Fort Collins for the Low Impact Development (LID) stormwater
management technique requirements. Stormtech utilizes underground stormwater collection chambers to
achieve the necessary volume required to be treated for Water Quality. The captured volume then
infiltrates through a filtering fabric at the floor of the chamber, removing contaminants. An underdrain
system then captures the filtered runoff and conveys the runoff to the on-site detention pond. The total
contributing area to the Stormtech system is 2.74 acres. Preliminary calculations for this study have
determined that 90% of the added impervious area from the project site will be routed through the
Stormtech system. The required water quality capture volume routed through the chambers was
determined using the City of Fort Collins Modified FAA Method for the 2-year Return Period. Calculations
for the sizing of the Underground Water Quality System are included in Appendix C.
On-Site Detention Pond
The on-site detention pond was sized using City of Fort Collins Modified FAA Method for the 2-year
Return Period. The proposed release rate for the detention pond was determined using the allowable 0.2
cfs per acre of project area for projects within the Fossil Creek Drainage Basin. The allowable release
rate was calculated to be 0.69 cfs. The pond has a volume of 39,201 cubic feet and provides the required
detention control for the 100-year return period. Calculations for the sizing of the Detention Pond are
included in Appendix C. The detention pond will discharge via an outlet structure that is connected
directly to the culvert under Mars Drive that was constructed with the South College Storage Units. The
release rate from the detention pond does not exceed the capacity of the culvert under Mars Drive.
Maintenance access to the detention pond will be provided through the project site. Maintenance
vehicles shall utilize on-site parking adjacent to the pond. Maintenance personnel should access the
pond on foot, through the project site at the west end of the pond to perform maintenance activities.
Given the relatively small footprint of the pond and intent to utilize the pond for vegetative purposes, it is
generally not feasible to provide vehicle access directly into the pond.
Basin OS-1
Basin OS-1 is the only offsite basin entering our site. This basin is 1.55 acres and was delineated with
the South College Storage Units Final Drainage Report. This land consists of open field to the west of the
project site along the entire west property line. Flows from this basin for the 100-year return period were
calculated to be approximately 2.20 cfs. Runoff generated from this basin will flow overland to the west
property line will they enter the site evenly distributed along the property line. The Mars Landing project
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proposes to make landscaping improvements to this area to count toward required mitigation of habitat
removal associated with the proposed development. Given that no additional impervious cover or
earthwork improvements are proposed in this offsite basin and there will be no point discharge generated
from this small basin, runoff generated from this basin should be considered negligible and should have
no impact on the downstream drainage system.
Mars Drive Improvements
A small portion of Mars Drive will be added to the current road alignment and will extend from its existing
terminus approximately 150’ to the south where it will terminate perpendicular to the Mars Landing project
site. A 5’ wide sidewalk along the west side of the Mars Drive right-of-way will also be constructed with
this project. Conveyance of runoff generated within the Mars Drive right-of-way south of Skyway Drive
was studied in the Final Drainage Report for the South College Storage Units project and is not included
in this study. Runoff generated with the south portion of the sidewalk installation and the extension of
Mars Drive for the Mars Landing project is included within Basins M7 and M6 of the South College
Storage Units drainage study. Runoff from these basins is captured in two curb inlets, one on either side
of Mars Drive. Stormwater is then conveyed from these inlets via underground storm sewer to the South
College Storage Units rain garden and detention pond. Runoff generated with the north portion of the
sidewalk installation will flow overland into Mars Drive will it be captured in the existing vertical curb and
gutter system that drains downhill toward Skyway Drive to the north.
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VI. EROSION AND SEDIMENT CONTROL MEASURES
A General Permit for Stormwater Discharge Associated with Construction Activities issued by the
Colorado Department of Public Health and Environment (CDPHE), Water Quality Control Division
(WQCD), will be acquired for the project site. Prior to any earth disturbing activity a Stormwater
Management Plan (SWMP) will be prepared to identity the Control Measures which, when implemented,
will meet the requirements of said General Permit.
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VII. FLOODPLAIN
According to FEMA FIRM Map Numbers 08069C1405F - effective date: 12/19/2006, the project site
resides in Zone X – Area of Minimal Flood Hazard. Refer to Appendix A, pages A-X and A-X for the
FIRM Map and Firmette.
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VIII. CONCLUSIONS
COMPLIANCE WITH STANDARDS
The design presented in this preliminary drainage report for Mars Landing has been prepared in
accordance with the design standards and guidelines presented in the Fort Collins Stormwater Criteria
Manual.
VARIANCES
No variance(s) requested at this time.
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IX. REFERENCES
1. Fort Collins Stormwater Criteria Manual (December (2018)
2. Urban Drainage and Flood Control District, Drainage Criteria Manual Volumes 1 and 2, prepared
by Wright-McLaughlin Engineers, originally published March 1969 and updated August 2018, and
the Volume 3, prepared by Wright-McLaughlin Engineers, originally published September 1992
and updated April 2018.
`
APPENDIX A
REFERENCE MATERIAL
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VICINITY MAP
SCALE: NTSS. COLLEGE AVEW. TRILBY RDMARS DRVICINITY MAP
SITE
SKYWAY DR
`
NRCS SOILS MAP
Hydrologic Soil Group—Larimer County Area, Colorado
(Skyway Townhomes)
Natural Resources
Conservation Service
Web Soil Survey
National Cooperative Soil Survey
6/27/2019
Page 1 of 4448327044832904483310448333044833504483370448339044834104483430448345044834704483490448327044832904483310448333044833504483370448339044834104483430448345044834704483490493110493130493150493170493190493210493230493250493270
493110 493130 493150 493170 493190 493210 493230 493250 493270
40° 30' 7'' N 105° 4' 52'' W40° 30' 7'' N105° 4' 45'' W40° 30' 0'' N
105° 4' 52'' W40° 30' 0'' N
105° 4' 45'' WN
Map projection: Web Mercator Corner coordinates: WGS84 Edge tics: UTM Zone 13N WGS84
0 50 100 200 300
Feet
0 15 30 60 90
Meters
Map Scale: 1:1,130 if printed on A portrait (8.5" x 11") sheet.
Soil Map may not be valid at this scale.
MAP LEGEND MAP INFORMATION
Area of Interest (AOI)
Area of Interest (AOI)
Soils
Soil Rating Polygons
A
A/D
B
B/D
C
C/D
D
Not rated or not available
Soil Rating Lines
A
A/D
B
B/D
C
C/D
D
Not rated or not available
Soil Rating Points
A
A/D
B
B/D
C
C/D
D
Not rated or not available
Water Features
Streams and Canals
Transportation
Rails
Interstate Highways
US Routes
Major Roads
Local Roads
Background
Aerial Photography
The soil surveys that comprise your AOI were mapped at
1:24,000.
Warning: Soil Map may not be valid at this scale.
Enlargement of maps beyond the scale of mapping can cause
misunderstanding of the detail of mapping and accuracy of soil
line placement. The maps do not show the small areas of
contrasting soils that could have been shown at a more detailed
scale.
Please rely on the bar scale on each map sheet for map
measurements.
Source of Map: Natural Resources Conservation Service
Web Soil Survey URL:
Coordinate System: Web Mercator (EPSG:3857)
Maps from the Web Soil Survey are based on the Web Mercator
projection, which preserves direction and shape but distorts
distance and area. A projection that preserves area, such as the
Albers equal-area conic projection, should be used if more
accurate calculations of distance or area are required.
This product is generated from the USDA-NRCS certified data as
of the version date(s) listed below.
Soil Survey Area: Larimer County Area, Colorado
Survey Area Data: Version 13, Sep 10, 2018
Soil map units are labeled (as space allows) for map scales
1:50,000 or larger.
Date(s) aerial images were photographed: Aug 11, 2018—Aug
12, 2018
The orthophoto or other base map on which the soil lines were
compiled and digitized probably differs from the background
imagery displayed on these maps. As a result, some minor
shifting of map unit boundaries may be evident.
Hydrologic Soil Group—Larimer County Area, Colorado
(Skyway Townhomes)
Natural Resources
Conservation Service
Web Soil Survey
National Cooperative Soil Survey
6/27/2019
Page 2 of 4
Hydrologic Soil Group
Map unit symbol Map unit name Rating Acres in AOI Percent of AOI
35 Fort Collins loam, 0 to 3
percent slopes
C 0.6 16.7%
54 Kim loam, 3 to 5 percent
slopes
B 1.6 45.6%
56 Kim-Thedalund loams, 3
to 15 percent slopes
B 1.3 37.7%
Totals for Area of Interest 3.5 100.0%
Description
Hydrologic soil groups are based on estimates of runoff potential. Soils are
assigned to one of four groups according to the rate of water infiltration when the
soils are not protected by vegetation, are thoroughly wet, and receive
precipitation from long-duration storms.
The soils in the United States are assigned to four groups (A, B, C, and D) and
three dual classes (A/D, B/D, and C/D). The groups are defined as follows:
Group A. Soils having a high infiltration rate (low runoff potential) when
thoroughly wet. These consist mainly of deep, well drained to excessively
drained sands or gravelly sands. These soils have a high rate of water
transmission.
Group B. Soils having a moderate infiltration rate when thoroughly wet. These
consist chiefly of moderately deep or deep, moderately well drained or well
drained soils that have moderately fine texture to moderately coarse texture.
These soils have a moderate rate of water transmission.
Group C. Soils having a slow infiltration rate when thoroughly wet. These consist
chiefly of soils having a layer that impedes the downward movement of water or
soils of moderately fine texture or fine texture. These soils have a slow rate of
water transmission.
Group D. Soils having a very slow infiltration rate (high runoff potential) when
thoroughly wet. These consist chiefly of clays that have a high shrink-swell
potential, soils that have a high water table, soils that have a claypan or clay
layer at or near the surface, and soils that are shallow over nearly impervious
material. These soils have a very slow rate of water transmission.
If a soil is assigned to a dual hydrologic group (A/D, B/D, or C/D), the first letter is
for drained areas and the second is for undrained areas. Only the soils that in
their natural condition are in group D are assigned to dual classes.
Hydrologic Soil Group—Larimer County Area, Colorado Skyway Townhomes
Natural Resources
Conservation Service
Web Soil Survey
National Cooperative Soil Survey
6/27/2019
Page 3 of 4
Rating Options
Aggregation Method: Dominant Condition
Component Percent Cutoff: None Specified
Tie-break Rule: Higher
Hydrologic Soil Group—Larimer County Area, Colorado Skyway Townhomes
Natural Resources
Conservation Service
Web Soil Survey
National Cooperative Soil Survey
6/27/2019
Page 4 of 4
`
FEMA FIRMETTE
USGS The National Map: Orthoimagery. Data refreshed April, 2019.
National Flood Hazard Layer FIRMette
0 500 1,000 1,500 2,000250Feet
Ü105°5'7.24"W 40°30'16.76"N 105°4'29.78"W 40°29'49.41"N
SEE FIS REPORT FOR DETAILED LEGEND AND INDEX MAP FOR FIRM PANEL LAYOUT
SPECIAL FLOODHAZARD AR EAS
Without Base Flood Elevation (BFE)Zone A, V, A99With BFE or Depth Zone AE, AO, AH, VE, AR
Regulator y Floodway
0.2% Annual Chance Flood Hazard, Areasof 1% annual chance flood with averagedepth less than one foot or with drainageareas of less than one square mile Zone X
Future Conditions 1% AnnualChance Flood Hazard Zone XArea with Reduced Flood Risk due toLevee. See Notes.Zone X
Area with Flood Risk due to Levee Zone D
NO SCREE N Area of Minimal Flood Hazard Zone X
Area of Undetermined Flood Hazard Zone D
Channel, Culver t, or Storm SewerLevee, Dike, or Floodwall
Cross Sections with 1% Annual Chance17.5 Water Surface ElevationCoastal Transect
Coastal Transect BaselineProfile BaselineHydrographic Feature
Base Flood Elevation Line (BFE)
Effective LOMRs
Limit of StudyJurisdiction Boundar y
Digital Data Available
No Digital Data Available
Unmapped
This map complies with FEMA's standards for the use of digital flood maps if it is not void as described below. The basemap shown complies with FEMA's basemap accuracy standards
The flood hazard information is derived directly from theauthoritative NFHL web ser vices provided by FEMA. This mapwas exported on 6/27/2019 at 5:17:47 PM and does notreflect changes or amendments subsequent to this date andtime. The NFHL and effective information may change orbecome superseded by new data over time.
This map image is void if the one or more of the following mapelements do not appear: basemap imagery, flood zone labels,legend, scale bar, map creation date, community identifiers,FIRM panel number, and FIRM effective date. Map images forunmapped and unmodernized areas cannot be used forregulatory purposes.
Legend
OTHER AREAS OFFLOOD HAZARD
OTHER AREAS
GENERALSTRUCTURES
OTHERFEATURES
MAP PANELS
8
1:6,000
B 20.2
The pin displayed on the map is an approximate point selected by the user and does not represent an authoritative proper ty location.
`
APPENDIX B
HYDROLOGY CALCULATIONS
`
PROPOSED RUNOFF
CALCULATIONS
Subdivision:South College Storage SubdivisionProject Name: Mars LandingLocation:CO, Fort CollinsProject No.:Calculated By: DBCChecked By: HFINPUTUser InputDate: 6/2/21OUTPUT Calculated ValueSingle-Family Alley-LoadedSF Duplex/AttachedMulti-Family95%5% 100%A10.09950.07 74200.02 4950.00 0 0.78A20.30950.22 70200.06 4950.02 5 0.79A30.61950.02 3200.58 19950.01 2 0.24A40.24950.18 69200.05 4950.02 7 0.80A50.48950.41 80200.05 2950.02 4 0.87A60.85950.48 54200.35 8950.02 2 0.64A70.18950.15 81200.03 3950.00 0 0.84A80.34950.00 0200.00 0950.34 95 0.95A90.35950.00 0200.00 0950.35 95 0.95B10.12950.03 24200.09 15950.00 0 0.39B20.22950.03 14200.18 17950.00 2 0.33B30.01950.01 53200.00 9950.00 0 0.62 A BASINS (Detention Tributary)3.44951.53 42201.14 7950.77 21 0.70LID Tributary (A2 & A4-A9)2.74951.43 50200.54 4950.78 27 0.80Σ Basins - B BASINS0.35950.07 19200.28 16950.00 1 0.36Σ Basins - TOTAL3.79951.60 40201.42 7950.78 20 0.67COMPOSITE RUNOFF COEFFICIENTSArea (ac)Area WeightedAsphalt + Concrete Walks Lawns, Clayey SoilArea WeightedRunoff CoefficientArea (ac)GNK008.20Area WeightedC2Basin ID Total Area (ac)Runoff CoefficientArea (ac)RoofsRunoff CoefficientPage 1 of 1 7/22/2021
Subdivision:South College Storage SubdivisionProject Name: Mars LandingLocation:CO, Fort CollinsProject No.:Calculated By: DBCChecked By: HFDate: 6/2/211 2 3 4 5 6 7 8 9 10 13 14 15 16 17 18 19 20 21 22 23 24BASIN D.A. Hydrologic C2C5C100L S Ti | 2-YearTi | 100-YearL Calculated S CvVEL. TtCOMP. Tc | 2-YearCOMP. Tc | 100-YearTOTAL Urbanized TcTc | 2-YearTc | 100-YearID (AC) Soils GroupCf=1.00Cf=1.00Cf=1.25(FT) (%) (MIN) (MIN) (FT) Slope, % (%) (FPS) (MIN) (MIN) (MIN) LENGTH(FT) (MIN) (MIN) (MIN)A1 0.09C0.78 0.78 0.9820 5.751.5 0.6983.603.60 203.8 0.4 1.9 1.0 118 10.7 5.0 5.0A2 0.30C0.79 0.79 0.9921 19.001.0 0.42521.981.98 202.8 1.5 2.5 1.9 273 11.5 5.0 5.0A3 0.61C0.24 0.24 0.300 2.000.0 0.03402.952.95 152.6 2.2 2.2 2.2 340 11.9 5.0 5.0A4 0.24C0.80 0.80 1.000 2.000.0 0.01252.782.78 203.3 0.6 0.6 0.6 125 10.7 5.0 5.0A5 0.48C0.87 0.87 1.0022 9.271.0 0.41256.096.09 204.9 0.4 1.4 0.8 147 10.8 5.0 5.0A6 0.85C0.64 0.64 0.8016 15.131.4 0.91574.544.54 204.3 0.6 2.0 1.5 173 11.0 5.0 5.0A7 0.18C0.84 0.84 1.000 2.000.0 0.01353.933.93 204.0 0.6 0.6 0.6 135 10.8 5.0 5.0A8 0.34C0.95 0.95 1.000 2.000.0 0.0641.561.56 202.5 0.4 0.4 0.4 64 10.4 5.0 5.0A9 0.35C0.95 0.95 1.000 2.000.0 0.0641.561.56 202.5 0.4 0.4 0.4 64 10.4 5.0 5.0B1 0.12C0.39 0.39 0.480 2.000.0 0.04710.5510.55 206.5 0.1 0.1 0.1 47 10.3 5.0 5.0B2 0.22C0.33 0.33 0.410 2.000.0 0.0942.762.76 203.3 0.5 0.5 0.5 94 10.5 5.0 5.0B3 0.01C0.62 0.62 0.780 2.000.0 0.0265.655.65 204.8 0.1 0.1 0.1 26 10.1 5.0 5.0NOTES: Ti = (1.87*(1.1 - CCf)*(L)^0.5)/((S)^0.33), S in %CvTt=L/60V2.5Velocity V=Cv*S^0.5, S in ft/ft5Tc Check = 10+L/1807For urbanized basins a minimum Tc of 5.0 minutes is required.10For non-urbanized basins a minimum Tc of 10.0 minutes is required1520Paved Areas and Shallow Paved SwalesDATAType of Land SurfaceHeavy MeadowTillage/FieldShort Pasture and LawnsNearly Bare GroundGrassed WaterwaySTANDARD FORM SF-2TIME OF CONCENTRATIONSUB-BASINTc CHECKGNK008.20FINALINITIAL/OVERLAND(Ti)TRAVEL TIME(URBANIZED BASINS)(Tt)Page 1 of 1 7/22/2021
Project Name: Mars LandingSubdivision:South College Storage SubdivisionProject No.:GNK008.20Location:CO, Fort CollinsCalculated By: DBCDesign Storm:Checked By: HFDate: TRAVEL TIMESTREETDesign PointBasin IDArea (Ac)Runoff Coeff. | C 2Tc | 2-Year (min)C*A (Ac)I (in/hr)Q (cfs)Tc (min)C*A (Ac)I (in/hr)Q (cfs)Slope (%)Street Flow (cfs)Design Flow (cfs)Slope (%)Pipe Size (inches)Length (ft)Velocity (fps)Tt (min)REMARKSA1 A1 0.09 0.78 5.0 0.07 2.85 0.2A2 A2 0.30 0.79 5.0 0.23 2.85 0.7A3 A3 0.61 0.24 5.0 0.15 2.85 0.4A4 A4 0.24 0.80 5.0 0.19 2.85 0.6A5 A5 0.48 0.87 5.0 0.41 2.85 1.2A6 A6 0.85 0.64 5.0 0.54 2.85 1.6A7 A7 0.18 0.84 5.0 0.15 2.85 0.4A8 A8 0.34 0.95 5.0 0.33 2.85 0.9A9 A9 0.35 0.95 5.0 0.33 2.85 0.9B1 B1 0.12 0.39 5.0 0.05 2.85 0.1B2 B2 0.22 0.33 5.0 0.07 2.85 0.2B3 B3 0.01 0.62 5.0 0.01 2.85 0.02DIRECT RUNOFF TOTAL RUNOFF STREET PIPESTANDARD FORM SF-3STORM DRAINAGE SYSTEM DESIGN(RATIONAL METHOD PROCEDURE)2-Year6/3/21Page 1 of 1 7/22/2021
STANDARD FORM SF-3STORM DRAINAGE SYSTEM DESIGN(RATIONAL METHOD PROCEDURE)Project Name: Mars LandingSubdivision:South College Storage SubdivisionProject No.:GNK008.20Location:CO, Fort CollinsCalculated By: DBCDesign Storm:Checked By: HFDate: TRAVEL TIMESTREETDesign PointBasin IDArea (Ac)Runoff Coeff. | C 100Tc | 100-Year (min)C*A (Ac)I (in/hr)Q (cfs)Tc (min)C*A (Ac)I (in/hr)Q (cfs)Slope (%)Street Flow (cfs)Design Flow (cfs)Slope (%)Pipe Size (inches)Length (ft)Velocity (fps)Tt (min)REMARKSA1 A1 0.09 0.98 5.0 0.09 9.95 0.9A2 A2 0.30 0.99 5.0 0.29 9.95 2.9A3 A3 0.61 0.30 5.0 0.18 9.95 1.8A4 A4 0.24 1.00 5.0 0.24 9.95 2.4A5 A5 0.48 1.00 5.0 0.48 9.95 4.8A6 A6 0.85 0.80 5.0 0.68 9.95 6.8A7 A7 0.18 1.00 5.0 0.18 9.95 1.8A8 A8 0.34 1.00 5.0 0.34 9.95 3.4A9 A9 0.35 1.00 5.0 0.35 9.95 3.5B1 B1 0.12 0.48 5.0 0.06 9.95 0.6B2 B2 0.22 0.41 5.0 0.09 9.95 0.9B3 B3 0.01 0.78 5.0 0.01 9.95 0.1100-YearDIRECT RUNOFF TOTAL RUNOFF STREET6/2/21PIPEPage 1 of 1 7/22/2021
FORT COLLINS STORMWATER CRITERIA MANUAL Hydrology Standards (Ch. 5)
3.0 Rational Method
3.4 Intensity-Duration-Frequency Curves for Rational Method
Page 8
Table 3.4-1. IDF Table for Rational Method
Duration
(min)
Intensity
2-year
(in/hr)
Intensity
10-year
(in/hr)
Intensity
100-year
(in/hr)
Duration
(min)
Intensity
2-year
(in/hr)
Intensity
10-year
(in/hr)
Intensity
100-year
(in/hr)
5 2.85 4.87 9.95
39 1.09 1.86 3.8
6 2.67 4.56 9.31
40 1.07 1.83 3.74
7 2.52 4.31 8.80
41 1.05 1.80 3.68
8 2.40 4.10 8.38
42 1.04 1.77 3.62
9 2.30 3.93 8.03
43 1.02 1.74 3.56
10 2.21 3.78 7.72
44 1.01 1.72 3.51
11 2.13 3.63 7.42
45 0.99 1.69 3.46
12 2.05 3.50 7.16
46 0.98 1.67 3.41
13 1.98 3.39 6.92
47 0.96 1.64 3.36
14 1.92 3.29 6.71
48 0.95 1.62 3.31
15 1.87 3.19 6.52
49 0.94 1.6 3.27
16 1.81 3.08 6.30
50 0.92 1.58 3.23
17 1.75 2.99 6.10
51 0.91 1.56 3.18
18 1.70 2.90 5.92
52 0.9 1.54 3.14
19 1.65 2.82 5.75
53 0.89 1.52 3.10
20 1.61 2.74 5.60
54 0.88 1.50 3.07
21 1.56 2.67 5.46
55 0.87 1.48 3.03
22 1.53 2.61 5.32
56 0.86 1.47 2.99
23 1.49 2.55 5.20
57 0.85 1.45 2.96
24 1.46 2.49 5.09
58 0.84 1.43 2.92
25 1.43 2.44 4.98
59 0.83 1.42 2.89
26 1.4 2.39 4.87
60 0.82 1.4 2.86
27 1.37 2.34 4.78
65 0.78 1.32 2.71
28 1.34 2.29 4.69
70 0.73 1.25 2.59
29 1.32 2.25 4.60
75 0.70 1.19 2.48
30 1.30 2.21 4.52
80 0.66 1.14 2.38
31 1.27 2.16 4.42
85 0.64 1.09 2.29
32 1.24 2.12 4.33
90 0.61 1.05 2.21
33 1.22 2.08 4.24
95 0.58 1.01 2.13
34 1.19 2.04 4.16
100 0.56 0.97 2.06
35 1.17 2.00 4.08
105 0.54 0.94 2.00
36 1.15 1.96 4.01
110 0.52 0.91 1.94
37 1.16 1.93 3.93
115 0.51 0.88 1.88
38 1.11 1.89 3.87
120 0.49 0.86 1.84
FORT COLLINS STORMWATER CRITERIA MANUAL Hydrology Standards (Ch. 5)
3.0 Rational Method
3.4 Intensity-Duration-Frequency Curves for Rational Method
Page 9
Figure 3.4-1. Rainfall IDF Curve – Fort Collins
Tributary Area
tc | 2-Year tc | 100-Year Q2 Q100
Sub-basin (acres)(min)(min)(cfs)(cfs)
A1 0.09 0.78 0.98 5.0 5.0 0.2 0.9
A2 0.30 0.79 0.99 5.0 5.0 0.7 2.9
A3 0.61 0.24 0.30 5.0 5.0 0.4 1.8
A4 0.24 0.80 1.00 5.0 5.0 0.6 2.4
A5 0.48 0.87 1.00 5.0 5.0 1.2 4.8
A6 0.85 0.64 0.80 5.0 5.0 1.6 6.8
A7 0.18 0.84 1.00 5.0 5.0 0.4 1.8
A8 0.34 0.95 1.00 5.0 5.0 0.9 3.4
A9 0.35 0.95 1.00 5.0 5.0 0.9 3.5
B1 0.12 0.39 0.48 5.0 5.0 0.1 0.6
B2 0.22 0.33 0.41 5.0 5.0 0.2 0.9
B3 0.01 0.62 0.78 5.0 5.0 0.0 0.1
A BASINS
(TO DETENTION)3.44 0.70 0.88 - -6.9 28.3
TO LID 2.74 0.80 1.00 --3.6 25.4
B BASINS 0.35 0.36 0.45 --0.00 1.55
TOTAL 3.79 0.67 0.84 --0.00 29.82
BASIN SUMMARY TABLE
C2 C100
H:\Hartford Homes\HFHLV0001.01 Timberline Vine Dr\3. Permit Const Docs\3.04 Grading-Drainage Studies\3.04.2 Proposed Drainage Reports-
Info\Hydrology\Rational\HFHLV0001.01_Drainage_Calcs_Template_v2.0-CoFC.xls
`
APPENDIX C
HYDRAULIC CALCULATIONS
Project Number:GNK08.20 Date:06/02/2021
Project Location:Fort Collins, Colorado
Calculations By:DBC
Pond Description:Detention Pond
User Input Cell:Blue Text
100-year 35151
0.88 0.81
3.44
0.69
minutes seconds in/hr cubic feet cubic feet cubic feet acre-feet
5 300 9.95 9036 206.4 8830 0.20
10 600 7.72 14022 412.8 13609 0.31
15 900 6.52 17764 619.2 17144 0.39
20 1200 5.60 20343 825.6 19517 0.45
25 1500 4.98 22613 1032 21581 0.50
30 1800 4.52 24629 1238.4 23391 0.54
35 2100 4.08 25937 1444.8 24492 0.56
40 2400 3.74 27172 1651.2 25521 0.59
45 2700 3.46 28280 1857.6 26423 0.61
50 3000 3.23 29334 2064 27270 0.63
55 3300 3.03 30269 2270.4 27999 0.64
60 3600 2.86 31168 2476.8 28691 0.66
65 3900 2.71 31994 2683.2 29311 0.67
70 4200 2.59 32930 2889.6 30040 0.69
75 4500 2.48 33784 3096 30688 0.70
80 4800 2.38 34583 3302.4 31280 0.72
85 5100 2.29 35355 3508.8 31846 0.73
90 5400 2.21 36127 3715.2 32411 0.74
95 5700 2.13 36753 3921.6 32832 0.75
100 6000 2.06 37416 4128 33288 0.76
105 6300 2.00 38143 4334.4 33808 0.78
110 6600 1.94 38760 4540.8 34219 0.79
115 6900 1.88 39269 4747.2 34522 0.79
120 7200 1.84 40104 4953.6 35151 0.81
Storage
Volume
Modified FAA Method- Storage Colume Calculations
Inputs | Tributary Area Output | Detention Volume
Storm Duration Time
Rainfall
Intensity Inflow Volume
Catchment 'C':
Catchment Drainage Area, ac:
Return Period for Detention Control: Required Storage, cubic feet:
Required Storage, ac-ft:
Release Rate, cfs:
Average
Outflow
Storage
Volume
Project Number:GNK008.20
Project Location:Fort Collins, CO Date: 06/02/2021
Calculations By:DBC
Pond Description:Mars Landing Detention Pond
User Input Cell:Blue Text
Design Point:DP A
Design Storm:100-year
Required Volume:35151 ft3 5036.95 ft
Design Storm:N/A
Required Volume:ft3 N/A ft
Design Storm:N/A
Required Volume:ft3 N/A ft
Contour
Elevation
Contour
Area Depth Incremental
Volume
Cummulative
Volume
Incremental
Volume
Cummulative
Volume
Cummulative
Volume
ft ft2 ft ft3 ft3 ft3 ft3 ac-ft
5032.50 0 0 0 0 0 0 0.00
5033.00 1387 0.50 347 347 231 231 0.01
5034.00 7990 1.00 4689 5035 4235 4466 0.10
5035.00 10035 1.00 9013 14048 8993 13460 0.31
5036.00 11116 1.00 10576 24623 10571 24030 0.55
5037.00 12194 1.00 11655 36278 11651 35681 0.82
5037.25 12501 1.25 14761 39384 14752 38783 0.89
Detention Pond Stage-Storage Calculations
Required Volume Water Surface Elevation
Average End Area Method: Conic Volume Method:
5032.0
5033.0
5034.0
5035.0
5036.0
5037.0
5038.0
0 2000 4000 6000 8000 10000 12000 14000 16000 18000 20000Contour Elevation, ftCummulative Volume, ft3
On-Site Detention Pond
Project Number:GNK08.20 Date:06/02/2021
Project Location:Fort Collins, Colorado
Calculations By:DBC
Pond Description:Stormtech System - LID Requirement
User Input Cell:Blue Text
WQCV 1341
0.8 0.03
2.74
0.7
minutes seconds in/hr cubic feet cubic feet cubic feet acre-feet
5 300 1.425 937 204 733 0.02
10 600 1.105 1453 408 1045 0.02
15 900 0.935 1845 612 1233 0.03
20 1200 0.805 2117 816 1301 0.03
25 1500 0.715 2351 1020 1331 0.03
30 1800 0.650 2565 1224 1341 0.03
35 2100 0.585 2693 1428 1265 0.03
40 2400 0.535 2815 1632 1183 0.03
45 2700 0.495 2930 1836 1094 0.03
50 3000 0.460 3025 2040 985 0.02
55 3300 0.435 3147 2244 903 0.02
60 3600 0.410 3235 2448 787 0.02
65 3900 0.385 3291 2652 639 0.01
70 4200 0.365 3360 2856 504 0.01
75 4500 0.345 3403 3060 343 0.01
80 4800 0.330 3472 3264 208 0.00
85 5100 0.315 3521 3468 53 0.00
90 5400 0.305 3610 3672 -62 0.00
95 5700 0.290 3623 3876 -253 -0.01
100 6000 0.280 3683 4080 -397 -0.01
105 6300 0.270 3729 4284 -555 -0.01
110 6600 0.260 3761 4488 -727 -0.02
115 6900 0.255 3857 4692 -835 -0.02
120 7200 0.245 3867 4896 -1029 -0.02
Catchment 'C': Required Storage, ac-ft:
Modified FAA Method- Storage Colume Calculations
Inputs | Tributary Area Output | Detention Volume
Return Period for Detention Control: Required Storage, cubic feet:
Average
Outflow
Storage
Volume
Storage
Volume
Catchment Drainage Area, ac:
Release Rate, cfs:
Storm Duration Time
Rainfall
Intensity Inflow Volume
Project:
Basin ID:
Depth Increment = ft
Watershed Information Top of Micropool
Selected BMP Type =EDB
Watershed Area = 2.74 acres
Watershed Length = ft
Watershed Length to Centroid = ft
Watershed Slope = ft/ft
Watershed Imperviousness = 74.00% percent
Percentage Hydrologic Soil Group A = 0.0% percent
Percentage Hydrologic Soil Group B = 0.0% percent
Percentage Hydrologic Soil Groups C/D = 100.0% percent
Target WQCV Drain Time = 40.0 hours
Location for 1-hr Rainfall Depths = User Input
Optional User Overrides
Water Quality Capture Volume (WQCV) = 0.067 acre-feet acre-feet
Excess Urban Runoff Volume (EURV) = 0.198 acre-feet acre-feet
2-yr Runoff Volume (P1 = 0.83 in.) = acre-feet inches
5-yr Runoff Volume (P1 = 1.09 in.) = acre-feet inches
10-yr Runoff Volume (P1 = 1.33 in.) = acre-feet inches
25-yr Runoff Volume (P1 = 1.69 in.) = acre-feet inches
50-yr Runoff Volume (P1 = 1.99 in.) = acre-feet inches
100-yr Runoff Volume (P1 = 2.31 in.) = acre-feet inches
500-yr Runoff Volume (P1 = 3.14 in.) = acre-feet inches
Approximate 2-yr Detention Volume = acre-feet
Approximate 5-yr Detention Volume = acre-feet
Approximate 10-yr Detention Volume = acre-feet
Approximate 25-yr Detention Volume = acre-feet
Approximate 50-yr Detention Volume = acre-feet
Approximate 100-yr Detention Volume = acre-feet
Define Zones and Basin Geometry
Select Zone 1 Storage Volume (Required) = acre-feet
Select Zone 2 Storage Volume (Optional) = acre-feet
Select Zone 3 Storage Volume (Optional) = acre-feet
Total Detention Basin Volume = acre-feet
Initial Surcharge Volume (ISV) =ft 3
Initial Surcharge Depth (ISD) = ft
Total Available Detention Depth (Htotal) = ft
Depth of Trickle Channel (HTC) = ft
Slope of Trickle Channel (STC) = ft/ft
Slopes of Main Basin Sides (Smain) = H:V
Basin Length-to-Width Ratio (RL/W) =
Initial Surcharge Area (AISV) =ft 2
Surcharge Volume Length (LISV) =ft
Surcharge Volume Width (WISV) =ft
Depth of Basin Floor (HFLOOR) =ft
Length of Basin Floor (LFLOOR) =ft
Width of Basin Floor (WFLOOR) =ft
Area of Basin Floor (AFLOOR) =ft 2
Volume of Basin Floor (VFLOOR) =ft 3
Depth of Main Basin (HMAIN) =ft
Length of Main Basin (LMAIN) =ft
Width of Main Basin (WMAIN) =ft
Area of Main Basin (AMAIN) =ft 2
Volume of Main Basin (VMAIN) =ft 3
Calculated Total Basin Volume (Vtotal) =acre-feet
DETENTION BASIN STAGE-STORAGE TABLE BUILDER
Optional
Override
Area (ft 2)
Length
(ft)
Optional
Override
Stage (ft)
Stage
(ft)
Stage - Storage
Description
Area
(ft 2)
Width
(ft)
GNK08.20 - Mars Landing - LID Required WQCV for LID Using MHFD
LID Basins
MHFD-Detention, Version 4.04 (February 2021)
Volume
(ft 3)
Volume
(ac-ft)
Area
(acre)
After providing required inputs above including 1-hour rainfall
depths, click 'Run CUHP' to generate runoff hydrographs using
the embedded Colorado Urban Hydrograph Procedure.
ExampleZone Configuration (Retention Pond)
MHFD-Detention_v4 04, Basin 7/22/2021, 9:22 AM
UDSCM WQCV (CF)WQ FLOW (CFS)CHAMBER TYPE(A) RELEASE RATE/ CHAMBER (CFS)VOLUME/ CHAMBER (CF)VOLUME/ CHAMBER + AGGREGATE (CF)NUMBER OF CHAMBERSCOMBINED RELEASE RATE WQCV METHOD (CFS)FAA REQUIRED STORAGE VOLUME (CF)NUMBER OF CHAMBERS (FAA)TOTAL VOLUME (CHAMBERS ONLY)(CF)COMBINED RELEASE RATE FAA METHOD (CFS)TOTAL NUMBER OF CHAMBERS REQUIRED 23351.8SC-7400.02445.974.9320.7513413013770.732w/6" stone baseQ23.685.451.04355.430.250.3510.590.024(A - COLUMN 4)CHAMBER FOOTPRINT (SF)FLOW RATE (GPM/SF)FLOW RATE PER CHAMBER (GPM)FLOW RATE PER CHAMBER (CFS))STORMTECH CHAMBER VOLUME AND RELEASE RATE CALCULATIONSSC-740 CHAMBER SPECIFICATIONSCHAMBER LENGTH (IN)CHAMBER WIDTH (IN)CHAMBER FOOTPRINT (SQ IN)Approximated 2-year flow w/Tc=10 min.C=0.80i=2.85 in/hrA=2.74acQ2=3.6cfs12-hr Drain Time Coefficient Factor = 0.8WQCV = 0.8 * 0.067 = 0.054 ac-ft
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APPENDIX D
DRAINAGE MAPS + VARIANCE
APPLICATION
EXISTING DRAINAGE
STUDY EXCERPTS
This unofficial copy was downloaded on Jun-25-2019 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com
For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA
`
APPENDIX D
DRAINAGE MAPS + VARIANCE
APPLICATIONDRAINAGE MAPS
E
T
T
WSTMSTM
A1
A3
A4 A5 A6
A7
A8 A9
B1 B2 B3
acres
A1
0.78
0.98 0.09
acres
A2
0.79
0.99 0.38
acres
A3
0.24
0.30 0.61
acres
A4
0.80
1.00 0.24
acres
A5
0.87
1.00 0.48
acres
A6
0.64
0.80 0.85
acres
A7
0.84
1.00 0.18
acres
A8
0.95
1.00 0.34 acres
A9
0.95
1.00 0.35
acres
B1
0.39
0.48 0.12
acres
B2
0.33
0.41 0.22
acres
OS1
0.25
0.31 1.55
acres
B3
0.62
0.78 0.01
A2
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STAMP
Date:
Drawn By:
Project No:
Checked By:H:\Goodwin Knight\CO, Fort Collins - GNK000008.10 - Mars Landing ISP\CADD\3 CD\GNK08_C9.0_Drainage Plan.dwg - Donald Cecil - 7/22/2021Init.#Issue / DescriptionDateMARS LANDINGPROJECT DEVELOPMENT PLANFORT COLLINS, COTHESE PLANS ARE AN INSTRUMENT OF SERVICE
AND ARE THE PROPERTY OF GALLOWAY, AND MAY
NOT BE DUPLICATED, DISCLOSED, OR REPRODUCED
WITHOUT THE WRITTEN CONSENT OF GALLOWAY.
COPYRIGHTS AND INFRINGEMENTS WILL BE
ENFORCED AND PROSECUTED.
COPYRIGHT
GallowayUS.com
5265 Ronald Reagan Blvd., Suite 210
Johnstown, CO 80534
970.800.3300
PRELIMINARYNOT FOR BIDDINGNOT FOR CONSTRUCTION07.21.2021
GNK000008
JEP
DBC
CAUTION - NOTICE TO CONTRACTOR
1.ALL UTILITY LOCATIONS SHOWN ARE BASED ON MAPS
PROVIDED BY THE APPROPRIATE UTILITY COMPANY AND
FIELD SURFACE EVIDENCE AT THE TIME OF SURVEY AND IS TO
BE CONSIDERED AN APPROXIMATE LOCATION ONLY. IT IS THE
CONTRACTOR'S RESPONSIBILITY TO FIELD VERIFY THE FIELD
LOCATION OF ALL UTILITIES, PUBLIC OR PRIVATE, WHETHER
SHOWN ON THE PLANS OR NOT, PRIOR TO CONSTRUCTION.
REPORT ANY DISCREPANCIES TO THE ENGINEERED PRIOR TO
CONSTRUCTION.
2.WHERE A PROPOSED UTILITY CROSSES AN EXISTING UTILITY,
IT IS THE CONTRACTOR'S RESPONSIBILITY TO FIELD VERIFY
THE HORIZONTAL AND VERTICAL LOCATION OF SUCH
EXISTING UTILITY, EITHER THROUGH POTHOLING OR
ALTERNATIVE METHOD. REPORT INFORMATION TO THE
ENGINEER PRIOR TO CONSTRUCTION.
3.CONTRACTOR RESPONSIBLE FOR AS-BUILT DRAWINGS,
TESTS, REPORTS AND/OR ANY OTHER CERTIFICATES OR
INFORMATION AS REQUIRED FOR ACCEPTANCE OF WORK
FROM CITY, UTILITY DISTRICTS OR ANY OTHER GOVERNING
AGENCY.
4.CONTRACTOR SHALL PROTECT ALL EXISTING SURVEY
MONUMENTATION. CONTRACTOR SHALL HAVE LICENSED
SURVEYOR REPLACE ANY DAMAGED OR DISTURBED
MONUMENTATION AT THEIR COST.
Know what's
before you dig.
DRAINAGE PLAN
C8.0
SCALE: 1"=30'
0 15 30
DESIGN POINT
MAJOR BASIN BOUNDARY (i.e., C-STORE)
SUB-BASIN BOUNDARY (i.e., RATIONAL METHOD)
OVERLAND FLOW DIRECTION
(I.E., LANDSCAPING)
DIRECT FLOW DIRECTION
(I.E., PAVEMENT, CURB AND
GUTTER)
BASIN ID
MINOR (2YEAR) RUNOFF
COEFFICIENT
MAJOR (100YEAR) RUNOFF
COEFFICIENT
BASIN AREA
(ACRES)
acres
A1
0.23
0.45
1.00
A1
EXISTING STORM SEWER
EXISTING RIGHT-OF-WAY
EXISTING LOT LINE
PROPOSED EASEMENT LINE
EXISTING MANHOLE
PROPOSED CURB AND GUTTER
EXISTING CURB AND GUTTER
EXISTING MINOR CONTOUR
EXISTING MAJOR CONTOUR
PROPOSED MINOR CONTOUR
PROPOSED MAJOR CONTOUR
PROPOSED STORM SEWER
PROPOSED STORM INLET
LEGEND:
EXISTING EASEMENT LINE
EXISTING STORM INLET
PROPOSED MANHOLE