HomeMy WebLinkAbout96 - Design Report - University Apartments - Water, Sewer GA S T ON ENGINEERING
SURVEYING / SOILS TESTING
RECEIVED JUN 2 8 19� ' JU`
ENGINEERS'REPORT
for
WATER & SEWER IMPROVEMENTS
for the
UNI PER SI T Y APAR TMENT S
BOZEM41v, MONTANA
February, 1996
W.O. # 94-525
CONSULTING ENGINEERS & LAND SURVEYORS®®I
P.O.Box 861 •211 Haggerty Lane-Bozeman,MT 59715•(406)586-0588•fax(406)586.0589
ENGINEERS' REPORT
for
WA TER & SEWER IMPRO VEMENTS
for the
UNI VERSITYAPARTMENTS
POZEMAN, MONTANA
February, 1996
W.O. # 94 525
ENGINEERS' REPORT
UNIVERSITY APARTMENTS
Bozeman, Montana
1. INTRODUCTION
1.1 Purpose
The purpose of this report is to present factual data, process description, sizing,
controlling assumptions, and considerations for the extension of the City of Bozeman
water and sewer systems to serve the proposed University Apartments Development.
1.2 Location
The proposed University Apartments Development is located on Tract A of C.O.S.
573, 1800 West Kagy Boulevard, City of Bozeman, Gallatin County, Montana.
2. SCOPE
2.1 Sewer
The method of sewage disposal will be via a 8"PVC sewer main installed within the
development. The proposed 8" main will discharge to the existing City of Bozeman
sewer main on Lincoln Road. The existing sewer main on Lincoln Road is part of
the City of Bozeman sewage collection system and is currently maintained by the
City of Bozeman.
This proposed sewer system will be comprised of 7 new manholes, approximately
1200 LF 8" SDR35 PVC sewer main.
2.2 Water
Water will be provided via a looped main which will connect to existing water mains
maintained by the City of Bozeman. The loop will require connection to the existing
12" main on Lincoln Ave. and connection to the existing 8" main to the south of
Remington Way. A 6" main will be installed within the development to provide
water service. Fire protection will be provided via 2 fire hydrants located within the
development.
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3.0 SEWER
3.1 Wastewater Generation
*Waste water generation by the development is determined as follows:
TOTAL
WASTEWATER WASTEWATER
TYPE UNIT #OF UNITS FLOW PER UNIT GENERATION
(gpd/unit) (gpd)
Multi Family Duplex 17 500 8500
Dwelling
TOTAL 8500 gpd
** Wastewater flows are based on 100 gpcd and 2.5 people per household (250
gpdihousehold).
The peak design flow as calculated from Figure 1 of "MDEQ, Circular WQB 1, 1995
Edition."
17 units x 5 persons/unit= 85 persons
Capita in 1000's =0.085
Peaking Factor=4.26
Daily Flow 8,500 gpd/1440 min/day=5.9 GPM
Peak Flow 5.9 x 4.26 =25.1 GPM
(Use 25 GPM)
3.2 Sewer Capacity(Proposed System)
Using the design peak flow of 25.0 GPM:
1.486 AR`13SI12
Q - Manning Equation
n
Try 8" Pipe at minimum slope of.4% flowing 2/3 full
S =.004, A =.25 ft.Z,R=.19 ft., n =.013
Q= .60 efs =269 gpm 269 gpm > 25 gpm
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An 8" pipe will be adequate for sewage produced within the development.
3.3 Sewer Capacity (Existing;System)
The existing main on Lincoln Road is 10"diameter laid at a minimum grade of 0.28%. The
capacity of the existing main on Lincoln Road is as follows:
0 _ 1.486 4 R 2/3 S liz Manning Equation
n
l 0" Pipe at minimum slope of.28% flowing 2/3 full
S =.0028, A=.388 ft.Z, R=.24 ft., n =.013
Q= .91 cfs =407 gpm
The existing main on Lincoln Road is capable of handling a sewage flow of 407 gpm
flowing 2/3 full. A flow rate of 407 gpm has an approximate population equivalent of 1375
people.
407 gpm X 1440 min/day=586,080 gpd
586,080 gpd -4.26 peaking factor= 137,577 gpd
137,577 gpd- 100 gpcd= 1375.77 people
There is adequate sewer capacity in the existing main on Lincoln Road to handle the
increased flow from this development.
In addition, flow data for the existing 8" sewer main on South 19th Avenue provided by the
City of Bozeman shows that the peak flow near the intersection of Garfield Street and South
19th Avenue is currently 0.78 cfs. According to data provided by the City of Bozeman, this
section of sewer main is capable of handling 1.43 cfs. The remaining capacity in this section
of sewer main is 0.65 cfs or 292 gpm. The wastewater generation from the proposed
development will be 25 gpm, therefore, there is adequate capacity in the existing sewer
system in the immediate vicinity of the proposed development.
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3.4 Depth
The proposed sewer system has been designed with benefits to the city and specific site
conditions as primary factors influencing the design. A minimum bury of 5' will be
maintained in all areas.
3.5 Slope
To achieve the minimum velocity of 2.0 feet per second (FPS) as per Section 24.31 of
"Recommended Standards for Sewage Works", 1978 Edition, a minimum slope of.4 feet
per 100 feet will be used with the 8" Dia pipe size.
4.0 DESIGN (water)
4.1 Domestic Demand:
The requirements for the proposed water system are as follows:
17 units X 5.0 persons/unit X 100 GPD/person= 8,500 gpd
TOTAL DOMESTIC DEMAND 8,500 GPD
4.2 Irriiyation Demand:
Estimated irrigation requirements for the proposed expansion are as follows:
** 17 units X 267 gpd/unit =4,539 gpd
TOTAL IRRIGATION DEMAND 4,539 GPD
** Cite "Wastewater Engineering"McGraw-Hill, 1972
3,000 SF lawn, 1 inch per week = 267 GPD irrigation
TOTAL DOMESTIC& IRRIGATION DEMAND 13,039 GPD
(or Average Daily Demand)
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4.3 Fire Protection Demand:
The minimum required fire protection capability is 1000 gpm for a minimum of 2
hours.
1000 gpm * 120 min = 120,000 gal
4.4 Maximum Day Demand:
Use 2.8 peaking factor
'. 13,039 GPD X 2.8 = 36,509 GPD
MAXIMUM DAILY DEMAND (including fire protection) 156,509 GPD
4.5 Fire Flow Calculations
Static Hydrant:
±160 LF East of intersection of Lincoln Road and 19th Avenue
Hydrant Elevation: 4884.0 FT
Observed Pressures: Static: 85 psi Residual: 78 psi
Flow Hydrant:
Intersection of Lincoln Road and 19th Avenue
Hydrant Elevation: 4884.6 FT
Observed Pressures: Pitot: 70 psi 1557.3 gpm
Static, residual and pitot readings corrected to elevation of the new hydrant at the south end
of the proposed water main extension: 4895.7 FT
Static/Residual correction =:�-4895.7 FT -4884.0 FT= 11.7 FT
11.7 FT X 0.433 psi/FT=5.1 psi loss
P�5=Corrected Static Pressure= 85 psi -5.1 psi =79.9 psi
P,,=Corrected Residual Pressure= 78 psi - 5.1 psi= 72.9 psi
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Pitot Correction =:>4895.7 FT - 4884.6 = 1 1.1 FT
1 1.1 FT X 0.433 psi/FT = 4.8 psi loss
P�,=Corrected Pitot Pressure = 70 psi -4.8 psi =65.2 psi
Note: Discharge coefficient of O.9.for smooth, rounded edge discharge openings
considered above.
Flow Available at 20 psi
Qr= Qf X J-cs—PfI
(Pcs- Pcr)o.sa
Qr = Flow predicted at desired residual pressure
Qf = Total flow measured during test
Pc,, = Corrected static pressure
Per = Corrected residual pressure
Pd = Desired residual pressure
Qr= 1557.3 gpm X (79.9 - 20)0.54
(79.9 - 72.9)0.54
Qr=4963.98 gpm
Pressure at which 1000 gpm is available:
PJ000 =P.S X P s= par�osali.ss
Qf
P = 79.9- [1000 79.9 - 72.9)0.5411.15
i000 — X
1557.3
P1000=76.82 psi
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Line Losses from Flow Hydrant to New Hydrant:
Line i s 160 LF 12" DIP H, cr 1000 gpm = 0.415 ft/100ft = 0.66 It
Line 2: 1000LF 8" DIP H,, 1000 gpm = 3.02 ft/100ft= 30.2 ft
Line 3: 450 LF 6" DIP H,, L' 1000 gpm = 11.5 ft/I00ft = 51.75 ft
TOTAL = 82.61 FT
35.76 psi
Assume Minor Losses = 10 FT or 4.3 psi
Total Loss = 40 psi
Flow Available at New Hvdrant:
1000 gpm at 36.8 psi Residual Pressure
Static Pressure= 79.9 psi
4.6 Conclusion:
There is adequate water available to provide domestic and fire flow to the proposed
development. The above analysis is based on a dead end main assumption. The actual main
extension will be looped which will provide significantly greater pressure and flow
capability within the development.
5.0 PLANS & SPECIFICATIONS
The plans&specifications for this project will accompany this report and will include the
information required in the "Plans & Specifications" of Chapter 1 in MT Department of
Health &Environmental Sciences' Circular WQB 1.
► Location, size, scope, depth, materials, and installation procedures of building and
construction sewers,
► Elevation of sewer invert and ground surface,
► Location of manholes
► Location of proposed and existing water lines in the area of the proposed
development and land adjacent to it,
► Lot boundaries.
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