HomeMy WebLinkAbout07 - Design Report - Annie Street Cottages - Wastewater Wastewater Design Report
ANNIE STREET COTTAGES
STREET AND UTILITY IMPROVEMENTS
WASTEWATER SYSTEM DESIGN REPORT
A. General
This report will give an overview of the existing sanitary sewer capacity and proposed wastewater
collection system of the area being served for the Annie Street Cottages Project. The proposed
condominium development will consist of 31 units. The zoning for the 5.0 acre area served by
the sewer main extension is R2. Construction for the first phase of the development is expected
to begin in fall of 2007.
Included in this report is a description of the proposed wastewater collection system and design
parameters and an analysis of the impact on the existing downstream wastewater collection
system. Once the wastewater system is constructed and approved, the system will become a part
of the City of Bozeman system.
The following references were used in the wastewater facilities design and capacity analysis:
a. COB Design Standards and Specifications Guide,March, 2004
b. COB Modifications to Montana Public Works Standard Specifications(MPWSS)
c. City adopted MPWSS and Adopted Addenda
d. COB Wastewater Facility Plan
e. WQB Circular No. 2
f. City of Bozeman Zoning Map
B. Capacity Analysis
The effluent generated from the proposed development will flow to the northwest into an existing
City of Bozeman sanitary sewer main located in Phase I of the Oak Springs Subdivision at
Meagher and.Annie. The procedures and parameters outlined in the COB Design Standards and
Specifications Guide were used in the design of the sewer infrastructure for the proposed
development.
The new sewer main was sized to flow at no more than 75-percent of full capacity at peak hour
conditions. An average daily flow of 72-gallons per capita per day was used to determine flows
generated. An infiltration rate of 150 gallons/acre/day was added to the design peak flow. A
Manning coefficient of 0.013 was used for PVC pipe. Using the City's average of 2.54 persons
per residents it is anticipated the population in this development will be 30 persons.
Equivalent Population: 2.54 persons/unit x 31 units=79 persons
A peaking factor was calculated based on the following formula:
Qmax i Qave=(18 +Po-')/(4+P°.5) (P=Population/thousands)
The average daily flow based on the estimated population of 79 residents is:
79 residents x 72 gpcpd= 5,688 gpd
Annie Street Cottages—Wastewater Design Report
Page 1 of 3
Based on the equivalent population, a peaking factor of 4.27 was calculated. The calculated
peaking factor is included in the appendix of this report. The peak flow rate anticipated from the
development based on an average daily flow of 5,688 gallons with an infiltration rate of 150
gal/acre/day using 72-gallons per capita per day is:
Peak Flow Rate=5,688 gpd x 4.27+750 gpd =25,038gpd
= 17.39 gpm
=0.039 cfs
The sewer main size for the development will be an 8-inch,based on minimum required pipe size.
Table 1 summarized the capacity of the proposed sewer. Calculations are provided in the
appendix of this report.
TABLE 1
PIPE CAPACITY
Station Pipe Size Pipe Slope Pipe Capacity 3/4
Full(cfs)
10+00— 12+69 8-inch 0.4% 0.70
12+69— 13+97 8-inch 0.4% 0.70
13+97— 15+27 8-inch 0.5% 0.78
16+00—20+00 8-inch 1.5% 1.35
30+00—33+12 8-inch 0.8% 0.99
33+12—35+16 8-inch 1.5% 1.35
40+00—41+68 8-inch 0.4% 0.70
As shown in Table 1, all sections of the proposed 8-inch pipe is adequate for the anticipated peak
flow of approximately 0.0385 cfs generated from the development.
C. Proposed Collection System
PVC pipe meeting COB specifications will be used for all the sewer mains. The sewer mains will
be 8-inch diameter with a maximum manhole spacing of 400 feet and a manhole barrel size of 48-
inches. Manholes will be constructed according to COB specifications. All sewer services will
be 4-inch PVC installed at 2% minimum grade. Sewer services will connect into the main with
in-line gasketed wyes. A 4-inch sewer service with a grade of 2.0 % can convey approximately
60 gpm at 50%capacity.
A plan and profile of the proposed sewer extension is shown in the appendix of this report. The
sewer main will be located within a 30-foot wide utility easement and located a minimum of 10-
feet from the proposed public water main.
D. Downstream Capacity Analysis
Information regarding the downstream capacity of the existing public sanitary sewer collection
system was provided from the design report prepared for the Oak Springs Subdivision. The
design report indicates the sewer system to which the Annie Street Cottages sewer will discharge
to will have peak flow rate of 0.3664 cfs,or 48.26%full.
Annie Street Cottages—Wastewater Design Report
Page 2 of 3
E. Conclusion
Adding the Annie Street Cottages sewer peak flow rate of 0.039 cfs to the anticipated peak flow
rate of 0.37 cfs from the Oak Springs Subdivision will be 0.41 cfs. This equates to 59% of the
allowed 3/4 full flow capacity of 0.70 cfs for an 8-inch PVC pipe. This project will require the
approval of the City Engineer and MDEQ.
Annie Street Cottages—Wastewater Design Report
Page 3 of 3
Appendix A
Sewer Pipe Capacity
Wastewater Design Report
Sanitary Sewer Capacity 1 + ® 12+69
Project Description
Friction Method Manning Formula
Solve For Discharge
Input Data .. _
Roughness Coefficient 0.013
Channel Slope 0.40
Normal Depth 6 in
Diameter 8 in
Results ,
Discharge 0.70 ft'/s
Flow Area 0.28 ftT
Wetted Perimeter 1.40 ft
Top Width 0.58 ft
Critical Depth 0.39 ft
Percent Full 75.0 %
Critical Slope 0.00773 ft/ft
Velocity 2.48 ft/s
Velocity Head 0.10 ft
Specific Energy 0.60 ft
Froude Number 0.63
Maximum Discharge 0.82 ft3/s
Discharge Full 0.76 ft'/s
Slope Full 0.00333 ft/ft
Flow Type SubCritical
GVF Input:Data
Downstream Depth 0 in
Length 0.00 ft
Number Of Steps 0
'GVF Output Data
Upstream Depth 0 in
Profile Description
Profile Headloss 0.00 ft
Average End Depth Over Rise 0.00
Normal Depth Over Rise 75.00 %
Downstream Velocity Infinity ft/s
Upstream Velocity Infinity ftls
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster [08.01.058.001
8/31/2007 4:58:26 PM 27 Siemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203-755-1666 Page 1 of 2
Sanitary a er Capacity 1 + - 12+69
GVF Output Data
Normal Depth 6 in
Critical Depth 0.39 ft
Channel Slope 0.40 %
Critical Slope 0.00773 ft/ft
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster 108.01.058.00]
8/31/2007 4:58:26 PM 27 Siemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203-755-1666 Page 2 of 2
Sanitary Sewer Capcity 1 +69 - 1 + 7
Project Description
Friction Method Manning Formula
Solve For Discharge
Input Data
Roughness Coefficient 0.013
Channel Slope 0.40
Normal Depth 6 in
Diameter 8 in
Results
Discharge 0.70 ft3/s
Flow Area 0.28 ft2
Wetted Perimeter 1.40 ft
Top Width 0.58 ft
Critical Depth 0.39 ft
Percent Full 75.0 %
Critical Slope 0.00773 ft/ft
Velocity 2.48 ft/s
Velocity Head 0.10 ft
Specific Energy 0.60 ft
Froude Number 0.63
Maximum Discharge 0.82 ft3/s
Discharge Full 0.76 ft3/s
Slope Full 0.00333 ft/ft
Flow Type SubCritical
GVF In out Data:_
Downstream Depth 0 in
Length 0.00 ft
Number Of Steps 0
GVF Output Data
Upstream Depth 0 in
Profile Description
Profile Headloss 0.00 ft
Average End Depth Over Rise 0.00 %
Normal Depth Over Rise 75.00
Downstream Velocity Infinity ft/s
Upstream Velocity Infinity ft/s
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster [08.01.058.00]
8/31/2007 5:00:30 PM 27 Siemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203-755-1666 Page 1 of 2
Sanitary a er Capcity 1 + - 13+97
GVF Output Data
Normal Depth 6 in
Critical Depth 0.39 ft
Channel Slope 0.40 %
Critical Slope 0.00773 ft/ft
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster [08.01.058.00]
8/3112007 5:00:30 PM 27 Slemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203-755-1666 Page 2 of 2
Sanitary Sewer Capacity +97 - 15+27
Project Description
Friction Method Manning Formula
Salve For Discharge
Input Data
Roughness Coefficient 0.013
Channel Slope 0.50
Normal Depth 6 in
Diameter 8 in
Results :.:
Discharge 0.78 ft'/s
Flow Area 0.28 ftz
Wetted Perimeter 1.40 ft
Top Width 0.58 ft
Critical Depth 0.42 ft
Percent Full 75.0 %
Critical Slope 0.00810 ft/ft
Velocity 2.77 ft/s
Velocity Head 0.12 ft
Specific Energy 0.62 ft
Froude Number 0.70
Maximum Discharge 0.92 ftl/s
Discharge Full 0.85 ft3/s
Slope Full 0.00416 ft/ft
Flow Type SubCritical
GVF Input Data
Downstream Depth 0 in
Length 0.00 ft
Number Of Steps 0
GVF Output Data .
Upstream Depth 0 in
Profile Description
Profile Headloss 0.00 ft
Average End Depth Over Rise 0.00 %
Normal Depth Over Rise 75.00 %
Downstream Velocity Infinity fUs
Upstream Velocity Infinity ft/s
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster [08.01.058.00]
8/3112007 5:01:16 PM 27 Siemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203-755-1666 Page 1 of 2
Sanitary a er Capacity 1 + - 1 + 7
GVF Output Data
Normal Depth 6 in
Critical Depth 0.42 ft
Channel Slope 0.50 %
Critical Slope 0.00810 ft/ft
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster [08.01.058.00]
8131/2007 5:01:16 PM 27 Slemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203-765-1666 Page 2 of 2
Sanitary Sewer Capacity 1 + - 2 +0
Project Description
Friction Method Manning Formula
Solve For Discharge
Input Data
Roughness Coefficient 0.013
Channel Slope 1.50
Normal Depth 6 in
Diameter 8 in
Results
Discharge 1.35 ftg/s
Flow Area 0.28 ftg
Wetted Perimeter 1,40 ft
Top Width 0.58 ft
Critical Depth 0.55 ft
Percent Full 75.0 %
Critical Slope 0.01242 ft/ft
Velocity 4.81 ft/s
Velocity Head 0.36 ft
Specific Energy 0.86 ft
Froude Number 1.21
Maximum Discharge 1.59 ftg/s
Discharge Full 1.48 ft3/s
Slope Full 0.01247 Wit
Flow Type SuperCritical
GVF Input Data
Downstream Depth 0 in
Length 0.00 ft
Number Of Steps 0
GVF Output Data
Upstream Depth 0 in
Profile Description
Profile Headloss 0.00 ft
Average End Depth Over Rise 0.00
Normal Depth Over Rise 75.00
Downstream Velocity Infinity ft/s
Upstream Velocity Infinity ft/s
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster [08.01.058.001
8/31/2007 5:04:34 PM 27 Siemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203-755-1666 Page 1 of 2
Sanitary Sewer Capacity 1 + - 20+00
GVF Output.Data
Normal Depth 6 in
Critical Depth 0.55 ft
Channel Slope 1.50 %
Critical Slope 0.01242 ft/ft
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster [08.01.058.001
8/31/2007 5:04:34 PM 27 Siemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203-755-1666 Page 2 of 2
Sanitary Sewer Capacity 3 + +1
Project Description
Friction Method Manning Formula
Solve For Discharge
Input Dafa
Roughness Coefficient 0.013
Channel Slope 0.80
Normal Depth 6 in
Diameter 8 in
Results
Discharge 0.99 ft3/s
Flow Area 4.28 ft2
Wetted Perimeter 1.40 ft
Top Width 0.58 ft
Critical Depth 0.47 ft
Percent Full 75.0 %
Critical Slope 0.00926 ft/ft
Velocity 3.51 ft/s
Velocity Head 0.19 ft
Specific Energy 0.69 ft
Froude Number 0.89
Maximum Discharge 1.16 ft'/s
Discharge Full 1.08 ft3/s
Slope Full 0.00665 ft/ft
Flow Type SubCritical
GVF In ut Data
Downstream Depth 0 in
Length 0.00 ft
Number Of Steps 0
GVF Output Data
Upstream Depth 0 in
Profile Description
Profile Headloss 0.00 ft
Average End Depth Over Rise 0.00
Normal Depth Over Rise 75.00
Downstream Velocity Infinity ft/s
Upstream Velocity Infinity ft/s
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster 108.01.058.001
8/31/2007 5:25 38 PM 27 Siemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203-755-1666 Page 1 of 2
Sanitary Sewer Capacity 3 + - +1
GVF Output Data
Normal Depth 6 in
Critical Depth 0.47 ft
Channel Slope 0.80 %
Critical Slope 0.00926 Wit
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster [08.01.058.00]
8/3112007 6:25:38 PM 27 Siemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203-755-1666 Page 2 of 2
Sanitary Sewer Capacity +1 - 5+1
Project Description
Friction Method Manning Formula
Solve For Discharge
Input Data,.
Roughness Coefficient 0.013
Channel Slope 1.50
Normal Depth 6 in
Diameter 8 in
Results.
Discharge 1.35 ft-1/s
Flow Area 0.28 ft2
Wetted Perimeter 1.40 ft
Top Width 0.58 ft
Critical Depth 0.55 ft
Percent Full 75.0 %
Critical Slope 0.01242 ft/ft
Velocity 4.81 ft/s
Velocity Head 0.36 ft
Specific Energy 0.86 ft
Froude Number 1.21
Maximum Discharge 1.59 fts/s
Discharge Full 1.48 ft9/s
Slope Full 0.01247 ft/ft
Flow Type SuperCritical
GVF Input Data
Downstream Depth 0 in
Length 0.00 ft
Number Of Steps 0
GVF Output Data
Upstream Depth 0 in
Profile Description
Profile Headloss 0.00 ft
Average End Depth Over Rise 0.00
Normal Depth Over Rise 75.00
Downstream Velocity Infinity ft/s
Upstream Velocity Infinity ft/s
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster [08.01.058.00]
8/31/2007 5:38:13 PM 27 Slemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203-755-1666 Page 1 of 2
Sanitary Sewer Capacity +1 - +1
GVF Output Data
Normal Depth 6 in
Critical Depth 0.55 ft
Channel Slope 1.50 %
Critical Slope 0.01242 ft/ft
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster 108.01.058.001
8/31/2007 6:38:13 PM 27 Siemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203-755-1666 Page 2 of 2
Sanitary Sewer Capacity 4 + - 41+68
Project Description
Friction Method Manning Formula
Solve For Discharge
Input Data
Roughness Coefficient 0.013
Channel Slope 0.40 %
Normal Depth 6 in
Diameter 8 in
Results.;
Discharge 0.70 ft3/s
Flow Area 0.28 ftz
Wetted Perimeter 1.40 ft
Top Width 0.58 ft
Critical Depth 0.39 ft
Percent Full 75.0 %
Critical Slope 0.00773 ft/ft
Velocity 2.48 ft/s
Velocity Head 0.10 ft
Specific Energy 0,60 ft
Froude Number 0.63
Maximum Discharge 0.82 ft3/s
Discharge Full 0.76 ft3/s
Slope Full 0.00333 ft/ft
Flow Type SubCritical
GVF Input Data
Downstream Depth 0 in
Length 0.00 ft
Number Of Steps 0
GVF Output Data
Upstream Depth 0 in
Profile Description
Profile Headloss 0.00 ft
Average End Depth Over Rise 0.00 %
Normal Depth Over Rise 75.00
Downstream Velocity Infinity ft/s
Upstream Velocity Infinity ft/s
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster [08.01.058.00]
8/31/2007 5:40.17 PM 27 Slemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203.755-1666 Page 1 of 2
Sanitary a er Capacity 4 + ® 1+6
GVF'Output Data
Normal Depth 6 in
Critical Depth 0.39 ft
Channel Slope 0.40 %
Critical Slope 0.00773 ft/ft
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster [08.01.058.001
8/3112007 6:40:17 PM 27 Siemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203-755.1666 Page 2 of 2