Urban Stormwater Design 49107: Property Drainage Design Report - UTS

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Added on 2023/06/13

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This report details the design of property drainage for an urban stormwater system, following the assignment requirements for UTS course 49107. It includes the design of roof gutters and downpipes, with calculations for sizing based on catchment area and rainfall intensity. The report also covers property drainage design, including the sizing of drainage pipes and the placement of collector pits, adhering to AS3500.3 standards. Calculations for discharge from the catchment area and drainage sizing are presented, ensuring adequate flow capacity. The document includes references to relevant Australian Standards for plumbing and drainage. Desklib provides this and other solved assignments to aid students in their studies.

Running head: URBAN STORMWATER DESIGN 1
Urban Stormwater Design
(Report)
Name
Institution

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URBAN STORMWATER DESIGN 2
Urban Stormwater Design
Assignment 1
1. Attached: Diagram of the roof footprint, driveway, and paved areas for each lot.
2. Size and layout of roof gutter and downpipe.
Calculations – Gutter Desin.
i. Catchment area/Roof Area = Plan Area = 150m2 (Ah)
Rise in 1m = 1 x 150 (Av)
Total Catchment Area = Ah + Av/2
= 150+ 150
2
= 225 m2
i. Design 5 min duration, 100 year ARI rainfall intensity
= Assume, 214 – Sydney
ii. Roof ‘Average’ slope;
= 23o
iii. From Design Chart 4.A3 - AS 3500.3, 2003; the following are the
recommended designed gutters (box gutters) – All units in mm.
Diameter Number Req. Number Used Gutter Area Gutter Width Gutter Depth
90 7.75 8 8661 125 70
100 6.11 7 9740 140 70
150 2.45 3 20777 200 105
225 0.98 1 53942 330 165
300 0.51 1 53942 330 165

URBAN STORMWATER DESIGN 3
Calculations – Design of Downpipes
Assumed Locality = Sydney
Roof Catchment Area = 150m2
Rainfall Intensity = 225 mm/hr
Proposed Gutter Gradient = 1: 200
Gutter Length = Approx. 20m,
Selected Gutter Width = 140mm,
Gutter Depth = 70, Gutter Area = 9740
Required Downpipe Size From Design Chart 4.A3 - AS 3500.3, 2003;
= 100 mm x 50 mm, 90mm dia. 100mm x 75 mm.
Total continuous measures overflow capacity (L/s/m)
= 0.5
Total continuous measures overflow capacity (L/s)
= 50
Total dedicated measures overflow capacity (L/s)
= 0.5
Overflow volume (L/s) = 5.4 Total overflow capacity = 5.5 (Overflow measures adequate for
selected downpipe)
3. Property Drainage Design;
i. Catchment Area Characteristics;
Hydraulic Grade Level (HGL) = 1.2 - A
Slope = C h ange∈GL
C h ange∈IL
= 1

URBAN STORMWATER DESIGN 4
Runoff coefficient (C), From AS 3500.3, 2003;
Gradient > 0.05, steep terrain, Terrain type – residential areas and light industry;
therefore Runoff coefficient = 0.8.
ii. Rainfall intensity = 225 mm/hr
iii. Discharge from catchment area,
Qdes = 2.8 x C x I x A
= 2.8 x 0.8 x 225 x 5996/100000
= 302.1984 L/s
iv. Drainage Sizing,
Q = 1000 x (A x (R) 0.67 x (S) 0.5 N) / N
302.1984 L/s = 1000 x (A x (R) 0.67 x (S) 0.5 N) / N
AS 3500.3, 2003;
Available Drainage Diameter, = 525 mm,
Flow = 356.428,
Theoretical drainage Dia in mm = 168,
Flow velocity (m/s) = 8.96
Catchment Area flow, 302.1984 L/s, OK.

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URBAN STORMWATER DESIGN 5
References
STANDARDS AUSTRALIA. (2015). Australian Standard ™ Plumbing and drainage Part 3:
Stormwater drainage. AS 3500.3 .
VICTORIAN BUILDING AUTHORITHY. (2015). Australian/New Zealand Standard Plumbing
and drainage - Part 3: Stormwater Drainage. AS 3500.3 .

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Urban Stormwater Design 49107: Property Drainage Design Report - UTS

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