Please help!!! BA,1 Determine the required water supply flow volume (gpm) required for a planned development that will have a population of42,000 people and a fire demand based on a 152,000 ft' department store built of modified fire resistive construction. Wh.the needed fire flow (gpm) and duration (hrs)? What is the needed fire flow (gpm) and duration (hrs)? What is the requireddesign flow (gpm)? How large of a reservoir or storage tank is needed (gal)? Provide answers to 0 decimal places.Design supply flow:Needed Fire Flow:NFF duration:hrsStorage capacity:galConsider the section of water distribution piping shown below. Ignoring minor losses, find the total flow into the systemdemand), the total energy at point C, and the pressure at point D. Provide answers to indicated number of decimals.A-D: 1300m @350mmD-C: 2000m @350mm ø(C=140, k 1.5x10° m(C=140, k. =1.5x10° m)Qdemand (2 decimals):m³/sD.Total Energy at C(1 decimal):Z, = 115m%3DPressure at D(1 decimal):kPademandE = 190mQAB = 0.80 m /sB-C: 200m @250mm ø%3D(C=150, k=1.0x10° m)A-B: 2000m @500mm ø(C=120, k=4.0x10* m)Page

Given;Population = 42,000 peopleArea of upholstering shop = 152, 000 ft2

Determine the required water supply flow volume (gpm) requ a planned development that will have a population of 42,000 people and a fire demand based on a 152,000 ft' department store built of modified fire resistive construction. Wh the needed fire flow (gpm) and duration (hrs)? What is the needed fire flow (gpm) and duration (hrs)? What is the required design flow (gpm)? How large of a reservoir or storage tank is needed (gal)? Provide answers to 0 decimal places. People 150 630 0000 Design supply flow: Needed Fire Flow: NFF duration: Storage capacity: 8pm ( 8pm ( hrs i gal

Determine the required water supply flow volume (gpm) requ a planned development that will have a population of 42,000 people and a fire demand based on a 152,000 ft' department store built of modified fire resistive construction. Wh the needed fire flow (gpm) and duration (hrs)? What is the needed fire flow (gpm) and duration (hrs)? What is the required design flow (gpm)? How large of a reservoir or storage tank is needed (gal)? Provide answers to 0 decimal places. People 150 630 0000 Design supply flow: Needed Fire Flow: NFF duration: Storage capacity: 8pm ( 8pm ( hrs i gal

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Concept explainers

Reservoir and Streamflow Routing

In hydrology, a reservoir is usually a natural pond that is enlarged or made using a dam to keep the water clean. Reservoirs or dams can be constructed in several ways, including controlling the existing watercourse, disrupting the watercourse to form embayment within it, by digging or building any number of retaining walls.

Water Resource Systems Analysis

Water resources are natural water sources that may be as useful as water sources. 97% of the world's water is saltwater and only 3% is pure water; just over two-thirds of this ice sheet is located in glaciers. The remaining pure frozen water is found primarily as groundwater, with only a small fraction present above the ground or in the air. Natural sources of freshwater include surface water, under river flow, groundwater, and ice water. Artificial water sources can include treated wastewater (recycled water) and saline seawater.

Question

Please help!!!

B
A,
1 Determine the required water supply flow volume (gpm) required for a planned development that will have a population of
42,000 people and a fire demand based on a 152,000 ft' department store built of modified fire resistive construction. Wh.
the needed fire flow (gpm) and duration (hrs)? What is the needed fire flow (gpm) and duration (hrs)? What is the required
design flow (gpm)? How large of a reservoir or storage tank is needed (gal)? Provide answers to 0 decimal places.
Design supply flow:
Needed Fire Flow:
NFF duration:
hrs
Storage capacity:
gal
Consider the section of water distribution piping shown below. Ignoring minor losses, find the total flow into the system
demand), the total energy at point C, and the pressure at point D. Provide answers to indicated number of decimals.
A-D: 1300m @350mm
D-C: 2000m @350mm ø
(C=140, k 1.5x10° m
(C=140, k. =1.5x10° m)
Qdemand (2 decimals):
m³/s
D.
Total Energy at C
(1 decimal):
Z, = 115m
%3D
Pressure at D
(1 decimal):
kPa
demand
E = 190m
QAB = 0.80 m /s
B-C: 200m @250mm ø
%3D
(C=150, k=1.0x10° m)
A-B: 2000m @500mm ø
(C=120, k=4.0x10* m)
Page

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Step 2: Calculating Design flow capacity.

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Step 3: Calculating Needed fire flow.

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Step 4: Calculating NFF duration.

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Step 5: Calculating Storage Capacity.

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