Q1: A mid size city with populations of 62000, 70000 and 81000 for the years 1990, 2000and 2010, respectively. Water consumption prediction is 400 Lcpd as domestic demand.Each of public use, losses, industrial and commercial water demand is 10% of the totalwater demand. Using the Incremental Increase Method, and assuming duration of fireflow is 10 hrs/day determine:-- Total average daily water demand at year 2015.- Max. weekly domestic water demand at 2015.

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Answered: Q1: A mid size city with populations of…

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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A city has a current total population of 40,000 residents. The estimated design population is 55,000 at the end of a design period of 20 years. Determine the design average, peak, and minimum flow rates. Use the following data. Current daily average flow to the wastewater treatment plant Daily average I/I flow Hourly peak I/I flow = 18,400 m³/d = 80 Lpcd = 180 Lpcd A new junior college will attract 1500 nonresident students per day. The daily average wastewater flow is 50 Lpcd. A new industry will add a daily average flow of 900 m /d for a 24 h/d operation. An hourly peak flow of 1500 m’/d will occur during the day shift. The plant will be shut down one day a week. It is expected that 10% per capita reduction in wastewater flow will occur with the future population growth. The minimum to average flow ratio is 0.4 for the current dry weather wastewater flow.
Estimate the membrane area required as a part of membrane bioreactor (MBR) process design for the treatment of wastewater with a flow rate of 5000 m3/d. Design flux, J= 20 LMH (L/m2.h)
Problem 1.1. Answer the following questions based on your textbook reading and/or ancillary sources. Make sure to always cite your source. a) Where does Los Angeles get its water from? How much water comes from each source? For any external (non-local) sources, how is the surface water transported to Southern California? b) What is the long-term average precipitation rate of the global hydrologic cycle (in meters/year)? How does that compare to the driest and wettest places on Earth and to Los Angeles? c) How does the long-term global surface precipitation rate (in m/year) compare to the long-term global surface evaporation rate (m/year)?

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