The aim is to supply drinking water to a community in Villa Hermosa that has an area of 100 hectares with a density of 500 inhabitants / ha and a per capita consumption of 80 gallons per day. Considering that the system does not cover 5% of the population for reasons that are out of reach, calculate: A) the average daily flow rates, in (lps), MGD, gpm B) the maximum daily flow, in (lps), MGD, gpm C) the maximum hourly flow, in (lps), MGD, gpm D) adduction flow rate, in (lps), MGD, gpm E) the attendance rate, F) the storage volume in (m3), (gal) considering that there is household storage. Note: an average of 2% is spent in the water treatment plant for washing filters and other uses. Use daily maximum factor 1.5 and hourly maximum factor 2.0 G) Size the storage tank if you have a plot of 25m x 30m = 750 m2
The aim is to supply drinking water to a community in Villa Hermosa that has an area of 100 hectares with a density of 500 inhabitants / ha and a per capita consumption of 80 gallons per day. Considering that the system does not cover 5% of the population for reasons that are out of reach, calculate:
A) the average daily flow rates, in (lps), MGD, gpm
B) the maximum daily flow, in (lps), MGD, gpm
C) the maximum hourly flow, in (lps), MGD, gpm
D) adduction flow rate, in (lps), MGD, gpm
E) the attendance rate,
F) the storage volume in (m3), (gal) considering that there is household storage. Note: an average of 2% is spent in the water treatment plant for washing filters and other uses. Use daily maximum factor 1.5 and hourly maximum factor 2.0
G) Size the storage tank if you have a plot of 25m x 30m = 750 m2
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