Design basis for distribution mains: a city’s distribution mains are normally sized for approximately what fraction of the average daily water requirement?
-
A100% of the average daily requirement
-
B150% of the average daily requirement (maximum day demand)
-
C200% of the average daily requirement
-
D225% of the average daily requirement
Answer
Correct Answer: 150% of the average daily requirement (maximum day demand)
Explanation
Introduction / Context: Distribution mains must convey peak demands, not merely average flows. A common planning benchmark is the maximum day demand, often taken as a multiplier of the average day, to ensure adequate pressures and service during high-use periods and emergencies.
Given Data / Assumptions:
- Average daily requirement is the baseline.
- Peak factors translate average to design flow.
Concept / Approach: Empirical peaking factors account for diurnal and seasonal variability. For many systems, maximum day ≈ 1.5 × average day, while maximum hour may be higher and handled by storage plus main capacity. Designing mains near 150% of the average daily requirement is a typical baseline before detailed modeling.
Step-by-Step Solution: Identify the design driver: maximum day consumption. Apply peak factor ≈ 1.5 on average daily requirement. Select 150% as the appropriate choice.
Verification / Alternative check: Hydraulic modeling with diurnal curves usually confirms that mains sized for the maximum day plus storage can meet maximum hour at acceptable pressures.
Why Other Options Are Wrong:
- 100%: Insufficient for peaks.
- 200% or 225%: Overly conservative for typical systems and uneconomical without justification.
Common Pitfalls:
- Confusing maximum day factor with maximum hour factor, which is higher but primarily met via storage.
Final Answer: 150% of the average daily requirement (maximum day demand).