3. What horse power must be supplied to pump 2.5 cfs of water from the lower to the Assume that the headloss can be calculated from the formula hL upper reservoir? = 0.015(L/D)(V²/2g). Elevation - 150 ft Elevation 100 ft L- 2000 ft, D- 8 in. L= 1000 ft,D-8 in. Elevation = 40 ft

Whathorsepowermustbesuppliedtopump2.5cfsofwaterfromthelowertotheupperreservoir? Assume that the headloss can be calculated from the formula hL = 0.015(L/D)(V 2/2g).

Transcribed Image Text:

**Problem Statement:** What horsepower must be supplied to pump 2.5 cubic feet per second (cfs) of water from the lower to the upper reservoir? Assume that the head loss can be calculated from the formula: \[ h_L = 0.015 \frac{L}{D} \left(\frac{V^2}{2g}\right) \] **Diagram Description:** - The diagram shows two water reservoirs connected by a pipe system. - The lower reservoir is at an elevation of 40 feet. - The pipe leads to the upper reservoir, which is at an elevation of 150 feet. - The pipe system is divided into two segments: - The first segment is horizontal, with a length \( L = 1000 \) feet and a diameter \( D = 8 \) inches. It connects the lower reservoir to a pump. - The second segment is inclined, with a length \( L = 2000 \) feet and a diameter \( D = 8 \) inches. It connects the pump to the upper reservoir. **Objective:** Calculate the required horsepower to pump water from the lower reservoir to the upper reservoir using the given head loss formula.