Water at 20°C having the density of p = 998.3 kg/m³ and kinematic viscosity of = 1.00(10-6) m²/s is pumped from a lake into the tank on the truck using a 50-mm-diameter galvanized iron pipe with ε = 0.15 mm (Figure 1). The pump performance curve is as shown in (Figure 2). The total length of the pipe is 50 m. Part A Determine the maximum volumetric flow the pump will generate. Include the minor losses of the five elbows. Express your answer to two significant figures and include the appropriate units.

Water at 20∘C∘C having the density of ρw�� = 998.3 kg/m3kg/m3 and kinematic viscosity of νw=1.00(10−6)m2/s��=1.00(10−6)m2/s is pumped from a lake into the tank on the truck using a 50-mmmm-diameter galvanized iron pipe with ε� = 0.15 mmmm (Figure 1). The pump performance curve is as shown in (Figure 2). The total length of the pipe is 50 mm.

Determine the maximum volumetric flow the pump will generate. Include the minor losses of the five elbows.

Express your answer to two significant figures and include the appropriate units.

Transcribed Image Text:

<Homework Set: Chapter 14 Assignment Problem 14.44 Water at 20°C having the density of p = 998.3 kg/m³ and kinematic viscosity of = 1.00(10-6) m² /s is pumped from a lake into the tank on the truck using a 50-mm-diameter galvanized iron pipe with ε = 0.15 mm (Figure 1). The pump performance curve is as shown in (Figure 2). The total length of the pipe is 50 m. Figure 8 m B 1 of 2 > Part A Determine the maximum volumetric flow the pump will generate. Include the minor losses of the five elbows. Qmax = Express your answer to two significant figures and include the appropriate units. Submit Provide Feedback HÅ Value Request Answer Units 5 of 6 ***** Review ? Next >