THERMODYNAMICS-SI ED. EBOOK >I<
THERMODYNAMICS-SI ED. EBOOK >I<
9th Edition
ISBN: 9781307573022
Author: CENGEL
Publisher: MCG/CREATE
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Chapter 2.8, Problem 69P

Water is pumped from a lake to a storage tank 15 m above at a rate of 70 L/s while consuming 15.4 kW of electric power. Disregarding any frictional losses in the pipes and any changes in kinetic energy, determine (a) the overall efficiency of the pump–motor unit and (b) the pressure difference between the inlet and the exit of the pump.

FIGURE P2–69

Chapter 2.8, Problem 69P, Water is pumped from a lake to a storage tank 15 m above at a rate of 70 L/s while consuming 15.4 kW

(a)

Expert Solution
Check Mark
To determine

The overall efficiency of the pump-motor unit.

Answer to Problem 69P

The overall efficiency of the pump-motor is 66.9%_.

Explanation of Solution

Write the mass flow rate of water.

m˙=ρV˙ (I)

Here, the volumetric flow rate of water is V˙ and density of water is ρ.

The potential energy at point 1 is considered as 0(pe1=0) because the lake surface is taken as the reference level (z1=0).

Write the equation of potential energy at point 2.

pe2=gz2 (II)

Here, acceleration due to gravity is g and lake surface at point 2 is z2.

Calculate the rate at which mechanical energy of fluid supplied to the pump.

ΔE˙mech,fluid=m˙(emech,outemech,in)=m˙(pe2pe1) (III)

Here, the mechanical energy of water inlet and outlet are emech,in and emech,out respectively.

Calculate the overall efficiency of the combined pump-motor.

ηpump-motor=ΔE˙mech,fluidW˙elect,in×100% (IV)

Here, and electric power consumption is W˙elect,in.

Conclusion:

Substitute 1000kg/m3 for ρ and 0.070m3/s for V˙ in Equation (I).

m˙=1000kg/m3(0.070m3/s)=70kg/s

Substitute 9.81m/s2 for g and 15 m for z2 in Equation (II).

pe2=9.81m/s2(15m)=9.81m/s2(15m)(1kJ/kg1000m2/s2)=0.1472kJ/kg

Substitute 70 kg/s for m˙, 0 for pe1, and 0.1472 kJ/kg for pe2 in Equation (III).

ΔE˙mech,fluid=(70kg/s)(0.1472kJ/kg0)=10.3kW

Substitute 10.3 kW for ΔE˙mech,fluid and 15.4 kW for W˙elect,in in Equation (IV).

ηpump-motor=10.3kW15.4kW×100%=0.669×100%=66.9%

Thus, the overall efficiency of the pump-motor is 66.9%_.

(b)

Expert Solution
Check Mark
To determine

The pressure difference between the inlet and the exit of the pump.

Answer to Problem 69P

The pressure difference between the inlet and the exit of the pump is 147kPa_.

Explanation of Solution

Calculate the rate at which mechanical energy of fluid supplied by the pump.

ΔE˙mech,fluid=m˙(emech,outemech,in)ΔE˙mech,fluid=m˙(P2P1ρ)ΔE˙mech,fluid=V˙ΔPΔP=ΔE˙mech,fluidV˙ (V)

Here, change in the pressure of water is ΔP, pressure at inlet and exit of the pump is P1, and P2.

Conclusion:

Substitute 10.3 kJ/s for ΔE˙mech,fluid and 0.070m3/s for V˙ in equation (V).

ΔP=10.3kJ/s0.070m3/s=10.3kJ/s0.070m3/s(1kPam31kJ)=147kPa

Thus, the pressure difference between the inlet and the exit of the pump is 147kPa_.

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Chapter 2 Solutions

THERMODYNAMICS-SI ED. EBOOK >I<

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