With the schematic diagram of a pump, tanks, and piping determine the following: 1) The velocity of the liquid at point 5 (ft/s) 2) Pump work used by the liquid (Wpunp u) (hp) 3) Electric motor power in out (kW) 4) In figure 3, the shaded (pink) in the U tube is mercury; determine y. specific gravity of mercury 13.7 5) Mass flow rate Assume the whole system is steady flow with a pipe friction loss of 2 ft of water between point 1 to point 3. Use only the following constant and conversion g= 32.2 iv's i hp= 33,000 ft-bt/min 1 hp = 0.746 kW Specific gracity of mercury 13.7 In computing for the density of mercury use the density of water =62.4 lbm/fº Do not convert English units to Sl units except horsepower to kW Given: 4 2.3 0.74 0.55 15 45 74 2.3 39 Diameter of pipe in point 1 Diameter of pipe in point 2 Specific gravity of the liquid h (ft) (see figure 2) Pressure at point 1 Pressure at point 3 Combined Pump and motor efficiency 6. Diameter of pipe in point 4 Diameter of pipe in point 5 23 (see figure 1)

With the schematic diagram of a pump, tanks, and piping determine the following: 1) The velocity of the liquid at point 5 (ft/s) 2) Pump work used by the liquid (Wpunp u) (hp) 3) Electric motor power in out (kW) 4) In figure 3, the shaded (pink) in the U tube is mercury; determine y. specific gravity of mercury 13.7 5) Mass flow rate Assume the whole system is steady flow with a pipe friction loss of 2 ft of water between point 1 to point 3. Use only the following constant and conversion g= 32.2 iv's i hp= 33,000 ft-bt/min 1 hp = 0.746 kW Specific gracity of mercury 13.7 In computing for the density of mercury use the density of water =62.4 lbm/fº Do not convert English units to Sl units except horsepower to kW Given: 4 2.3 0.74 0.55 15 45 74 2.3 39 Diameter of pipe in point 1 Diameter of pipe in point 2 Specific gravity of the liquid h (ft) (see figure 2) Pressure at point 1 Pressure at point 3 Combined Pump and motor efficiency 6. Diameter of pipe in point 4 Diameter of pipe in point 5 23 (see figure 1)

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

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Concept explainers

Applied Fluid Mechanics

A fluid is a substance that is continuously deformed by the application of shear stress. The rate of deformation of a fluid depends on its viscosity. The fluid tries to flow when it interacts with some other system.

Question

With the schematic diagram of a pump, tanks, and piping determine the following:
1) The velocity of the liquid at point 5 (ft/s)
2) Pump work used by the liquid (Wpump u) (hp)
3) Electric motor power in out (kW)
4) In figure 3, the shaded (pink) in the U tube is mercury; determine y. specific gravity of mercury 13.7
5) Mass flow rate
Assume the whole system is steady flow with a pipe friction loss of 2 ft of water between point 1 to point 3.
Use only the following constant and conversion
g= 32.2 ftls
1 hp= 33,000 ft-lbf/min
1 hp = 0.746 kW
Specific gracity of mercury 13.7
In computing for the density of mercury use the density of water =62.4 Ibm/fº
Do not convert English units to Sl units except horsepower to kW
Given:
4
2.3
0.74
0.55
15
45
74
4.6
2.3
39
Diameter of pipe in point 1
Diameter of pipe in point 2
Specific gravity of the liquid
h (ft) (see figure 2)
Pressure at point 1
Pressure at point 3
Combined Pump and motor
efficiency
Diameter of pipe in point 4
Diameter of pipe in point 5
23 (see figure 1)

Figure 1
Pressurized tank
pump
Different diameters
See figure 3
See figure 2
motor
At point 2
Figure 2
Stagnation
point
At points 4 and 5
Figure 3
DS
D4

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