A compressor receives 21.6 m³/min of carbon dioxide (CO₂) gas. The initial and final specific gravities of gas is 1.44 and 5.2 The inlet (or suction) pipe diameter 300 mm and the outlet (or discharge) pipe diameter is 250 mm. Determine a. mass flow rate in kg/s b. initial velocity in m/s c. initial velocity head in m d. initial Kinetic energy in W e. final volume flow rate in m³/s f. final velocity in m/s g. final velocity head in m h. final Kinetic energy in W i. change in Kinetic energy in W change in Kinetic energy in J/kg j. diameter of inlet pipe, d, = 300 mm 3. m 10 answers OIL IN K₁ 1 suction pipe d₂ = 250 mm diameter of outlet pipe subscripts: 1 = initial at inlet pipe 2 = final at outlet pipe COMPRESSOR OIL OUT discharge pipe K₂ mout

A compressor receives 21.6 m³/min of carbon dioxide (CO₂) gas. The initial and final specific gravities of gas is 1.44 and 5.2 The inlet (or suction) pipe diameter 300 mm and the outlet (or discharge) pipe diameter is 250 mm. Determine a. mass flow rate in kg/s b. initial velocity in m/s c. initial velocity head in m d. initial Kinetic energy in W e. final volume flow rate in m³/s f. final velocity in m/s g. final velocity head in m h. final Kinetic energy in W i. change in Kinetic energy in W change in Kinetic energy in J/kg j. diameter of inlet pipe, d, = 300 mm 3. m 10 answers OIL IN K₁ 1 suction pipe d₂ = 250 mm diameter of outlet pipe subscripts: 1 = initial at inlet pipe 2 = final at outlet pipe COMPRESSOR OIL OUT discharge pipe K₂ mout

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Question

A compressor receives 21.6 m³/min of carbon dioxide (CO₂) gas. The initial and final specific gravities of gas is 1.44 and
5.2 The inlet (or suction) pipe diameter 300 mm and the outlet (or discharge) pipe diameter is 250 mm.
Determine
a. mass flow rate in kg/s
b. initial velocity in m/s
c. initial velocity head in m
d. initial Kinetic energy in W
e. final volume flow rate in m³/s
f. final velocity in m/s
g. final velocity head in m
h. final Kinetic energy in W
i. change in Kinetic energy in W
j. change in Kinetic energy in J/kg
diameter of inlet pipe, d₂ = 300 mm
min
10 answers
OIL IN
K₁
1 suction pipe
d₂ = 250 mm diameter of outlet pipe
subscripts: 1 = initial at inlet pipe
2 = final at outlet pipe
COMPRESSOR
OIL OUT
discharge pipe
K₂ mout

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