Determine the output pressure of a compressor operating with the following data: a. Actual power required to drive the compressor is 20 kW. b. Overall efficiency of the compressor is 75%. c. Compressor delivers four standard m3/min. d. Compressor inlet pressure is 100 kPa abs. Please use the equation in the picture to solve it.
Determine the output pressure of a compressor operating with the following data: a. Actual power required to drive the compressor is 20 kW. b. Overall efficiency of the compressor is 75%. c. Compressor delivers four standard m3/min. d. Compressor inlet pressure is 100 kPa abs. Please use the equation in the picture to solve it.
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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Determine the output pressure of a compressor operating with the following data:
a. Actual power required to drive the compressor is 20 kW.
b. Overall efficiency of the compressor is 75%.
c. Compressor delivers four standard m3/min.
d. Compressor inlet pressure is 100 kPa abs.
Please use the equation in the picture to solve it.
Transcribed Image Text:6. Determine the output pressure of a compressor operating with the following data:
a. Actual power required to drive the compressor is 20 kW.
b. Overall efficiency of the compressor is 75%.
c. Compressor delivers four standard m³/min.
d. Compressor inlet pressure is 100 kPa abs.
Transcribed Image Text:Power Required to Drive Compressors
• The theoretical power required to drive an air compressor can be calculated as follows:
Compressor PowerTh (W, ft. lb/s)
Compressor HorsepowerTh
3.5
= Pin * Q *
60
Pout
Pin
• To determine the actual power, the theoretical
power is divided by the overall compressor
efficiency no
0.286
- 1
Compressor PowerTh (ft. lb/s) Compressor PowerTh (W)
550
746
Pin: inlet atmospheric pressure (psfa, Pa abs)
Pout: outlet pressure (psfa, Pa abs)
Q: flow rate (scfm standard m³/min)
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