02. The Li-Br water absorption cycle operate at the following temperature: generator temperature = 90 °C, condenser temperature =35 °C, evaporator %3D temperature-5 "C, and absorber temperature - 30 "C. The flow rate of solution delivered by the pump is 0.4 kg/s. Calculate a- The mass flow rate of the solution return from the generator to the absorber, and of the refrigerant. b- The rate of heat transfer at each of components and the СОР.
02. The Li-Br water absorption cycle operate at the following temperature: generator temperature = 90 °C, condenser temperature =35 °C, evaporator %3D temperature-5 "C, and absorber temperature - 30 "C. The flow rate of solution delivered by the pump is 0.4 kg/s. Calculate a- The mass flow rate of the solution return from the generator to the absorber, and of the refrigerant. b- The rate of heat transfer at each of components and the СОР.
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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Transcribed Image Text:02. The Li-Br water absorption
cycle operate at the following
temperature:
generator temperature = 90 °C,
condenser temperature =35 °C,
evaporator
temperature-5 "C, and absorber
temperature - 30 "C. The flow rate
of solution delivered by the pump
is 0.4 kg/s. Calculate
a- The mass flow rate of
the solution return from the
generator to the absorber, and of
the refrigerant.
b- The rate of heat transfer at
each of components and the
СОР.
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