A simple vapor - compression cycle develops 13 tons of refrigeration. Using ammonia as refrigerant and operating at a condensing temperature of 24 °C and evaporating temperature of -18°C and assuming that the compression are isentropic and that the gas leaving the condenser is saturated. Find the following a). Draw the p-h diagram b.) Refrigerating effect in kJ/kg c.) Circulation flow in kg/min
A simple vapor - compression cycle develops 13 tons of refrigeration. Using ammonia as refrigerant and operating at a condensing temperature of 24 °C and evaporating temperature of -18°C and assuming that the compression are isentropic and that the gas leaving the condenser is saturated. Find the following a). Draw the p-h diagram b.) Refrigerating effect in kJ/kg c.) Circulation flow in kg/min
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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A simple vapor - compression cycle develops 13 tons of
refrigeration. Using ammonia as refrigerant and operating at a
condensing temperature of 24 °C and evaporating temperature of
-18°C and assuming that the compression are isentropic and that
the gas leaving the condenser is saturated. Find the following
a). Draw the p-h diagram
b.) Refrigerating effect in kJ/kg
c.) Circulation flow in kg/min
d.) Power requirement
e.) Volume flow in cubic meter per minute per ton
f.) Coefficient of performance
g.) Power per ton
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