An ice maker operating at steady state makes ice from liquid water at 32°F. Assume that 144 Btu/lb of energy must be removed by heat transfer to freeze water at 32°F and that the surroundings are at 74.50°F. The ice maker consumes 1.4 kW of power. Determine the maximum rate that ice can be produced, in lb/h, the corresponding rate of heat rejection to the surroundings, in Btu/h, and the maximum coefficient of performance of the cycle.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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An ice maker operating at steady state makes ice from liquid water at 32°F. Assume that 144 Btu/lb of energy must be removed by
heat transfer to freeze water at 32°F and that the surroundings are at 74.50°F. The ice maker consumes 1.4 kW of power.
Determine the maximum rate that ice can be produced, in lb/h, the corresponding rate of heat rejection to the surroundings, in Btu/h,
and the maximum coefficient of performance of the cycle.
Step 1
Determine the maximum theoretical rate that ice can be produced, in lb/h.
mmax
lb/h
Transcribed Image Text:An ice maker operating at steady state makes ice from liquid water at 32°F. Assume that 144 Btu/lb of energy must be removed by heat transfer to freeze water at 32°F and that the surroundings are at 74.50°F. The ice maker consumes 1.4 kW of power. Determine the maximum rate that ice can be produced, in lb/h, the corresponding rate of heat rejection to the surroundings, in Btu/h, and the maximum coefficient of performance of the cycle. Step 1 Determine the maximum theoretical rate that ice can be produced, in lb/h. mmax lb/h
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