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a.) The expansion ratio during the isobaric heat addition process in an Ericsson Cycle is 3.5. Determine the Thermal Efficiency in (%) b.) The pressure ratio during the constant volume heat addition of a Stirling Cycle is 4. What is the thermal efficiency in (%)? c.) The Pressure ratio  during the constant volume heat addition of a Stirling Cycle is 4. Heat is rejected at 90°C. What is the highest temperature in the cycle in (Celcius)?

a.) The expansion ratio during the isobaric heat addition process in an Ericsson Cycle is 3.5. Determine the Thermal Efficiency in (%) b.) The pressure ratio during the constant volume heat addition of a Stirling Cycle is 4. What is the thermal efficiency in (%)? c.) The Pressure ratio  during the constant volume heat addition of a Stirling Cycle is 4. Heat is rejected at 90°C. What is the highest temperature in the cycle in (Celcius)?

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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SOLVE: ANSWERS SHOULD BE IN SIX SIGNIFICANT FIGURES:

a.) The expansion ratio during the isobaric heat addition process in an Ericsson Cycle is 3.5. Determine the Thermal Efficiency in (%)

b.) The pressure ratio during the constant volume heat addition of a Stirling Cycle is 4. What is the thermal efficiency in (%)?

c.) The Pressure ratio  during the constant volume heat addition of a Stirling Cycle is 4. Heat is rejected at 90°C. What is the highest temperature in the cycle in (Celcius)?

d.) A Stirling cycle operates on a thermal efficiency of 70%. The lowest temperature in the cycle is recorded to be at 50°C, Determine the highest temperature in the cycle in (Kelvin)

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SOLVE: ANSWERS SHOULD BE IN SIX SIGNIFICANT FIGURES:

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d.) A Stirling cycle operates on a thermal efficiency of 70%. The lowest temperature in the cycle is recorded to be at 50°C, Determine the highest temperature in the cycle in (Kelvin)

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