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Refrigeration Effect Produced Calculator

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✖Mass of Air is the amount of air present in a refrigeration system, which affects the cooling performance and overall efficiency of the system.ⓘ Mass of Air [ma]			+10% -10%
✖Specific Heat Capacity at Constant Pressure is the amount of heat required to change the temperature of air in refrigeration systems by one degree Celsius.ⓘ Specific Heat Capacity at Constant Pressure [C_p]			+10% -10%
✖Inside temperature of cabin is the temperature of the air inside the cabin of an air refrigeration system, which affects the overall cooling performance.ⓘ Inside Temperature of Cabin [T₆]			+10% -10%
✖Actual temperature at end of isentropic expansion is the final temperature of air at the end of an isentropic expansion process in air refrigeration systems.ⓘ Actual Temperature at end of Isentropic Expansion [T5^']			+10% -10%

✖Refrigeration Effect Produced is the amount of heat removed from the air being refrigerated, resulting in a cooling effect in air refrigeration systems.ⓘ Refrigeration Effect Produced [R_E]

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Refrigeration Effect Produced Solution

STEP 0: Pre-Calculation Summary

Formula Used

Refrigeration Effect Produced = Mass of Air*Specific Heat Capacity at Constant Pressure*(Inside Temperature of Cabin-Actual Temperature at end of Isentropic Expansion)
R_E = ma*C_p*(T₆-T5^')
This formula uses 5 Variables

Variables Used

Refrigeration Effect Produced - (Measured in Joule per Second) - Refrigeration Effect Produced is the amount of heat removed from the air being refrigerated, resulting in a cooling effect in air refrigeration systems.
Mass of Air - (Measured in Kilogram per Second) - Mass of Air is the amount of air present in a refrigeration system, which affects the cooling performance and overall efficiency of the system.
Specific Heat Capacity at Constant Pressure - (Measured in Joule per Kilogram per K) - Specific Heat Capacity at Constant Pressure is the amount of heat required to change the temperature of air in refrigeration systems by one degree Celsius.
Inside Temperature of Cabin - (Measured in Kelvin) - Inside temperature of cabin is the temperature of the air inside the cabin of an air refrigeration system, which affects the overall cooling performance.
Actual Temperature at end of Isentropic Expansion - (Measured in Kelvin) - Actual temperature at end of isentropic expansion is the final temperature of air at the end of an isentropic expansion process in air refrigeration systems.

STEP 1: Convert Input(s) to Base Unit

Mass of Air: 120 Kilogram per Minute --> 2 Kilogram per Second (Check conversion here)
Specific Heat Capacity at Constant Pressure: 1.005 Kilojoule per Kilogram per K --> 1005 Joule per Kilogram per K (Check conversion here)
Inside Temperature of Cabin: 281 Kelvin --> 281 Kelvin No Conversion Required
Actual Temperature at end of Isentropic Expansion: 265 Kelvin --> 265 Kelvin No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

R_E = ma*C_p*(T₆-T5^') --> 2*1005*(281-265)

Evaluating ... ...

R_E = 32160

STEP 3: Convert Result to Output's Unit

32160 Joule per Second -->1929.6 Kilojoule per Minute (Check conversion here)

FINAL ANSWER

1929.6 Kilojoule per Minute <-- Refrigeration Effect Produced

(Calculation completed in 00.004 seconds)

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K J Somaiya College of Engineering (K J Somaiya), Mumbai

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National Institute Of Technology (NIT), Hamirpur

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< Air Refrigeration Calculators

Compression or Expansion Ratio

LaTeX Go Compression or Expansion Ratio = Pressure at End of Isentropic Compression/Pressure at Start of Isentropic Compression

Relative Coefficient of Performance

LaTeX Go Relative Coefficient of Performance = Actual Coefficient of Performance/Theoretical Coefficient of Performance

Energy Performance Ratio of Heat Pump

LaTeX Go Theoretical Coefficient of Performance = Heat Delivered to Hot Body/Work Done per min

Theoretical Coefficient of Performance of Refrigerator

LaTeX Go Theoretical Coefficient of Performance = Heat Extracted from Refrigerator/Work Done

Refrigeration Effect Produced Formula

LaTeX Go

Refrigeration Effect Produced = Mass of Air*Specific Heat Capacity at Constant Pressure*(Inside Temperature of Cabin-Actual Temperature at end of Isentropic Expansion)
R_E = ma*C_p*(T₆-T5^')

What is Refrigeration effect?

The refrigeration effect is the amount of heat absorbed from the space or substance being cooled by a refrigeration system. It is the difference between the heat removed from the cooled area and the work input required to operate the system. This effect is essential for determining the efficiency and performance of a refrigeration system, as it directly correlates with the system's ability to provide effective cooling.

How to Calculate Refrigeration Effect Produced?

Refrigeration Effect Produced calculator uses Refrigeration Effect Produced = Mass of Air*Specific Heat Capacity at Constant Pressure*(Inside Temperature of Cabin-Actual Temperature at end of Isentropic Expansion) to calculate the Refrigeration Effect Produced, Refrigeration Effect Produced formula is defined as the amount of heat energy transferred from the refrigerant to the surrounding environment during the refrigeration process, which is a critical parameter in evaluating the performance of a refrigeration system. It represents the cooling capacity of the system, and its accurate measurement is essential for efficient system design and operation. Refrigeration Effect Produced is denoted by R_E symbol.

How to calculate Refrigeration Effect Produced using this online calculator? To use this online calculator for Refrigeration Effect Produced, enter Mass of Air (ma), Specific Heat Capacity at Constant Pressure (C_p), Inside Temperature of Cabin (T₆) & Actual Temperature at end of Isentropic Expansion (T5^') and hit the calculate button. Here is how the Refrigeration Effect Produced calculation can be explained with given input values -> 115.776 = 2*1005*(281-265).

FAQ

What is Refrigeration Effect Produced?

Refrigeration Effect Produced formula is defined as the amount of heat energy transferred from the refrigerant to the surrounding environment during the refrigeration process, which is a critical parameter in evaluating the performance of a refrigeration system. It represents the cooling capacity of the system, and its accurate measurement is essential for efficient system design and operation and is represented as R_E = ma*C_p*(T₆-T5^') or Refrigeration Effect Produced = Mass of Air*Specific Heat Capacity at Constant Pressure*(Inside Temperature of Cabin-Actual Temperature at end of Isentropic Expansion). Mass of Air is the amount of air present in a refrigeration system, which affects the cooling performance and overall efficiency of the system, Specific Heat Capacity at Constant Pressure is the amount of heat required to change the temperature of air in refrigeration systems by one degree Celsius, Inside temperature of cabin is the temperature of the air inside the cabin of an air refrigeration system, which affects the overall cooling performance & Actual temperature at end of isentropic expansion is the final temperature of air at the end of an isentropic expansion process in air refrigeration systems.

How to calculate Refrigeration Effect Produced?

Refrigeration Effect Produced formula is defined as the amount of heat energy transferred from the refrigerant to the surrounding environment during the refrigeration process, which is a critical parameter in evaluating the performance of a refrigeration system. It represents the cooling capacity of the system, and its accurate measurement is essential for efficient system design and operation is calculated using Refrigeration Effect Produced = Mass of Air*Specific Heat Capacity at Constant Pressure*(Inside Temperature of Cabin-Actual Temperature at end of Isentropic Expansion). To calculate Refrigeration Effect Produced, you need Mass of Air (ma), Specific Heat Capacity at Constant Pressure (C_p), Inside Temperature of Cabin (T₆) & Actual Temperature at end of Isentropic Expansion (T5^'). With our tool, you need to enter the respective value for Mass of Air, Specific Heat Capacity at Constant Pressure, Inside Temperature of Cabin & Actual Temperature at end of Isentropic Expansion and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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