COP of Air Cycle for given Input Power and Tonnage of Refrigeration Solution

STEP 0: Pre-Calculation Summary
Formula Used
Actual Coefficient of Performance = (210*Tonnage of Refrigeration in TR)/(Input Power*60)
COPactual = (210*Q)/(Pin*60)
This formula uses 3 Variables
Variables Used
Actual Coefficient of Performance - Actual Coefficient of Performance is a measure of the effectiveness of an air refrigeration system in transferring heat from one location to another.
Tonnage of Refrigeration in TR - Tonnage of Refrigeration in TR is the unit of measurement for the cooling capacity of an air refrigeration system, typically used in industrial and commercial applications.
Input Power - (Measured in Watt) - Input Power is the amount of energy required by the air refrigeration system to operate efficiently and effectively.
STEP 1: Convert Input(s) to Base Unit
Tonnage of Refrigeration in TR: 150 --> No Conversion Required
Input Power: 155 Kilojoule per Minute --> 2583.33333333334 Watt (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
COPactual = (210*Q)/(Pin*60) --> (210*150)/(2583.33333333334*60)
Evaluating ... ...
COPactual = 0.203225806451612
STEP 3: Convert Result to Output's Unit
0.203225806451612 --> No Conversion Required
FINAL ANSWER
0.203225806451612 0.203226 <-- Actual Coefficient of Performance
(Calculation completed in 00.004 seconds)

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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

COP of Air Cycle for given Input Power and Tonnage of Refrigeration Formula

​LaTeX ​Go
Actual Coefficient of Performance = (210*Tonnage of Refrigeration in TR)/(Input Power*60)
COPactual = (210*Q)/(Pin*60)

What is Tonnage of Refrigeration?

Tonnage of Refrigeration is a unit that measures the cooling capacity of a refrigeration system. It represents the amount of heat removed to freeze one ton of water at 0°C in 24 hours. One ton of refrigeration is equivalent to a specific cooling effect and is commonly used to rate the capacity of air conditioning and refrigeration systems. It helps in determining the appropriate system size for a given cooling load.

How to Calculate COP of Air Cycle for given Input Power and Tonnage of Refrigeration?

COP of Air Cycle for given Input Power and Tonnage of Refrigeration calculator uses Actual Coefficient of Performance = (210*Tonnage of Refrigeration in TR)/(Input Power*60) to calculate the Actual Coefficient of Performance, COP of Air Cycle for given Input Power and Tonnage of Refrigeration formula is defined as a measure of the actual coefficient of performance of an air refrigeration system, which represents the ratio of the refrigeration capacity to the input power, providing a way to evaluate the system's efficiency. Actual Coefficient of Performance is denoted by COPactual symbol.

How to calculate COP of Air Cycle for given Input Power and Tonnage of Refrigeration using this online calculator? To use this online calculator for COP of Air Cycle for given Input Power and Tonnage of Refrigeration, enter Tonnage of Refrigeration in TR (Q) & Input Power (Pin) and hit the calculate button. Here is how the COP of Air Cycle for given Input Power and Tonnage of Refrigeration calculation can be explained with given input values -> 0.21 = (210*150)/(2583.33333333334*60).

FAQ

What is COP of Air Cycle for given Input Power and Tonnage of Refrigeration?
COP of Air Cycle for given Input Power and Tonnage of Refrigeration formula is defined as a measure of the actual coefficient of performance of an air refrigeration system, which represents the ratio of the refrigeration capacity to the input power, providing a way to evaluate the system's efficiency and is represented as COPactual = (210*Q)/(Pin*60) or Actual Coefficient of Performance = (210*Tonnage of Refrigeration in TR)/(Input Power*60). Tonnage of Refrigeration in TR is the unit of measurement for the cooling capacity of an air refrigeration system, typically used in industrial and commercial applications & Input Power is the amount of energy required by the air refrigeration system to operate efficiently and effectively.
How to calculate COP of Air Cycle for given Input Power and Tonnage of Refrigeration?
COP of Air Cycle for given Input Power and Tonnage of Refrigeration formula is defined as a measure of the actual coefficient of performance of an air refrigeration system, which represents the ratio of the refrigeration capacity to the input power, providing a way to evaluate the system's efficiency is calculated using Actual Coefficient of Performance = (210*Tonnage of Refrigeration in TR)/(Input Power*60). To calculate COP of Air Cycle for given Input Power and Tonnage of Refrigeration, you need Tonnage of Refrigeration in TR (Q) & Input Power (Pin). With our tool, you need to enter the respective value for Tonnage of Refrigeration in TR & Input Power and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Actual Coefficient of Performance?
In this formula, Actual Coefficient of Performance uses Tonnage of Refrigeration in TR & Input Power. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • Actual Coefficient of Performance = (Inside Temperature of Cabin-Actual Temperature at end of Isentropic Expansion)/(Actual End Temp of Isentropic Compression-Actual Temperature of Rammed Air)
  • Actual Coefficient of Performance = (210*Tonnage of Refrigeration in TR)/(Mass of Air*Specific Heat Capacity at Constant Pressure*(Actual End Temp of Isentropic Compression-Actual Temperature of Rammed Air))
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