Carnot Cycle of Refrigerator Calculator

✖Heat from Low Temperature Reservoir is the heat of the material at a lower temperature.ⓘ Heat from Low Temperature Reservoir [Q_low]			+10% -10%
✖Heat from High Temperature Reservoir is the heat to the body at a higher temperature.ⓘ Heat from High Temperature Reservoir [Q_high]			+10% -10%

✖Carnot cycle of refrigerator provides an upper limit on the efficiency that any classical thermodynamic engine or refrigeration system can achieve during the conversion of heat into work.ⓘ Carnot Cycle of Refrigerator [C_ref]

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Formula

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Carnot Cycle of Refrigerator

Formula

`"C"_{"ref"} = 1/("Q"_{"low"}/"Q"_{"high"}-1)`

Example

`"-1.333333"=1/("200J"/"800J"-1)`

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Carnot Cycle of Refrigerator Solution

STEP 0: Pre-Calculation Summary

Formula Used

Carnot Cycle of Refrigerator = 1/(Heat from Low Temperature Reservoir/Heat from High Temperature Reservoir-1)
C_ref = 1/(Q_low/Q_high-1)
This formula uses 3 Variables

Variables Used

Carnot Cycle of Refrigerator - Carnot cycle of refrigerator provides an upper limit on the efficiency that any classical thermodynamic engine or refrigeration system can achieve during the conversion of heat into work.
Heat from Low Temperature Reservoir - (Measured in Joule) - Heat from Low Temperature Reservoir is the heat of the material at a lower temperature.
Heat from High Temperature Reservoir - (Measured in Joule) - Heat from High Temperature Reservoir is the heat to the body at a higher temperature.

STEP 1: Convert Input(s) to Base Unit

Heat from Low Temperature Reservoir: 200 Joule --> 200 Joule No Conversion Required
Heat from High Temperature Reservoir: 800 Joule --> 800 Joule No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

C_ref = 1/(Q_low/Q_high-1) --> 1/(200/800-1)

Evaluating ... ...

C_ref = -1.33333333333333

STEP 3: Convert Result to Output's Unit

-1.33333333333333 --> No Conversion Required

FINAL ANSWER

-1.33333333333333 ≈ -1.333333 <-- Carnot Cycle of Refrigerator

(Calculation completed in 00.004 seconds)

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National Institute of Technology (NIT), Jamshedpur

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< 6 Refrigeration and Liquification Calculators

Coefficient of Performance of Refrigerator given Heat in Cold and Hot Reservoir

Go COP of Refrigerator given Heat = Heat in Cold Reservoir/(Heat in the hot reservoir-Heat in Cold Reservoir)

Carnot Cycle of Refrigerator

Go Carnot Cycle of Refrigerator = 1/(Heat from Low Temperature Reservoir/Heat from High Temperature Reservoir-1)

Coefficient of Performance of Refrigerator

Go Coefficient of Performance of Refrigerator = Heat from Low Temperature Reservoir/Refrigerator Work

Refrigerator Work

Go Refrigerator Work = Heat from High Temperature Reservoir-Heat from Low Temperature Reservoir

Coefficient of Performance of Refrigerator given Work and Heat in Cold Reservoir

Go COP of Refrigerator in Cold Reservoir = Heat in Cold Reservoir/Mechanical Energy

Real Refrigerator

Go Real Refrigerator = Heat from Low Temperature Reservoir/Work

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Carnot Cycle of Heat Pump

Go Carnot Cycle of Heat Pump = Heat from High Temperature Reservoir/(Heat from High Temperature Reservoir-Heat from Low Temperature Reservoir)

Carnot Cycle of Refrigerator

Go Carnot Cycle of Refrigerator = 1/(Heat from Low Temperature Reservoir/Heat from High Temperature Reservoir-1)

Work of Heat Pump

Go Work of Heat Pump = Heat from High Temperature Reservoir-Heat from Low Temperature Reservoir

Horse Power in Fluid Flow

Go Engine Power = (Fluid Flow Rate*Absolute Pressure)/(1714)

Air Fuel Ratio

Go Air to Fuel Ratio = Mass of Air/Mass of Fuel

Real Heat Engine

Go Real Heat Engine = Work of Heat Pump/Heat

Real Heat Pump

Go Real Heat Pump = Heat/Work of Heat Pump

Performance of Heat Pump

Go Heat Pump = Heat/Work of Heat Pump

Carnot Cycle of Refrigerator Formula

Carnot Cycle of Refrigerator = 1/(Heat from Low Temperature Reservoir/Heat from High Temperature Reservoir-1)
C_ref = 1/(Q_low/Q_high-1)

What is Carnot Cycle?

The Carnot cycle is a theoretical ideal thermodynamic cycle . It provides an upper limit on the efficiency that any classical thermodynamic engine can achieve during the conversion of heat into work, or conversely, the efficiency of a refrigeration system in creating a temperature difference by the application of work to the system. It is not an actual thermodynamic cycle but is a theoretical construct.

How to Calculate Carnot Cycle of Refrigerator?

Carnot Cycle of Refrigerator calculator uses Carnot Cycle of Refrigerator = 1/(Heat from Low Temperature Reservoir/Heat from High Temperature Reservoir-1) to calculate the Carnot Cycle of Refrigerator, Carnot Cycle of Refrigerator is the heat per unit of work done. Carnot Cycle of Refrigerator is denoted by C_ref symbol.

How to calculate Carnot Cycle of Refrigerator using this online calculator? To use this online calculator for Carnot Cycle of Refrigerator, enter Heat from Low Temperature Reservoir (Q_low) & Heat from High Temperature Reservoir (Q_high) and hit the calculate button. Here is how the Carnot Cycle of Refrigerator calculation can be explained with given input values -> -1.333333 = 1/(200/800-1).

FAQ

What is Carnot Cycle of Refrigerator?

Carnot Cycle of Refrigerator is the heat per unit of work done and is represented as C_ref = 1/(Q_low/Q_high-1) or Carnot Cycle of Refrigerator = 1/(Heat from Low Temperature Reservoir/Heat from High Temperature Reservoir-1). Heat from Low Temperature Reservoir is the heat of the material at a lower temperature & Heat from High Temperature Reservoir is the heat to the body at a higher temperature.

How to calculate Carnot Cycle of Refrigerator?

Carnot Cycle of Refrigerator is the heat per unit of work done is calculated using Carnot Cycle of Refrigerator = 1/(Heat from Low Temperature Reservoir/Heat from High Temperature Reservoir-1). To calculate Carnot Cycle of Refrigerator, you need Heat from Low Temperature Reservoir (Q_low) & Heat from High Temperature Reservoir (Q_high). With our tool, you need to enter the respective value for Heat from Low Temperature Reservoir & Heat from High Temperature Reservoir 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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