Performance of Heat Pump Calculator

✖Heat is the form of energy that is transferred between systems or objects with different temperatures (flowing from the high-temperature system to the low-temperature system).ⓘ Heat [Q]			+10% -10%
✖Work of Heat Pump is work done by the heat pump in an interval of temperature change.ⓘ Work of Heat Pump [W_p]			+10% -10%

✖Heat pump is a mechanical system that allows for the transmission of heat from one location at a lower temperature to another location (the "sink" or "heat sink") at a higher temperature.ⓘ Performance of Heat Pump [P_pump]

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Formula

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Performance of Heat Pump

Formula

`"P"_{"pump"} = "Q"/"W"_{"p"}`

Example

`"0.114"="570J"/"5000J"`

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Performance of Heat Pump Solution

STEP 0: Pre-Calculation Summary

Formula Used

Heat Pump = Heat/Work of Heat Pump
P_pump = Q/W_p
This formula uses 3 Variables

Variables Used

Heat Pump - Heat pump is a mechanical system that allows for the transmission of heat from one location at a lower temperature to another location (the "sink" or "heat sink") at a higher temperature.
Heat - (Measured in Joule) - Heat is the form of energy that is transferred between systems or objects with different temperatures (flowing from the high-temperature system to the low-temperature system).
Work of Heat Pump - (Measured in Joule) - Work of Heat Pump is work done by the heat pump in an interval of temperature change.

STEP 1: Convert Input(s) to Base Unit

Heat: 570 Joule --> 570 Joule No Conversion Required
Work of Heat Pump: 5000 Joule --> 5000 Joule No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

P_pump = Q/W_p --> 570/5000

Evaluating ... ...

P_pump = 0.114

STEP 3: Convert Result to Output's Unit

0.114 --> No Conversion Required

FINAL ANSWER

0.114 <-- Heat Pump

(Calculation completed in 00.004 seconds)

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Created by Anirudh Singh

National Institute of Technology (NIT), Jamshedpur

Anirudh Singh has created this Calculator and 300+ more calculators!

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< 13 Production of Power from Heat Calculators

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)

Coefficient of Performance of Heat Pump using Heat in Cold and Hot Reservoir

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

Thermal Expansion

Go Coefficient of Linear Thermal Expansion = Change in Length/(Initial Length*Temperature Change)

Thermal Efficiency of Carnot Engine

Go Thermal Efficiency of Carnot Engine = 1-Absolute Temperature of Cold Reservoir/Absolute Temperature of Hot Reservoir

Work of Heat Pump

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

Coefficient of Performance of Heat Pump using Work and Heat in Cold Reservoir

Go COP of Heat Pump in Cold Reservoir = Heat in the hot reservoir/Mechanical Energy

Carnot Cycle Efficiency of Heat Engine using Temperature of Source and Sink

Go Carnot Cycle Efficiency = 1-Initial Temperature/Final Temperature

Thermal Efficiency of Heat Engine

Go Thermal Efficiency of Heat Engine = Work/Heat Energy

Otto Cycle Efficiency

Go OTE = 1-Initial Temperature/Final Temperature

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

Ranking Cycle Efficiency

Go Ranking Cycle = 1-Heat Ratio

< 8 Heat Engine and Heat Pump Calculators

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

Performance of Heat Pump Formula

Heat Pump = Heat/Work of Heat Pump
P_pump = Q/W_p

What is Heat Pump?

Heat Pump may be thought of as a "heater" if the objective is to warm the heat sink (as when warming the inside of a home on a cold day), or a "refrigerator" or “cooler” if the objective is to cool the heat source (as in the normal operation of a freezer).

How to Calculate Performance of Heat Pump?

Performance of Heat Pump calculator uses Heat Pump = Heat/Work of Heat Pump to calculate the Heat Pump, Performance of heat pump is the ratio of heat to work done by the pump; which in heating mode operates just like cooling mode, except that the flow of refrigerant is reversed by the aptly named reversing valve. Heat Pump is denoted by P_pump symbol.

How to calculate Performance of Heat Pump using this online calculator? To use this online calculator for Performance of Heat Pump, enter Heat (Q) & Work of Heat Pump (W_p) and hit the calculate button. Here is how the Performance of Heat Pump calculation can be explained with given input values -> 0.114 = 570/5000.

FAQ

What is Performance of Heat Pump?

Performance of heat pump is the ratio of heat to work done by the pump; which in heating mode operates just like cooling mode, except that the flow of refrigerant is reversed by the aptly named reversing valve and is represented as P_pump = Q/W_p or Heat Pump = Heat/Work of Heat Pump. Heat is the form of energy that is transferred between systems or objects with different temperatures (flowing from the high-temperature system to the low-temperature system) & Work of Heat Pump is work done by the heat pump in an interval of temperature change.

How to calculate Performance of Heat Pump?

Performance of heat pump is the ratio of heat to work done by the pump; which in heating mode operates just like cooling mode, except that the flow of refrigerant is reversed by the aptly named reversing valve is calculated using Heat Pump = Heat/Work of Heat Pump. To calculate Performance of Heat Pump, you need Heat (Q) & Work of Heat Pump (W_p). With our tool, you need to enter the respective value for Heat & Work of Heat Pump 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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