Isentropic Work done given Isentropic Power for Single-acting Compressor Calculator

✖Isentropic Power is the power required by an ideal isentropic process, which is a reversible adiabatic process that occurs without a change in entropy.ⓘ Isentropic Power [P_Isentropic]			+10% -10%
✖Speed in RPM is the rate of rotation of an object per minute, used to calculate the power required for a specific application or process.ⓘ Speed in RPM [N]			+10% -10%

✖Work Done during Isentropic Compression is the energy required to compress a gas isentropically, which is a reversible adiabatic process.ⓘ Isentropic Work done given Isentropic Power for Single-acting Compressor [W_Isentropic]

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Isentropic Work done given Isentropic Power for Single-acting Compressor Solution

STEP 0: Pre-Calculation Summary

Formula Used

Work Done during Isentropic Compression = (Isentropic Power*60)/Speed in RPM
W_Isentropic = (P_Isentropic*60)/N
This formula uses 3 Variables

Variables Used

Work Done during Isentropic Compression - (Measured in Joule) - Work Done during Isentropic Compression is the energy required to compress a gas isentropically, which is a reversible adiabatic process.
Isentropic Power - (Measured in Watt) - Isentropic Power is the power required by an ideal isentropic process, which is a reversible adiabatic process that occurs without a change in entropy.
Speed in RPM - Speed in RPM is the rate of rotation of an object per minute, used to calculate the power required for a specific application or process.

STEP 1: Convert Input(s) to Base Unit

Isentropic Power: 19.5 Watt --> 19.5 Watt No Conversion Required
Speed in RPM: 58.5 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

W_Isentropic = (P_Isentropic*60)/N --> (19.5*60)/58.5

Evaluating ... ...

W_Isentropic = 20

STEP 3: Convert Result to Output's Unit

20 Joule --> No Conversion Required

FINAL ANSWER

20 Joule <-- Work Done during Isentropic Compression

(Calculation completed in 00.004 seconds)

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< Power Required Calculators

Indicated Power for Double-acting Compressor

LaTeX Go Indicated Power in Compressor = (Work Done during Polytropic Compression*2*Speed in RPM)/60

Indicated Power for Single-acting Compressor

LaTeX Go Indicated Power in Compressor = (Work Done during Polytropic Compression*Speed in RPM)/60

Isothermal Power for Double-acting Compressor

LaTeX Go Isothermal Power = (Work Done during Isothermal Compression*2*Speed in RPM)/60

Isothermal Power for Single-acting Compressor

LaTeX Go Isothermal Power = (Work Done during Isothermal Compression*Speed in RPM)/60

Isentropic Work done given Isentropic Power for Single-acting Compressor Formula

LaTeX Go

Work Done during Isentropic Compression = (Isentropic Power*60)/Speed in RPM
W_Isentropic = (P_Isentropic*60)/N

What is Single-Acting Compressor?

With a single-acting compressor, the air is compressed only on the up-stroke of the piston inside the cylinder. The double-acting compressor compresses the air on both the up-stroke and the down-stroke of the piston, doubling the capacity of given cylinder size.

How to Calculate Isentropic Work done given Isentropic Power for Single-acting Compressor?

Isentropic Work done given Isentropic Power for Single-acting Compressor calculator uses Work Done during Isentropic Compression = (Isentropic Power*60)/Speed in RPM to calculate the Work Done during Isentropic Compression, Isentropic Work done given Isentropic Power for Single-acting Compressor formula is defined as the total work required by a single-acting compressor to compress a given quantity of air or gas, which is a critical parameter in evaluating the performance of a compressor system. Work Done during Isentropic Compression is denoted by W_Isentropic symbol.

How to calculate Isentropic Work done given Isentropic Power for Single-acting Compressor using this online calculator? To use this online calculator for Isentropic Work done given Isentropic Power for Single-acting Compressor, enter Isentropic Power (P_Isentropic) & Speed in RPM (N) and hit the calculate button. Here is how the Isentropic Work done given Isentropic Power for Single-acting Compressor calculation can be explained with given input values -> 16.41026 = (19.5*60)/58.5.

FAQ

What is Isentropic Work done given Isentropic Power for Single-acting Compressor?

Isentropic Work done given Isentropic Power for Single-acting Compressor formula is defined as the total work required by a single-acting compressor to compress a given quantity of air or gas, which is a critical parameter in evaluating the performance of a compressor system and is represented as W_Isentropic = (P_Isentropic*60)/N or Work Done during Isentropic Compression = (Isentropic Power*60)/Speed in RPM. Isentropic Power is the power required by an ideal isentropic process, which is a reversible adiabatic process that occurs without a change in entropy & Speed in RPM is the rate of rotation of an object per minute, used to calculate the power required for a specific application or process.

How to calculate Isentropic Work done given Isentropic Power for Single-acting Compressor?

Isentropic Work done given Isentropic Power for Single-acting Compressor formula is defined as the total work required by a single-acting compressor to compress a given quantity of air or gas, which is a critical parameter in evaluating the performance of a compressor system is calculated using Work Done during Isentropic Compression = (Isentropic Power*60)/Speed in RPM. To calculate Isentropic Work done given Isentropic Power for Single-acting Compressor, you need Isentropic Power (P_Isentropic) & Speed in RPM (N). With our tool, you need to enter the respective value for Isentropic Power & Speed in RPM 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 Work Done during Isentropic Compression?

In this formula, Work Done during Isentropic Compression uses Isentropic Power & Speed in RPM. We can use 1 other way(s) to calculate the same, which is/are as follows -

Work Done during Isentropic Compression = (Isentropic Power*60)/(2*Speed in RPM)

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