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Thermal Efficiency of Ericsson Cycle Formula

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The Thermal Efficiency of Ericsson Cycle represents the effectiveness of Ericsson engine. It is measured by comparing how much work is done through out the system to the heat supplied to the system. Check FAQs

η e = \frac{T H - T L}{T H}

η_e - Thermal Efficiency of Ericsson Cycle?T_H - Higher Temperature?T_L - Lower Temperature?

Thermal Efficiency of Ericsson Cycle Example

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Here is how the Thermal Efficiency of Ericsson Cycle equation looks like with Values.

Here is how the Thermal Efficiency of Ericsson Cycle equation looks like with Units.

Here is how the Thermal Efficiency of Ericsson Cycle equation looks like.

0.52 = \frac{250 - 120}{250}

0.52 = \frac{250K - 120K}{250K}

0.52 = \frac{250 - 120}{250}

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Thermal Efficiency of Ericsson Cycle Solution

Follow our step by step solution on how to calculate Thermal Efficiency of Ericsson Cycle?

FIRST Step Consider the formula

η e = \frac{T H - T L}{T H}

Next Step Substitute values of Variables

∴

η e = \frac{250K - 120K}{250K}

Next Step Prepare to Evaluate

∴

η e = \frac{250 - 120}{250}

LAST Step Evaluate

∴

η e = 0.52

Thermal Efficiency of Ericsson Cycle Formula Elements

Variables

Thermal Efficiency of Ericsson Cycle

The Thermal Efficiency of Ericsson Cycle represents the effectiveness of Ericsson engine. It is measured by comparing how much work is done through out the system to the heat supplied to the system.

Symbol: η_e

Measurement: NAUnit: Unitless

Note: Value should be less than 1.

Formulas to find Thermal Efficiency of Ericsson Cycle

Higher Temperature

Higher Temperature is the temperature of hot reservoir. It's the entity from which the engine absorbs thermal energy to perform work. It is measured in absolute temperature (Kelvin-scale).

Symbol: T_H

Measurement: TemperatureUnit: K

Note: Value should be greater than 0.

Formulas to find Higher Temperature

Lower Temperature

Lower Temperature is the temperature of heat sink. It is where the engine rejects waste heat that cannot be converted into work. It is measured in absolute temperature (Kelvin-scale).

Symbol: T_L

Measurement: TemperatureUnit: K

Note: Value should be greater than 0.

Formulas to find Lower Temperature

Other formulas in Air Standard Cycles category

Go Mean Effective Pressure in Otto Cycle

P O = P 1 \cdot r \cdot (\frac{(r^{γ - 1} - 1) \cdot (r p - 1)}{(r - 1) \cdot (γ - 1)})

Go Mean Effective Pressure in Diesel Cycle

P D = P 1 \cdot \frac{γ \cdot r^{γ} \cdot (r c - 1) - r \cdot ({r c}^{γ} - 1)}{(γ - 1) \cdot (r - 1)}

Go Mean Effective Pressure in Dual Cycle

P d = P 1 \cdot \frac{r^{γ} \cdot ((R p - 1) + γ \cdot R p \cdot (r c - 1)) - r \cdot (R p \cdot {r c}^{γ} - 1)}{(γ - 1) \cdot (r - 1)}

Go Work Output for Otto Cycle

W o = P 1 \cdot V 1 \cdot \frac{(r p - 1) \cdot (r^{γ - 1} - 1)}{γ - 1}

How to Evaluate Thermal Efficiency of Ericsson Cycle?

Thermal Efficiency of Ericsson Cycle evaluator uses Thermal Efficiency of Ericsson Cycle = (Higher Temperature-Lower Temperature)/(Higher Temperature) to evaluate the Thermal Efficiency of Ericsson Cycle, Thermal Efficiency of Ericsson Cycle is identical to the Carnot Cycle efficiency. In other words, it achieves the maximum theoretical effectiveness for a heat engine following Ericsson cycle operating between two given temperature reservoirs. It is important to note that the Ericsson and Carnot cycles consist of only reversible processes (isothermal and isobaric) which means they can be run in reverse without violating the laws of thermodynamics. Thermal Efficiency of Ericsson Cycle is denoted by η_e symbol.

How to evaluate Thermal Efficiency of Ericsson Cycle using this online evaluator? To use this online evaluator for Thermal Efficiency of Ericsson Cycle, enter Higher Temperature (T_H) & Lower Temperature (T_L) and hit the calculate button.

FAQs on Thermal Efficiency of Ericsson Cycle

What is the formula to find Thermal Efficiency of Ericsson Cycle?

The formula of Thermal Efficiency of Ericsson Cycle is expressed as Thermal Efficiency of Ericsson Cycle = (Higher Temperature-Lower Temperature)/(Higher Temperature). Here is an example- 0.52 = (250-120)/(250).

How to calculate Thermal Efficiency of Ericsson Cycle?

With Higher Temperature (T_H) & Lower Temperature (T_L) we can find Thermal Efficiency of Ericsson Cycle using the formula - Thermal Efficiency of Ericsson Cycle = (Higher Temperature-Lower Temperature)/(Higher Temperature).

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