An ideal Rankine cycle as shown has a boiler pressure of 3 MPa and a condenser pressure of 8 kPa. The working fluid's quality at the turbine exit is known to be 87%. Calculate the thermal efficiency...


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An ideal Rankine cycle as shown has a boiler pressure of 3 MPa and a condenser pressure of<br>8 kPa. The working fluid's quality at the turbine exit is known to be 87%. Calculate the<br>thermal efficiency of the cycle.<br>Numbers are adjusted for you, so that you can reasonably use 'approximate' table values for<br>unknown properties. No need for a complicated interpolation. Mark the closest answer.<br>Boiler<br>Turbine<br>3<br>QB<br>4<br>Condenser<br>О а. 32%<br>b. 34%<br>с. 36%<br>d. 39%<br>e. 41%<br>f. 43%<br>

Extracted text: An ideal Rankine cycle as shown has a boiler pressure of 3 MPa and a condenser pressure of 8 kPa. The working fluid's quality at the turbine exit is known to be 87%. Calculate the thermal efficiency of the cycle. Numbers are adjusted for you, so that you can reasonably use 'approximate' table values for unknown properties. No need for a complicated interpolation. Mark the closest answer. Boiler Turbine 3 QB 4 Condenser О а. 32% b. 34% с. 36% d. 39% e. 41% f. 43%

Jun 10, 2022
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