Calculating the final answer: 12. What is the enthalpy entering the turbine? [kJ/kg] What is the enthalpy exiting the turbine? [kJ/kg] What is the flowrate through the turbine? [kg/s] 13. 14.

Calculating the final answer:<br>12. What is the enthalpy entering the turbine? [kJ/kg]<br>What is the enthalpy exiting the turbine? [kJ/kg]<br>What is the flowrate through the turbine? [kg/s]<br>13.<br>14.<br>

Extracted text: Calculating the final answer: 12. What is the enthalpy entering the turbine? [kJ/kg] What is the enthalpy exiting the turbine? [kJ/kg] What is the flowrate through the turbine? [kg/s] 13. 14.

An adiabatic turbine expands steam from 500°C, 3.5 MPa to 200°C and 0.3 MPa. If the<br>turbine generates 750 kW what is the flowrate through the turbine? In answering the<br>question, first answer the following questions:<br>For a system boundary of a fixed volume, from the energy balance equation given below,<br>what does each term simplify to (zero or stays in the equation):<br>du<br>2(MH), + Q + W<br>dt<br>i=1<br>8.<br>du/dt<br>9.<br>A H<br>10.<br>Q<br>11.<br>

Extracted text: An adiabatic turbine expands steam from 500°C, 3.5 MPa to 200°C and 0.3 MPa. If the turbine generates 750 kW what is the flowrate through the turbine? In answering the question, first answer the following questions: For a system boundary of a fixed volume, from the energy balance equation given below, what does each term simplify to (zero or stays in the equation): du 2(MH), + Q + W dt i=1 8. du/dt 9. A H 10. Q 11.

Jun 11, 2022

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Calculating the final answer: 12. What is the enthalpy entering the turbine? [kJ/kg] What is the enthalpy exiting the turbine? [kJ/kg] What is the flowrate through the turbine? [kg/s] 13. 14.

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