Steam enters a turbine with an enthalpy of 3300 KJ/kg and leaves with an enthalpy of 2400 kJ/kg. The power output of the steam turbine is 6 MW Determine the change in enthalpy per unit mass. 850 KJ/kg - 900 KJ/kg 900 KJ/kg - 850 KJ/kg None of the Above Determine the change in kinetic energy per unit mass. 18.2 kJ/Kg 21.4 kJ/kg 19.1 kJ/kg -19.1 kJ/kg Determine the change in potential energy, 0.06856 KJ/Kg - 082513 KJ/Kg - 0.06865 KJ/Kg 0.65872 KJ/Kg none of the Above Please show complete solution with derivation of formulas
Steam enters a turbine with an enthalpy of 3300 KJ/kg and leaves with an enthalpy of 2400 kJ/kg. The power output of the steam turbine is 6 MW Determine the change in enthalpy per unit mass. 850 KJ/kg - 900 KJ/kg 900 KJ/kg - 850 KJ/kg None of the Above Determine the change in kinetic energy per unit mass. 18.2 kJ/Kg 21.4 kJ/kg 19.1 kJ/kg -19.1 kJ/kg Determine the change in potential energy, 0.06856 KJ/Kg - 082513 KJ/Kg - 0.06865 KJ/Kg 0.65872 KJ/Kg none of the Above Please show complete solution with derivation of formulas
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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Steam enters a turbine with an enthalpy of 3300 KJ/kg and leaves with an enthalpy of 2400 kJ/kg. The power output of the steam turbine is 6 MW
Determine the change in enthalpy per unit mass.
850 KJ/kg
- 900 KJ/kg
900 KJ/kg
- 850 KJ/kg
None of the Above
Determine the change in kinetic energy per unit mass.
18.2 kJ/Kg
21.4 kJ/kg
19.1 kJ/kg
-19.1 kJ/kg
Determine the change in potential energy,
0.06856 KJ/Kg
- 082513 KJ/Kg
- 0.06865 KJ/Kg
0.65872 KJ/Kg
none of the Above
Please show complete solution with derivation of formulas
Transcribed Image Text:INLET
EXIT
inlet
D;= 60 m/s
D;= 200 m/s
2,=12 m
Z,=5 m
Steam
turbine
Exit
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