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Consider a water-ammonia binary vapor cycle consisting. In the steam cycle, superheated vapor enters the turbine at 7 MPa, 450oC, and saturated liquid exits the condenser at 55oC. The heat rejected from the steam cycle is provided to the ammonia cycle, producing saturated vapor at 45oC, which enters the ammonia turbine. Saturated liquid leaves the ammonia condenser at 1 MPa. For a net power output of 24 MW from the binary cycle, determine (c) the rate of heat input to the ammonia cycle, in MW, (d) the rate of heat addition to the binary cycle, in MW, and (e) the thermal efficiency of the binary vapor cycle.

Elements Of Electromagnetics

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

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Consider a water-ammonia binary vapor cycle consisting. In the steam cycle,
superheated vapor enters the turbine at 7 MPa, 450oC, and saturated liquid exits the
condenser at 55oC. The heat rejected from the steam cycle is provided to the ammonia
cycle, producing saturated vapor at 45oC, which enters the ammonia turbine.
Saturated liquid leaves the ammonia condenser at 1 MPa. For a net power output of
24 MW from the binary cycle, determine (c) the rate of heat input to the ammonia
cycle, in MW, (d) the rate of heat addition to the binary cycle, in MW, and (e) the
thermal efficiency of the binary vapor cycle.

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Steam at 6.155MPa and 435degC enters the turbine of a power plant which operates on actual vaport power cycle. The pressure at the exit of the turbine is 418 kPa, and steam leaves the condenser as a saturated liquid at 62degC. The pressure is increased to 12.2 MPa accross the pump. The turbine and pump have isentropic efficiencies of 82% and 74% respectively. For this cycle, determine th: a. Wnet per unit mass of steam flow and the heat transfer to steam passing through the boiler (kj/kg)b. thermal efficiency (%) c. heat transfer to colling water passing the condenser (kj/kg of steam condensed)
Rankine Cycle (Thermodynamics) Show the illustration diagram and complete and step by step solution.
T B A D Consider the cycle in the diagram (very similar to the Rankine Cycle) using water as the working fluid. Process A-B: A saturated mixture of water is pumped from low pressure to a high pressure saturated liquid in an iso- entropic (and adiabatic) process. Process B-C: The high pressure saturated liquid enters a boiler where it is heated at constant pressure process by an external heat source to a super-heated vapor. Process C-D: The super-heated vapor goes through a turbine, generating power exiting as a saturated vapor. Assume an iso-entropic (and adiabatic) process and neglect kinetic energy and potential energy changes. Process D-A: The saturated vapor then enters a condenser where it is condensed at a constant pressure process back to its original state. The boiler operates at 8 MPa (points B & C) and the condenser operates at 200 kPa (points A & D). Assume a mass flow rate of 1 kg/s. Make a table of the temperature, pressure, volume, internal energy, enthalpy, entropy and…

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