A steam power plant of 15 MW operates on the simple ideal Rankine cycle such that...

Consider a 210-MW steam power plant that operates on a simple ideal Rankine cycle. Steam enters...

Consider a 210-MW steam power plant that operates on a simple ideal Rankine cycle. Steam enters the turbine at 10 MPa and 500°C and is cooled in the condenser at a pressure of 7.5 kPa. a.)Determine the quality of the steam at the turbine exit. Use steam tables. b.)Determine the thermal efficiency of the cycle. c.)Determine the mass flow rate of the steam

Consider a 210-MW steam power plant that operates on a simple ideal Rankine cycle. Steam enters...

Consider a 210-MW steam power plant that operates on a simple ideal Rankine cycle. Steam enters the turbine at 10 MPa and 500°C and is cooled in the condenser at a pressure of 7.5 kPa. Determine the quality of the steam at the turbine exit. Use steam tables. (You must provide an answer before moving on to the next part.) a.)The quality of the steam at the turbine exit is? b.)Determine the thermal efficiency of the cycle.The thermal efficiency of...

In a power plant based on a simple Rankine cycle, steam enters the turbine at 15...

In a power plant based on a simple Rankine cycle, steam enters the turbine at 15 MPa and 900°C. The condenser pressure is 5 kPa. The turbine operates adiabatically and has an isentropic efficiency of 85%, and the pump also operates adiabatically and has an isentropic efficiency of 80%. Determine the work required to pump the water to the boiler in kJ/kg of water flowing, and the enthalpy of the water leaving the pump.

A steam power plant operates on the simple ideal rankine cycle between the pressure limits of...

A steam power plant operates on the simple ideal rankine cycle between the pressure limits of 50 kPa and 20 MPa, with a turbine inlet temperature of 600 Degree C. Disregarding the pump work, then: (a) Show the T-S diagram of the entire cycle. (b) Solve the total heat (kJ/kg) input for the cycle. (c) Solve the total heat (kJ/kg) reject by the cycle. (d) Solve the thermal efficiency of this plant.

A simple ideal Rankine cycle with water as the working fluid operates between the pressure limits...

A simple ideal Rankine cycle with water as the working fluid operates between the pressure limits of 17.5 MPa in the boiler and 30 kPa in the condenser. What is the minimum temperature required at the turbine inlet such that the quality of the steam leaving the turbine is not below 80%? When operated at this temperature, what is the thermal efficiency of this cycle?

A power plant using an ideal Rankine power generation cycle operates at an efficiency of 55%...

A power plant using an ideal Rankine power generation cycle operates at an efficiency of 55% with a flowrate of steam of 2 kg/s.  Heat is supplied to the boiler of 2500 kJ/kg. The pump takes in saturated liquid water at 100 kPa and has an exit pressure of 10 MPa.  Determine: the exit temperature of the pump (oC)  (3 pts) the work of the turbine (kW) (3 pts) the heat exhausted from the condenser (kJ/s) (3 pts)

A steam power plant runs on a reheat Rankine cycle. Steam enters both the high and...

A steam power plant runs on a reheat Rankine cycle. Steam enters both the high and low pressure turbines at 500oC. The maximum and minimum pressures of the cycle are 10 MPa and 10 kPa, respectively. Steam leaves the condenser as a saturated liquid. The moisture content of the steam at the exit of the low-pressure turbine is 4% if the actual expansion process is adiabatic; 8.5% if the ideal expansion process is isentropic. The isentropic efficiencies of the high-pressure...

A steam power plant operates on a superheated Rankine cycle where steam at 10kg/s entering the...

A steam power plant operates on a superheated Rankine cycle where steam at 10kg/s entering the turbine at 5MPa and 375˚C and leaving the turbine at saturated vapor at pressure 100 times less than initial. If the compressor efficiency is 85% 2.1. Sketch the cycle of T-s diagram. 2.2. Calculate the temperature and pressure for all points in the cycle. 2.3. Calculate the compressor work. 2.4. Calculate the turbine work and turbine efficiency. 2.5. Calculate the thermal efficiency of the...

Consider a steam power plant which operates on the Rankine cycle. The pressures in the boiler...

Consider a steam power plant which operates on the Rankine cycle. The pressures in the boiler and the condenser are 5000 kPa and 40 kPa, respectively. The temperatures at the inlet of the turbine and at the inlet of the pump are 500oC and 70oC, respectively. The isentropic efficiency of the turbine is 94 percent, pressure and pump losses are negligible. If the mass flow rate of steam is 10 kg/s. Determine (a) the heat transfer rate in the boiler,...

Steam enters the turbine of an ideal Rankine cycle power plant with a pressure of 12.5...

Steam enters the turbine of an ideal Rankine cycle power plant with a pressure of 12.5 MPa and a temperature of 600°C and expands adiabatically to condenser pressure equal to 30 kPa . Please answer the following: a. Represent the cycle on a T-s diagram, indicate the values of the isobars and temperature and entropy on the axes. b. Compute the thermal efficiency for this cycle.