a. Explain the primary purpose of regeneration in a Rankine power plant
a. Explain the primary purpose of regeneration in a Rankine power plant. Sketch a T-s diagram using either open or closed feedwater heater to explain your response.
b. Explain the advantages and disadvantages of open and closed feedwater heaters.
c. Assume steady-flow, no heat transfer, no work, one entrance, and one exit and neglect elevation changes. Show that the stagnation enthalpy is constant throughout a nozzle.
d. Recall that the pressure ratio that maximizes the net work for the simple Brayton cycle and makes T4 = T2. What happens if the regenerative Brayton cycle operates at a pressure ratio larger than this ratio? The pressure ratio that maximizes the net work is given by:
e. Explain why the assumption that the water vapor is an ideal gas is valid when the mixture temperature is below 50°C.
Homework Answers
- Regeneration improves the cycle efficiency by increasing the initial feed water temperature before the water enters the boiler and also helps in controlling the large flow rate of steam at the turbine exit.The energy required in the boiler would then decrease leading to increase in efficiency.
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a. Explain the primary purpose of regeneration in a Rankine power plant
please answer all parts and show work please Problem 130 pts): a. Explain the primary purpose...
please answer all parts and show work please
Problem 130 pts): a. Explain the primary purpose of regeneration in a Rankine power plant. Sketch a T-s diagram using either open or closed feedwater heater to explain your response. b. Explain the advantages and disadvantages of open and closed feedwater heaters. c. Assume steady-flow, no heat transfer, no work, one entrance, and one exit and neglect elevation changes. Show that the stagnation enthalpy is constant throughout a nozzle. d. Recall that...
APPLIED THERMODYNAMICS a. Differentiate between the higher and lower heating values of fuels. Explain with the...
APPLIED THERMODYNAMICS
a. Differentiate between the higher and lower heating values of fuels. Explain with the aid of an equation. b. Assume steady-flow, no heat transfer, no work, one entrance, and one exit and neglect elevation changes. Show that the stagnation enthalpy is constant throughout a nozzle. c. Recall that the pressure ratio that maximizes the net work for the simple Brayton cycle and makes T4 = T2. What happens if the regenerative Brayton cycle operates at a pressure ratio...
Thermodynamics a. Differentiate between the higher and lower heating values of fuels. Explain with the aid...
Thermodynamics
a. Differentiate between the higher and lower heating values of fuels. Explain with the aid of an equation. b. Assume steady-flow, no heat transfer, no work, one entrance, and one exit and neglect elevation changes. Show that the stagnation enthalpy is constant throughout a nozzle. c. Recall that the pressure ratio that maximizes the network for the simple Brayton cycle and makes T = T2. What happens if the regenerative Brayton cycle operates at a pressure ratio larger than...
Problem 1 (30 pts): a. Differentiate between the higher and lower heating values of fuels. Explain...
Problem 1 (30 pts): a. Differentiate between the higher and lower heating values of fuels. Explain with the aid of an equation. b. Assume steady-flow, no heat transfer, no work, one entrance, and one exit and neglect elevation changes. Show that the stagnation enthalpy is constant throughout a nozzle. c. Recall that the pressure ratio that maximizes the net work for the simple Brayton cycle and makes Ta = T2. What happens if the regenerative Brayton cycle operates at a...
1. A Steam Power Plant that operates on an ideal regenerative Rankine Cycle with an open...
1. A Steam Power Plant that operates on an ideal regenerative Rankine Cycle with an open feedwater heater is considered. The turbine inlet conditions are 6 MPa, 450 C. The regeneration pressure is 0.4 MPa. The condenser pressure is 20 kPa. a) Draw the T-s diagram, and the sketch of the steam power plant. b) Calculate the low pressure pump work. c) Calculate the high pressure pump work. d) Calculate the fraction of the steam extracted from the turbine for...
Consider a modern extra-supercritical pressure steam power plant that operates Rankine cycle with one open feedwater...
Consider a modern extra-supercritical pressure steam power plant that operates Rankine cycle with one open feedwater heater, one closed feedwater heater, and one reheater, as shown below. Steam enters the high-pressure turbine at 32 MPa and 700 °C and is condensed in the condenser at a pressure of 10 kPa. Steam exits the high-pressure turbine at 4 MPa and is routed into a reheater (inside the boiler) to be reheated to 640 °C. Steam at P-8 MPa is extracted from...
2) A steam power plant operates on an ideal regenerative rankine cycle with superheated steam leaving...
2) A steam power plant operates on an ideal regenerative rankine cycle with superheated steam leaving the boiler, entering the turbine at 10 mPa,600C. X fraction of steam is extracted from the turbine at 0.6 mPa pressure for the high pressure open feedwater heater. Then x fraction more of steam is extracted from the turbine at 0.2 mPa pressure for the low pressure open feedwater heater . The condenser pressure in the cycle is 5 kPa. The mass flow rate...
Consider a steam power plant that operates on the ideal regenerative Rankine cycle with a closed...
Consider a steam power plant that operates on the ideal
regenerative Rankine cycle with a closed feedwater heater as shown
in the figure. The plant maintains the turbine inlet at 3000 kPa
and 3508C; and operates the condenser at 20 kPa. Steam is extracted
at 1000 kPa to serve the closed feedwater heater, which discharges
into the condenser after being throttled to condenser pressure.
Calculate the work produced by the turbine, the work consumed by
the pump, and the heat...
10-55 Consider a steam power plant that operates on the ideal regenerative Rankine cycle with a...
10-55 Consider a steam power plant that operates on the ideal regenerative Rankine cycle with a closed feedwater heater as shown in the figure. The plant maintains the turbine inlet at 3000 kPa and 350°C and operates the condenser at 20 kPa. Steam is extracted at 1000 kPa to serve the closed feedwater heater, which discharges into the condenser after being throt- tled to condenser pressure. Calculate the work produced by the turbine, the work consumed by the pump, and...
A steam power plant design consists of an ideal Rankine cycle with regeneration. Steam enters Turbine...
A steam power plant design consists of an ideal Rankine cycle with regeneration. Steam enters Turbine 1 at P1 and T1 at the rate of m1 and exits at P2. A fraction (y') of the steam exiting Turbine 1 is diverted to a closed feedwater heater while the remainder enters Turbine 2. A portion (y'') of the steam exiting Turbine 2 at P3 is diverted to an open feedwater heater while the remainder enters Turbine 3. The exit of Turbine...
please answer all parts and show work please
Problem 130 pts): a. Explain the primary purpose of regeneration in a Rankine power plant. Sketch a T-s diagram using either open or closed feedwater heater to explain your response. b. Explain the advantages and disadvantages of open and closed feedwater heaters. c. Assume steady-flow, no heat transfer, no work, one entrance, and one exit and neglect elevation changes. Show that the stagnation enthalpy is constant throughout a nozzle. d. Recall that...
APPLIED THERMODYNAMICS
a. Differentiate between the higher and lower heating values of fuels. Explain with the aid of an equation. b. Assume steady-flow, no heat transfer, no work, one entrance, and one exit and neglect elevation changes. Show that the stagnation enthalpy is constant throughout a nozzle. c. Recall that the pressure ratio that maximizes the net work for the simple Brayton cycle and makes T4 = T2. What happens if the regenerative Brayton cycle operates at a pressure ratio...
Thermodynamics
a. Differentiate between the higher and lower heating values of fuels. Explain with the aid of an equation. b. Assume steady-flow, no heat transfer, no work, one entrance, and one exit and neglect elevation changes. Show that the stagnation enthalpy is constant throughout a nozzle. c. Recall that the pressure ratio that maximizes the network for the simple Brayton cycle and makes T = T2. What happens if the regenerative Brayton cycle operates at a pressure ratio larger than...
Problem 1 (30 pts): a. Differentiate between the higher and lower heating values of fuels. Explain with the aid of an equation. b. Assume steady-flow, no heat transfer, no work, one entrance, and one exit and neglect elevation changes. Show that the stagnation enthalpy is constant throughout a nozzle. c. Recall that the pressure ratio that maximizes the net work for the simple Brayton cycle and makes Ta = T2. What happens if the regenerative Brayton cycle operates at a...
1. A Steam Power Plant that operates on an ideal regenerative Rankine Cycle with an open feedwater heater is considered. The turbine inlet conditions are 6 MPa, 450 C. The regeneration pressure is 0.4 MPa. The condenser pressure is 20 kPa. a) Draw the T-s diagram, and the sketch of the steam power plant. b) Calculate the low pressure pump work. c) Calculate the high pressure pump work. d) Calculate the fraction of the steam extracted from the turbine for...
Consider a modern extra-supercritical pressure steam power plant that operates Rankine cycle with one open feedwater heater, one closed feedwater heater, and one reheater, as shown below. Steam enters the high-pressure turbine at 32 MPa and 700 °C and is condensed in the condenser at a pressure of 10 kPa. Steam exits the high-pressure turbine at 4 MPa and is routed into a reheater (inside the boiler) to be reheated to 640 °C. Steam at P-8 MPa is extracted from...
2) A steam power plant operates on an ideal regenerative rankine cycle with superheated steam leaving the boiler, entering the turbine at 10 mPa,600C. X fraction of steam is extracted from the turbine at 0.6 mPa pressure for the high pressure open feedwater heater. Then x fraction more of steam is extracted from the turbine at 0.2 mPa pressure for the low pressure open feedwater heater . The condenser pressure in the cycle is 5 kPa. The mass flow rate...
Consider a steam power plant that operates on the ideal
regenerative Rankine cycle with a closed feedwater heater as shown
in the figure. The plant maintains the turbine inlet at 3000 kPa
and 3508C; and operates the condenser at 20 kPa. Steam is extracted
at 1000 kPa to serve the closed feedwater heater, which discharges
into the condenser after being throttled to condenser pressure.
Calculate the work produced by the turbine, the work consumed by
the pump, and the heat...
10-55 Consider a steam power plant that operates on the ideal regenerative Rankine cycle with a closed feedwater heater as shown in the figure. The plant maintains the turbine inlet at 3000 kPa and 350°C and operates the condenser at 20 kPa. Steam is extracted at 1000 kPa to serve the closed feedwater heater, which discharges into the condenser after being throt- tled to condenser pressure. Calculate the work produced by the turbine, the work consumed by the pump, and...
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