Draw a boiler with vertical steam pipes and name every component. Explain the calculation of the...
Draw a boiler with vertical steam pipes and name every component. Explain the calculation of the length of the steam pipes for required heat from the boiler. Write the methodology step by step including source of this heat.
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Draw a boiler with vertical steam pipes and name every
component. Explain the calculation of the...
Question 2: A steam power cycle operates such that the steam exits boiler at 4 MPa,...
Question 2: A steam power cycle operates such that the steam exits boiler at 4 MPa, 400C and the condenser pressure is 10 kPa. The efficiency of the turbine and pump is 85% and 90% respectively. a. Draw the process on a Ts diagram and calculate the thermal efficiency. b. If the plant produces 100MW of net power, - what is the steam flowrates in kg/hr? - If the plant uses natural gas as a fuel, determine the flowrate of...
Saturated steam at 190 °C is to be transported from a boiler to a heat exchanger....
Saturated steam at 190 °C is to be transported from a boiler to a heat exchanger. Due to improper design of existing building, the steam has to flow through a room, where the air temperature inside this room is maintained at 25 °C. The size of this room is very large compared to the size of pipe. The temperature of inner surface of this room is maintained at 30 °C. Below are two options for the shape of pipe: Dimension...
Problem 3. Rankine Cycle (90 points) A steam power plant operates with high pressure of 4 MPa and has a boiler exit at 600°C receiving heat from a 700° C reservoir. The ambient air at 20°C provid...
Problem 3. Rankine Cycle (90 points) A steam power plant operates with high pressure of 4 MPa and has a boiler exit at 600°C receiving heat from a 700° C reservoir. The ambient air at 20°C provides cooling to maintain the water/vapor mixture in the condenser at 60°C. All components are ideal (i.e., reversible) except the turbine which has an efficiency 92% ofa reversible isentropic process. Other than the irreversibility of the turbine, the power plant can be considered as...
A natural gas-fired furnace in a Textile Plant is used to provide steam at 140 0C....
A natural gas-fired furnace in a Textile Plant is used to provide steam at 140 0C. At times of high demand, the furnace supplied heat to the steam at rate of 30 MJ/s. The plant also uses up to 6 MW of electrical power purchased from the local power company. The plant management is considering converting the existing process plant into a Cogeneration Plant to meet both their process-heat and power requirements. Your job is to come up with some...
a) Explain the methods that can be adopted to increase the thermal efficiency of a vapor...
a) Explain the methods that can be adopted to increase the thermal efficiency of a vapor power cycle. You may use a T-s diagram to explain your reasons. b) A steam regenerative cycle, shown below, is delivering 100 MW of power. Steam from the boiler is supplied to the turbine at 8 MPa, 400°C. After expanding isentropically in the 1st stage turbine to a pressure of 1 MPa, steam is taken to the reheater where its temperature is raised back...
--> XCIO DO ay Explain the methods that can be adopted to increase the thermal emciency...
--> XCIO DO ay Explain the methods that can be adopted to increase the thermal emciency or a vapor power cycle. You may use a 1-soigram to explain your reasons. b) A steam regenerative cycle shown below, is delivering 100 MW of power. Steam from the boiler is supplied to the turbine at 8 MPa, 400°C.After expanding isentropically in the 1 stage turbine to a pressure of 1 MPa, steam is taken to the reheater where its temperature is raised...
I need help with this ان المتفانوس a) Explain the methods that can be adopted to...
I need help with this
ان المتفانوس a) Explain the methods that can be adopted to increase the thermal efficiency of a vapor power cycle. You may use a T-s diagram to explain your reasons. b) A steam regenerative cycle, shown below, is delivering 100 MW of power. Steam from the boiler is supplied to the turbine at 8 MPa, 400° C. After expanding isentropically in the 1st stage turbine to a pressure of 1 MPa, steam is taken to...
ان المتفانوس a) Explain the methods that can be adopted to increase the thermal efficiency of...
ان المتفانوس a) Explain the methods that can be adopted to increase the thermal efficiency of a vapor power cycle. You may use a T-s diagram to explain your reasons. b) A steam regenerative cycle, shown below, is delivering 100 MW of power. Steam from the boiler is supplied to the turbine at 8 MPa, 400° C. After expanding isentropically in the 1st stage turbine to a pressure of 1 MPa, steam is taken to the reheater where its temperature...
a) explain the methods that can be adopted to increase thermal efficiency of a vapor cycle...
a)
explain the methods that can be adopted to increase thermal
efficiency of a vapor cycle you may use T-s diagram to explain you
reason
a steam regenerative cycle, show below, is delivering 100 MW
of power. Steam from the boiler is supplied to the turbine at 8
mpa, 400 c. After expanding isentropically in the 1st stage turbine
to a pressure of 1 MPa, steam is taken to the reheater where its
temp is raised back to 400 c...
please help thermodynamics a) Explain the methods that can be adopted to increase the thermal efficiency...
please help thermodynamics
a) Explain the methods that can be adopted to increase the thermal efficiency of a vapor power cycle. You may use a T-s diagram to explain your reasons. b) A steam regenerative cycle, shown below, is delivering 100 MW of power. Steam from the boller is supplied to the turbine at 8 MPa. 400°C. After expanding isentropically in the 1st stage turbine to a pressure of 1 MPa, steam is taken to the reheater where Its temperature...
Question 2: A steam power cycle operates such that the steam exits boiler at 4 MPa, 400C and the condenser pressure is 10 kPa. The efficiency of the turbine and pump is 85% and 90% respectively. a. Draw the process on a Ts diagram and calculate the thermal efficiency. b. If the plant produces 100MW of net power, - what is the steam flowrates in kg/hr? - If the plant uses natural gas as a fuel, determine the flowrate of...
Saturated steam at 190 °C is to be transported from a boiler to a heat exchanger. Due to improper design of existing building, the steam has to flow through a room, where the air temperature inside this room is maintained at 25 °C. The size of this room is very large compared to the size of pipe. The temperature of inner surface of this room is maintained at 30 °C. Below are two options for the shape of pipe: Dimension...
Problem 3. Rankine Cycle (90 points) A steam power plant operates with high pressure of 4 MPa and has a boiler exit at 600°C receiving heat from a 700° C reservoir. The ambient air at 20°C provides cooling to maintain the water/vapor mixture in the condenser at 60°C. All components are ideal (i.e., reversible) except the turbine which has an efficiency 92% ofa reversible isentropic process. Other than the irreversibility of the turbine, the power plant can be considered as...
A natural gas-fired furnace in a Textile Plant is used to provide steam at 140 0C. At times of high demand, the furnace supplied heat to the steam at rate of 30 MJ/s. The plant also uses up to 6 MW of electrical power purchased from the local power company. The plant management is considering converting the existing process plant into a Cogeneration Plant to meet both their process-heat and power requirements. Your job is to come up with some...
a) Explain the methods that can be adopted to increase the thermal efficiency of a vapor power cycle. You may use a T-s diagram to explain your reasons. b) A steam regenerative cycle, shown below, is delivering 100 MW of power. Steam from the boiler is supplied to the turbine at 8 MPa, 400°C. After expanding isentropically in the 1st stage turbine to a pressure of 1 MPa, steam is taken to the reheater where its temperature is raised back...
--> XCIO DO ay Explain the methods that can be adopted to increase the thermal emciency or a vapor power cycle. You may use a 1-soigram to explain your reasons. b) A steam regenerative cycle shown below, is delivering 100 MW of power. Steam from the boiler is supplied to the turbine at 8 MPa, 400°C.After expanding isentropically in the 1 stage turbine to a pressure of 1 MPa, steam is taken to the reheater where its temperature is raised...
I need help with this
ان المتفانوس a) Explain the methods that can be adopted to increase the thermal efficiency of a vapor power cycle. You may use a T-s diagram to explain your reasons. b) A steam regenerative cycle, shown below, is delivering 100 MW of power. Steam from the boiler is supplied to the turbine at 8 MPa, 400° C. After expanding isentropically in the 1st stage turbine to a pressure of 1 MPa, steam is taken to...
ان المتفانوس a) Explain the methods that can be adopted to increase the thermal efficiency of a vapor power cycle. You may use a T-s diagram to explain your reasons. b) A steam regenerative cycle, shown below, is delivering 100 MW of power. Steam from the boiler is supplied to the turbine at 8 MPa, 400° C. After expanding isentropically in the 1st stage turbine to a pressure of 1 MPa, steam is taken to the reheater where its temperature...
a)
explain the methods that can be adopted to increase thermal
efficiency of a vapor cycle you may use T-s diagram to explain you
reason
a steam regenerative cycle, show below, is delivering 100 MW
of power. Steam from the boiler is supplied to the turbine at 8
mpa, 400 c. After expanding isentropically in the 1st stage turbine
to a pressure of 1 MPa, steam is taken to the reheater where its
temp is raised back to 400 c...
please help thermodynamics
a) Explain the methods that can be adopted to increase the thermal efficiency of a vapor power cycle. You may use a T-s diagram to explain your reasons. b) A steam regenerative cycle, shown below, is delivering 100 MW of power. Steam from the boller is supplied to the turbine at 8 MPa. 400°C. After expanding isentropically in the 1st stage turbine to a pressure of 1 MPa, steam is taken to the reheater where Its temperature...
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