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Design Problem II Your customer wants a Gas Power Plant based on Bryton (thermodynamic) cycle which can deliver I Mw of net power. The power

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Design Problem II Your customer wants a Gas Power Plant based on Bryton (thermodynamic) cycle which can deliver I Mw of net power. The power plant is to be stationed in Michaud (East New Orleans). (0) Propose to your customer a power plant after carrying out an efficiency analysis on two type of Bryton cycles: 1. Ideal Bryton Cycle 2. Ideal Bryton Cycle with Regenerator In determining the thermal efficiency, assume the combustion chamber to be made of SS 316, and range of pressure compression ratio to be between 10 and 15. Note: For this part of the problem, use the thermal efficiency equations given in class for the types of power cycles mentioned above. (11) Carry out a thermodynamic analysis on the plant you chose in part (1) of the problem, and determine the cost of "fuel oil" per one hr operation of the power plant based on fuel-air ratio (F/A ratio) of 0.017. Note: Your power plant is to burn fuel-oil, NOT natural gas. Make a qualitative Capital Cost and Reliability Analysis of the Gas Power Plant you plan to propose to your customer. Note: Work the problem in British Units (BU) Design Problem II Your customer wants a Gas Power Plant based on Bryton (thermodynamic) cycle which can deliver I Mw of net power. The power plant is to be stationed in Michaud (East New Orleans). (0) Propose to your customer a power plant after carrying out an efficiency analysis on two type of Bryton cycles: 1. Ideal Bryton Cycle 2. Ideal Bryton Cycle with Regenerator In determining the thermal efficiency, assume the combustion chamber to be made of SS 316, and range of pressure compression ratio to be between 10 and 15. Note: For this part of the problem, use the thermal efficiency equations given in class for the types of power cycles mentioned above. (11) Carry out a thermodynamic analysis on the plant you chose in part (1) of the problem, and determine the cost of "fuel oil" per one hr operation of the power plant based on fuel-air ratio (F/A ratio) of 0.017. Note: Your power plant is to burn fuel-oil, NOT natural gas. Make a qualitative Capital Cost and Reliability Analysis of the Gas Power Plant you plan to propose to your customer. Note: Work the problem in British Units (BU)

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