Fundamentals Of Thermodynamics
10th Edition
ISBN: 9781119494966
Author: Borgnakke, C. (claus), Sonntag, Richard Edwin, Author.
Publisher: Wiley,
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A smaller power plant produces 25 kg/s steam at 3 MPa, 600°C in the boiler. It cools the condenser with ocean water so the condenser exit is at 45°C. There is a reheat done at 500 kPa up to 400°C and then expansion in the low pressure turbine. For the engine, find W and e?
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Consider an ideal steam reheat cycle where steam enters the high-pressure turbine at 3.0 MPa, 400°C, and then expands to 0.8 MPa. It is then reheated to 400°C and expands to 10 kPa in the low-pressure turbine. For the engine, find W and ec
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- Н.W A smaller power plant produces steam at 3 MPa, 600•C, in the boiler. It keeps the condenser at 45 C by the transfer of 10MW out as heat transfer. The first turbine section expands to 500 kPa, and then flow is reheated followed by the expansion in the low-pressure turbine. Find the reheat temperature so that the turbine output is saturated vapor. For this reheat, find the total turbine power output and the boiler heat transfer. [Answer. (Reheat temperature= 529°C , total turbine power output= 6487 kW, the boiler heat transfer= 16 475 kW)]arrow_forwardA small power plant produces 25 kg/s steam at 3 MPa, 600 degrees Celsius in the boiler. It cools the condenser with the ocean water coming in at 12 degrees Celsius and returning at 15 degrees Celsius so the condenser exit is at 45 degrees Celsius. Find the net power output and the required mass flow rate of ocean water.arrow_forwardIn a Steam Power Plant steam enters the turbine at 6 bar and 400 C and is expanded isentropic ally to the condenser pressure of 0.1 bar. Find the condition of the exhaust steam and determine the cycle efficiency.arrow_forward
- In an ideal regenerative cycle, steam enters the turbine at 6 Mpa. 500 °C. Steam is extracted at 0.2 Mpa and 0.275 Mpa. Then leaves the condenser at 0.1 Mpa. Find the efficiency in % IF the mass recirculating inside the cycle is 3.63 kg/s.arrow_forwardA power plant operating in a Reheat Rankine Cycle produces steam at 3 MPa, 600oC in the boiler. It keeps the condenser at 45oC by transfer of 10 MW out as heat transfer. The first turbine section (high-pressure) expands to 500 kPa and then flow is reheated followed by the expansion in the low-pressure turbine. Provide a detailed solution. Avoid shortcuts. Find the boiler heat transfer including the reheat process (kW)arrow_forwardA smaller power plant produces 25 kg/s steam at 3 MPa, 600o C in the boiler. It cools the condenser with ocean water so the condenser exit is at 45o C. There is a reheat done at 500 kPa up to 400o C and then expansion in the low pressure turbine. For the engine find W and ?? .arrow_forward
- This is the problem number 2 and answer the question 3 thank youarrow_forwardReheat steam has 2000 psia throttle pressure at the turbine inlet and 410 kPa reheat pressure, the throttle and reheat temperature of the steam is 1010 F, condenser pressure is 0.50 psia, engine efficiency of high pressure and low pressure is 75%. Find the cycle thermal efficiency.arrow_forwardI need handwritten and correct very fastarrow_forward
- In a Rankine cycle, steam leaves the boiler and enters the turbine at 4 MPa, 400C. The condenser pressure is 10 kPa. What is the pump work in kJ/kg?arrow_forwardA 60,000 kw turbine in a reheat cycle steam at 15 MPa, 540˚C enters the engine and expands to 1.95 MPa and 260°C. It reenters the engine at 1.8 MPa and 540˚C. Expansion now occurs to the condenser pressure of 0.0035 MPa. The steam flow is 147,000 kg/hr, generator efficiency is 96%. For actual engine find combined thermal efficiency, combined steam rate, and combined engine efficiency.arrow_forward1. In a Regenerative cycle, the steam is extracted from the turbine at 2 Mpa and 250C for feedwater heating and it is mixed with condenser exit at 30 kpa after pumping. Find the fraction of vapor extracted from the turbine.arrow_forward
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