For parts a) through e), consider the two power cycles shown in the diagram at the right, Cycle A:1-2-3-4-1, and Cycle B: 1-2-3-4-1.a) What type of power cycles are shown?b) Which of cycles has a higher efficiency?c) Which of the cycles has a higher work output?d) For either cycle, would increasing the maximum cycle temperature(3) increase or decrease the efficiency?Cycle A: 1-2-3-4-133Cycle B: 1-2-3-4-11e) For either cycle, would decreasing the minimum cycle temperature(1) increase or decrease the efficiency?f) On the axis provide, draw a corresponding T-s diagram for the Rankine cycle shown giventhe following information:i. All turbines and pumps in the system are irreversible.ii.111.The turbine inlet conditions (states 1 and 2) are superheated, while the 2nd stageturbine outlet is a saturated mixture.The condenser outlet state (4) and the CFWH outlet state (7) are saturated liquid.2SteamgeneratorCondenserwwwClosedfeedwaterheater(1-y)TPumpTrap8(y)S

Answered: Image /qna-images/answer/acb5670e-7330-4279-bcdc-22e5dce81887.jpg

Answered: For parts a) through e), consider the…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

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A power cycle consisting of the three processes: Process 1-2: Constant volume to P2 Process 2-3: Polytropic expansion Pv=c, use k=1.28 Process 3-1: Compression at constant pressure Assuming 2.5 kg carbon dioxide as the working substance with P₁= 1.5 bar, P₂= 6 bar, T₁=350 K and neglecting kinetic and potential energy effects: a) sketch cycle in P-v diagram b) calculate thermal efficiency CO₂ molar mass = 44. CO₂ specific heat cy=1.014 kJ/kg/K
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1. A steam power plant works on a) both work on Rankine cycle b) both work on Brayton cycle c) Brayton cycle, Rankine cycle d) Rankine cycle, Brayton cycle and a gas-turbine power plant works on 2. In the regenerator of a gas-turbine power plant, a) temperature of air leaving the compressor is raised b) temperature of air leaving the turbine is raised c) both of the mentioned d) none of the mentioned 3. In gas-turbine power plant, by using a regenerator, a) efficiency increases, work output decreases b) both efficiency and work output increases c) efficiency increases, work output remains unchanged d) efficiency remains same, work output increases 4. In hydro-electric power plant, surge tank is for the protection of a) dam b) reservoir c) penstock d) powerhouse 5. The primary sources of energy are, a) coal, oil, uranium b) solar, wind, water c) hydrogen, oxygen, water d) wind, biomass, geothermal 6. The modern steam turbines are a) impulse turbine b) reaction turbine c)…
Submit correct and complete solutions. give propriate Explanation. Provide step-by-step detailed explanations.
Calculate the net work per cycle, in kJ; B) the power developed by a motor, in kW and C) the thermal efficiency if the cycle is executed 1500 times in one minute. To answer the above, consider that the displacement volume of a Diesel internal combustion engine is 3 liters. The cutoff ratio is 2, and the conditions at the start of compression are set to 100 kPa, 22°C, and 3.17 liters.
Problem 1) Rankine Cycle Analysis Consider a simple Rankine cycle, steam power plant. The state points are defined in the schematic and the operating conditions are given in the Table la. The steam flow rate is 137.4 lbm/s. You may use "EES," but supply your code. a) Provide a quantitative T-s diagram including all state points, lines of constant pressure, and the "dome." b) Determine all the energy quantities and complete Table 1b. Discuss the value of the quality at state 4. c) Determine all the exergy quantities and complete Table 1c. Assume the dead state temperature is 77°F and the dead state pressure is 14.7 psia. d) Discuss your results. What additional insights does the exergy analysis provide? 3 Quoiler 4 Fuel State 1 2 3 4 State 1 2 3 4 State br (Btu/lbm) 1 ? 2 ? Boiler ? ? Table 1a: State Points and Other Items T (°F) p (psia) Variable ? 0.71 XI ? 700 turbine 1057 700 pump ? 0.71 boiler T (°F) p (psia) ? 0.71 Turbine ? 1057 ? Condenser Table 1b: Energy Results 700 700 0.71 W…
A steam power plant operates on a theoretical reheat cycle. Steam at 25 bar pressure and 400°C is supplied to the high pressure turbine. After its expansion to dry state, the steam is reheated at constant pressure to its original temperature. Subsequent expansion occurs in the low pressure turbine to a condenser pressure of 0.04 bar. Considering feed pump work, Calculate: a)Quality of steam at entry to condenser b)Thermal efficiency c)Specific steam consumption.
Thermodynamics: Please make a sketch of a Carnot cycle for an ideal gas on a) a u-h diagram b) P-T diagram Also, explain why the sketches look the way they do on a u-h diagram and a P-T diagram. In other words, how did you come to the conclusion that a Carnot cycle makes such a cycle in a u-h and a P-T diagram? Please need complete answer of all parts in details and every step If u don't know all parts please skip because short answer gives u downvotes
Please provide handwritten solution ,Don't Type.
.1 A heat engine receives heat transfer rate at 1 MW at a high temperature of 550 °C and rejects energy to the ambient surroundings at 300 K. Work is produced at a rate of 450 kW. a) b) c) How much energy is rejected to the ambient surroundings? What is the engine efficiency? Compare this engine with a Carnot engine operating between the same temperature limits. (Compare efficiency, net-work done) .2 On a T-s diagram, indicate all the processes for an Engine working on a Carnot cycle between two temperature limits TH (highest temperature) and TL (lowest temperature).
10. Figure shows a power cycle executed by a gas in a piston-cylinder assembly. For process 1-2, Uz - Ui = 15 kJ. For process 3-1, Q=10 kJ. There areno changes in kinetic or potential ener gy. Determine (a) the work for each process, in kJ, (b) the heat transfer for processes 1-2 and 2-3, each in kJ , and (c) the ther mal efficiency. 4. 2 (kPa) 1 4. V (m³)
Course: ThermoDynamics 1

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