FUND OF ENG THERMODYN(LLF)+WILEYPLUS
9th Edition
ISBN: 9781119391777
Author: MORAN
Publisher: WILEY
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3. 13
shown in the diagram, with state properties as
specified in the table. Ignore kinetic and
potential energy effects.
a. 5 Sketch this cycle on a T-s diagram
(label all states).
b. Label each process (such as pump,
condenser, etc.) on the T-s diagram.
5 Determine the work from the high-
Consider a Rankine cycle with reheat as
Reheat section
Low-pressure
turbine
Žin
High-
pressure
turbine
с.
pressure turbine per mass flow rate, in
Btu/lb.
Steam
generator
d.10] Determine the thermal efficiency of
the cycle.
Find the isentropic turbine efficiency
for the high-pressure turbine.
Oout
Condenser
е.
Pump
W,
Pressure
Temperature
(°F)
Enthalpy
(Btu/lb)
Entropy
(Btu/lb-°R)
State
Quality
(psi)
Superheated
1
1400
1300
1669.6
1.7192
steam
Superheated
100
600
1329.3
1.7582
steam
Superheated
3
100
900
1480.5
1.8838
steam
1
1
101.7
1105.8
1.9779
1
101.7
69.74
0.1327
Compressed
liquid
6.
1400
101.7
73.918
0.1327
4.
TRUE or FALSE. No need explanation 1. The COP of a Carnot Cycle Heat Pumup is always >12. Subcooled liquid properties can be approximated by determinging the saturated liquid property at the given pressure.3. all steps of the Rankine cycle are isentropic4. For an isochoric state change, the moving boundary work is zero.
Thermodynamics subject power cycles. Show the ts diagram and complete and step by step solution. Bix the final answer.
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Similar questions
- Explain the heat transferred from a furnace (Q) to convert the boiler feed water at 25 ° C into superheated steam at 17 bar and 250 ° C.arrow_forward19. In the Brayton cycle shown in the figure, pressure drop at the heat sink is neg- ligible hence, rc ± r. a) Draw the T-s diagram and explicitly show the differences between the pressure levels of states 1 and 3. b) Use the given data to find rc and rr, assuming the working fluid is an ideal gas. Reactor AP +0 Compressor Turbine T, = 704.4 C (1300 F) T = 1093.3 C (2000 F) Q=0.381kW me, = 0.66 W/K (1.25 Btu/h R) "= 0.9 AP =0 1=0.95 = 0.35 Noyele (7- 1)/y= 0.4 Cooling Towerarrow_forwardThermodynamics: - Clear writing please!!! Thank you - Sketch and label all numbers on the turbine. - Sketch and label all numbers on the process on a T-s diagram. 7.133E A large condenser in a steam power plant dumps 15 000 Btu/s by condensing saturated water vapor at 115 F with an ambient temperature of 77 F. What is the entropy generation rate?arrow_forward
- a. A steady flow adiabatic turbine accepts gas at condition T1 = 475 K, P, = 7 bar to T2 = 372 K, P2 = 1.5 bar. Assuming ideal gas behavior, determine (per mole of a gas) Ws, Wideal, W1ost and Sc. Take T, = 300 K and C = ? R 2 b. A Carnot engine receives 250 kJ-s- of heat from a heat-source reservoir at 525 °C and rejects heat to a heat-sink reservoir at 50 °C. Calculate the i. The efficiency of the Carnot engine ii. power developed iii. the heat rejected?arrow_forwardThermodynamics subject power cycles. Show the ts diagram and complete and step by step solution. Box the final answer.arrow_forwardQ.1 A piston-cylinder device operates 1 kg of fluid at 20 bar pressure. The initial volume is 0.1 (the last digit of your id.no). The fluid is expand reversibly following the process pv¹.3 = constant. at point B the volume becomes 1.5 m³. The fluid is then cooled at a constant temperature. Calculate the work done in the cycle. p (bar) 0.1 last digit of your id. no 0.1 v cu.m Py ¹.3 B 1.5arrow_forward
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