Download GTU BE/B.Tech 2019 Summer 4th Sem Old 141903 Engineering Thermodynamics Question Paper

Download GTU (Gujarat Technological University) BE/BTech (Bachelor of Engineering / Bachelor of Technology) 2019 Summer 4th Sem Old 141903 Engineering Thermodynamics Previous Question Paper

1

Seat No.: ________ Enrolment No.___________
GUJARAT TECHNOLOGICAL UNIVERSITY
BE - SEMESTER ?IV(OLD) ? EXAMINATION ? SUMMER 2019
Subject Code:141903 Date:13/05/2019
Subject Name: Engineering Thermodynamics
Time:02:30 PM TO 05:00 PM Total Marks: 70
Instructions:
1. Attempt all questions.
2. Make suitable assumptions wherever necessary.
3. Figures to the right indicate full marks.
4. Use of steam table is permitted.


Q.1 (a) Show the equivalence of Clausius and Kelvin-Plank statements of 2
nd
law of
thermodynamics.
07
(b) A reversed heat engine is used for producing ice at - 4?C from water at 27?C.
The temperature of freezing mixture is - 8?C. Specific heat of ice is 2.1kJ/kg.K
and latent heat of ice is 335kJ/kg. Calculate the amount of ice formed per kWh.
07

Q.2 (a) Explain briefly the Otto cycle with help of P-V and T-S diagram and derive an
expression for deal efficiency of Otto Cycle.
07
(b) A steam turbine power plant operating on ideal rankine cycle, receives steam at
30 bar, 350 ?C at a rate of 2kg/s and it exhausts at 0.09bar. Calculate the net
power output, steam rate, heat rejection in condenser in kW, rankine cycle
efficiency and actual thermal efficiency of the plant if the boiler efficiency is
85%.
07
OR
(b) State the Steady Flow Energy Equation and explain how this equation can be
applied for (i) Nozzle, (ii) Boiler, and (iii) Steam Turbine.
07

Q.3 (a) Define the following: Avogadro?s law, equation of state, law of corresponding
states and Gibbs-Dalton law.
07
(b) State various methods to improve efficiency of Brayton cycle. With suitable
diagrams, explain any two of them.
07
OR
Q.3 (a) Define Flow work, critical point, and triple point. And explain the phase change
process of water using a T-V diagram.
07
(b) Discuss perpetual motion machine of the first and second kind. 07

Q.4 (a) Write short note on ?Bomb calorimeter?. 07
(b) What the meaning of word ?Entropy ?? Carnot cycle is not practical. Justify. 07
OR
Q.4 (a) Draw and explain the schematic for an ideal Rankine cycle and represent on p-
v, T-S, h-s diagram
07
(b) Explain following term: Gibbs function and Helmholtz function. 07

Q.5 (a) Explain the concept of available and unavailable energy. 07
(b) 10 kg/s of chilled water enters a tall building with velocity of 50m/s at an
elevation of 30m from ground. The water leaves the system with velocity of
10m/s at an elevation of 60m. The temperature of water entering in and leaving
out are 7?C and 12?C respectively. The rate of work done by pump in the line is
35kW. Calculate rate of heat removed by water.
07
FirstRanker.com - FirstRanker's Choice
1

Seat No.: ________ Enrolment No.___________
GUJARAT TECHNOLOGICAL UNIVERSITY
BE - SEMESTER ?IV(OLD) ? EXAMINATION ? SUMMER 2019
Subject Code:141903 Date:13/05/2019
Subject Name: Engineering Thermodynamics
Time:02:30 PM TO 05:00 PM Total Marks: 70
Instructions:
1. Attempt all questions.
2. Make suitable assumptions wherever necessary.
3. Figures to the right indicate full marks.
4. Use of steam table is permitted.


Q.1 (a) Show the equivalence of Clausius and Kelvin-Plank statements of 2
nd
law of
thermodynamics.
07
(b) A reversed heat engine is used for producing ice at - 4?C from water at 27?C.
The temperature of freezing mixture is - 8?C. Specific heat of ice is 2.1kJ/kg.K
and latent heat of ice is 335kJ/kg. Calculate the amount of ice formed per kWh.
07

Q.2 (a) Explain briefly the Otto cycle with help of P-V and T-S diagram and derive an
expression for deal efficiency of Otto Cycle.
07
(b) A steam turbine power plant operating on ideal rankine cycle, receives steam at
30 bar, 350 ?C at a rate of 2kg/s and it exhausts at 0.09bar. Calculate the net
power output, steam rate, heat rejection in condenser in kW, rankine cycle
efficiency and actual thermal efficiency of the plant if the boiler efficiency is
85%.
07
OR
(b) State the Steady Flow Energy Equation and explain how this equation can be
applied for (i) Nozzle, (ii) Boiler, and (iii) Steam Turbine.
07

Q.3 (a) Define the following: Avogadro?s law, equation of state, law of corresponding
states and Gibbs-Dalton law.
07
(b) State various methods to improve efficiency of Brayton cycle. With suitable
diagrams, explain any two of them.
07
OR
Q.3 (a) Define Flow work, critical point, and triple point. And explain the phase change
process of water using a T-V diagram.
07
(b) Discuss perpetual motion machine of the first and second kind. 07

Q.4 (a) Write short note on ?Bomb calorimeter?. 07
(b) What the meaning of word ?Entropy ?? Carnot cycle is not practical. Justify. 07
OR
Q.4 (a) Draw and explain the schematic for an ideal Rankine cycle and represent on p-
v, T-S, h-s diagram
07
(b) Explain following term: Gibbs function and Helmholtz function. 07

Q.5 (a) Explain the concept of available and unavailable energy. 07
(b) 10 kg/s of chilled water enters a tall building with velocity of 50m/s at an
elevation of 30m from ground. The water leaves the system with velocity of
10m/s at an elevation of 60m. The temperature of water entering in and leaving
out are 7?C and 12?C respectively. The rate of work done by pump in the line is
35kW. Calculate rate of heat removed by water.
07
2


OR

Q.5 (a) Using Maxwell relations derive the Causius clapeyron equation. 07
(b) Define the following terms:
i) Elements of irreversibility
ii) Maximum work
iii) Dead state of a given system
iv) Availability
v) Irreversibility
vi) Second law of efficiency
vii) Availability function.
07

*************
FirstRanker.com - FirstRanker's Choice

This post was last modified on 20 February 2020