Download GTU BE/B.Tech 2019 Winter 4th Sem New 2142105 Heat And Mass Transfer In Metallurgy Question Paper

Download GTU (Gujarat Technological University) BE/BTech (Bachelor of Engineering / Bachelor of Technology) 2019 Winter 4th Sem New 2142105 Heat And Mass Transfer In Metallurgy Previous Question Paper

1
Seat No.: ________ Enrolment No.___________

GUJARAT TECHNOLOGICAL UNIVERSITY

BE - SEMESTER ? IV (New) EXAMINATION ? WINTER 2019
Subject Code: 2142105 Date: 12/12/2019

Subject Name: Heat and Mass Transfer in Metallurgy

Time: 10:30 AM TO 01:00 PM Total Marks: 70

Instructions:

1. Attempt all questions.

2. Make suitable assumptions wherever necessary.

3. Figures to the right indicate full marks.

Q.1 (a) Define and classify fluids. 03
(b) Explain Fick?s first law of diffusion and derive unit for diffusivity. 04
(c) Derive differential equation of momentum balance (Equation of motion) in
rectangular coordinate system.
07

Q.2 (a) Explain mass concentration, molar concentration, mass fraction & molar fraction. 03
(b) Derive differential mass balance (Continuity Equation). 04
(c) Derive differential equation for heat conduction in rectangular coordinate system. 07
OR
(c) What are different type of fluid flows? Explain them. 07
Q.3 (a) If max. velocity of fluid flowing through pipe of diameter 20cm is 5m/sec & shear
stress required to create flow is 20 N/m
2
. Calculate dynamic viscosity of fluid.
Consider velocity of fluid at wall is zero.
03
(b) State Fourier law of heat conduction and derive units of thermal conductivity (k). 04
(c) Derive Hagen-Poiseulle Equation for fluid flowing through pipe. 07
OR
Q.3 (a) Calculate discharge of fluid flowing through pipe of 20 cm radius and 5 m/sec
velocity.
03
(b) For temperature difference of 200
0
C for refractory thickness of 400 mm having
thermal conductivity of 0.2 W/mK. Calculate heat flux.
04
(c) What is convective heat transfer? Discuss different modes of convective heat
transfer.
07
Q.4 (a) Determine temperature inside of furnace refractory wall of thickness 2000 mm
having k= 0.15W/mK if outside temperature is 75
0
C for heat flux of 100 W/m
2
.
03
(b) Explain lambert?s law for radiative heat transfer. 04
(c) From Euler?s equation, derive Bernoulli?s equation by integration. 07

OR
Q.4 (a) What is mass transfer? Briefly explain different modes of mass transfer. 03
(b) State Newton?s law of cooling and derive unit for coefficient of convective heat
transfer (h).
04
(c) Write note on Kirkindall effect. 07
Q.5 (a) For convective heat transfer condition if heat flux of 1500 W/m
2
and temperature
difference of 30
0
C. Calculate co-efficient of convective heat transfer (h).
03
(b) A sphere of diameter 10 mm and emissivity 0.9 is maintained at 80
0
C inside
oven with wall temperature of 400
0
C. Calculate net heat transfer rate from oven
wall to object.
04
(c) What is emissive power, emissivity, black body, white body and gray body? 07
OR

Q.5 (a) Briefly explain pseudo steady diffusion. 03
(b) What is radiative heat transfer? How it is different than conductive & convective
heat transfer?
04
(c) State and explain plank?s law, wein?s law, 07

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This post was last modified on 20 February 2020