Industrial Heat Transfer Equipment

Uka Tarsadia University
C. G. Patel Institute of Technology
B. Tech.
Semester - VIII
030050807:
Industrial Heat Transfer Equipment
EFFECTIVE FROM July-2015
Syllabus version: 1.01
Uka Tarsadia University
Version 1.01
SEMESTER-VIII
INDUSTRIAL HEAT TRANSFER EQUIPMENT
(030050807)
Credits: 4: Theory
Contact Hours Per week: 4: Theory
Objective of the Course:
To give the complete knowledge about Heat transfer, this includes not only Heat transfer
but also includes the different processes how to use equipment for Heat transfer.
Student Learning Outcomes/Objectives:
At the closing stage of the course, the student will be able to understand the basic
terminology of Heat transfer and know the major Heat transfer processes and fundamental
principles of operation. They also understand how basic knowledge of equipment for heat
transfer and the relationship between Heat transfer and equipment.
Instructional Methods and Pedagogy:
Faculty members shall explain in a class room using black board and multimedia projector
through PowerPoint presentation.
Outline of the Course:
No.
1
2
3
4
5
6
Unit
Double Pipe Heat Exchanger
Shell And Tube Heat Exchanger
Compact Heat Exchangers
Condensers And Evaporators
Cooling Towers
Heat Pipes
Total
Minimum No. of
Contact Hours
9
12
9
12
9
9
60
Approx. Weight age %
15
20
15
20
15
15
100
Uka Tarsadia University
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B.Tech
Sem VIII
Sr. No.
1
2
3
4
5
Subject
030050807
Industrial Heat Transfer Equipment
(Theory)
Topic
Unit – I
DOUBLE PIPE HEAT EXCHANGER:
Thermal and hydraulic design - inner pipe - annulus, Hairpin heat
exchanger - base inner tube - finned inner multi tubes- parallel and
series arrangements, pressure drop, constructional features
Unit – II
SHELL AND TUBE HEAT EXCHANGER:
Basic components - shell - tube bundles - baffles - types and
geometry. Design procedure - preliminary estimation of size,
pressure drop and heat transfer calculations - shell and tube sides Kern method - bell - Delaware method. Design of heat exchangers
by TEMA and ASME Standards
Unit – III
COMPACT HEAT EXCHANGERS:
Compact heat exchangers - types - constructional features, heat
transfer and pressure drop calculations - finned plate and tube.
Automotive radiators. Extruded tube type, sprayed heat exchanger,
dimple heat exchangers, wrap around heat exchangers, Gasket,
semi-welded, welded, brazed plate heat exchangers - constructional
features - plate pack and frame - operational characteristics - flow
arrangement, heat transfer and pressure drop calculation,
performance analysis.
Unit – IV
CONDENSERS AND EVAPORATORS:
Shell and tube condensers - horizontal & vertical types - design and
operational consideration, plate condensers, air cooled and direct
contact types, condenser for refrigeration, evaporative condensers.
Applications to cryogenics, Evaporation for refrigeration & air
conditioning - chillers.
Unit – V
COOLING TOWERS:
Types - basic relation - heat balance and heat transfer
characteristics, effects of - packing - geometry, design of cooling
towers, spray design, selection of - pumps, fans, Testing,
maintenance, visit to cooling tower.
Unit – VI
Hours
4 hrs/week
4 Credits
Hours
9
12
9
12
9
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6
HEAT PIPES:
Structures - applications - basic relations – performance
characteristics - effects of working fluid and operating temperature,
wick - selection of material - pore size (basic concepts only) Cooling
of electrical and electronic components, Cooling of chips, PCBs,
Computers, Logic chips etc., Electrical transformers, Panel boards,
Electric motors.
9
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Practical
030050807
Industrial Heat Transfer Equipment
Credit: 1
Contact Hours Per week: 2
Objective of the Course:
· To provide the knowledge related to Industrial Heat Transfer Equipment and its uses.
Student Learning Outcomes / objectives:
· To have the students will be able to know different industrial heat transfer equipments
which are used in industries.
Instructional Method and Pedagogy:
· Experiments are to be performed in laboratory
Sr.No.
030050807
Industrial Heat Transfer Equipment (Practical)
1
To study performance of parallel flow and counter flow Double Pipe
Heat Exchanger.
2
To study performance of Shell and Tube Type Heat Exchanger.
2 hrs/week
1 Credit
6
4
3
To study performance of Cross Flow Heat Exchanger.
4
4
To study performance of Plate Type Heat Exchanger.
4
5
To study performance of Cooling Tower.
4
6
To study heat transfer in double pipe heat exchanger under parallel
flow and counter flow condition.
To study the performance of heat exchanger by effectiveness and
NTU method.
7
4
4
Reference books:
1.
2.
3.
4.
5.
6.
7.
8.
Yonous A Cengel, Heat transfer: A Practical Approach, McGraw Hill
Donald Q. Kern, Process Heat Transfer, McGraw Hill Publications
TEMA Standards
S. P. Sukhatme, Textbook of Heat Transfer, 4th edition, Universities Press
G. Walkar, Industrial Heat Exchangers: A Basic Guide, Hemisphere Publications
Holger Martin, Heat Exchangers, CRC Press
Hewitt G, Shires G, Bolt T, Process Heat Transfer, CRC Press, Florida
Kalvin C Silverstein, Design Technology of Heat Pipes for cooling and Heating of Heat
Exchangers, CRC
9. Eduardo Cao, Heat Transfer in Process Engineering: Calculations and Design, McGraw
Hill Publications.
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