Page 213 -
P. 213
COURSE PRO FORMA
IMPORTANT:
Contents of this Pro Forma shall not be changed without the Senate’s approval for items indicated with *. Changes
to the other items can be approved at the Academy/Faculty/Institution/Centre level.
Code KMEE2169
Title Thermodynamics and Fluid Mechanics
Pre-requisite None
Student Learning Time (SLT) 120 hours
Credit 3
nd
st
Learning Outcomes 1. Define the basic principles of thermodynamics and the 1 and 2
law to solve problems thermodynamics.
2. Apply the basic principles of fluid mechanics and the Bernoulli
principle, energy principle and momentum principle to solve fluid
mechanics problems.
3. Model the basic principles and modes of heat transfer.
4. Analyze various processes, systems and heat components in
order to design them.
Synopsis The goal of this course is to give a basic knowledge and understand-
ing in thermodynamics, fluid mechanics and heat transfer. This
course includes an introduction to the concepts and definition of ther-
modynamics, thermodynamics properties, the 1st law of t
Assessment 40 % Continuous Assessments
60 % Final Examination
References Yunus A. Cengel and Michael A. Boles, 2010, (5th Ed.). Thermody-
namics, An Engineering Approach, McGraw Hill.
Robert L. Street, Gary Z. Watters and John K. Vennard, 1996, (7th
Ed.). Elementary Fluid Mechanics, John Wiley & Sons.
Yunus A. Cengel and Robert H. Turner, 2002. Fundamentals of
Thermal-Fluid Sciences, McGraw Hill.
C. Marquand and D. Croft, 1995. Thermofluids An Integrated Ap-
proach to Thermodynamics and Fluid Mechanics Principles, John
Wiley & Sons.
G. F. C. Rogers and Y. R. Mayhew, (5th Ed.). Thermodynamics and
Transport Properties of Fluids, Blackwell
Soft Skills Communication Skills (CS1)
Critical Thinking & Problem Solving (CT1, CT2, CT3)
Longlife Learning & Information Management (LL1)
UM-PT01-PK03-BR003(BI)-S04
