Page 114 -
P. 114
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.
Academy/Faculty/Institute/Centre Engineering
Department Mechanical Engineering
Programme Bachelor of Engineering (Manufacturing)
Bachelor of Engineering (Computer Aided Design and Manufacturing)
Course Code* KCEP 1111
Course Title* Thermodynamics
Course Pre-requisite(s)/ Minimum Require- NIL
ment(s)
Student Learning Time (SLT)* 120
Credit* 3
Course Learning Outcomes* At the end of the course, students are able to:
1. Explain the process of energy transfer (from various forms of energy,
heat and work) for engineering systems using the first law of thermody-
namics.
2. Evaluate engineering thermodynamics systems using the equation of
energy conservation
3. Analyze the second law of thermodynamics to cycles and cyclic
devices.
Transferable Skills NONE
Synopsis of Course Contents Basic concept: System, model and law, heat and work transfer concept.
First Thermodynamics Law: State of simple substances, equation of state,
energy as work and heat, energy principle and energy conservation. Usage
for non-steady and steady flow process. Modes of heat transfer and the
second law of Thermodynamics Law: Entropy, reversible and irreversible
process, entropy as a function of state, some consequences of the second
law, engineering problem considering the entropy.
Learning Strategies (lecture, tutorial, work- Lecture, Tutorial, PBL
shop, discussion, etc)
UM-PT01-PK03-BR003(BI)-S04
