CDB 1053 Introduction to
Engineering
Thermodynamics
Chapter 5: Mass & Energy
Analysis of Control Volume
1
Learning Outcome
By the end of this lecture, you are expected to:
Identify steady flow of engineering devices &
its functions.
Perform appropriate

Example 8
Two kg of water execute a Carnot power cycle. During the
isothermal expansion, the water is heated until it is a
saturated vapor from an initial state where the pressure is 40
bar and the quality is 15%. The vapor then expands
adiabatically to a

CHAPTER 8
GAS POWER CYCLES
CONTENTS
8-1
8-2
8-3
8-4
8-5
8-6
8-7
8-8
Basic considerations in the analysis of power cycles
Carnot cycle & its value in engineering
Air standard assumptions
Terminology for reciprocating device
Otto cycle
Diesel cycle
Brayton

Muhammad Rashid Shamsuddin
PhD (Materials and Processing Engineering)
BE hons (Biochemical)
Room number: 050335
Ext. number: 7590
Email: mrashid.shamsuddin@petronas.com.my
Consultation: whenever I am in my office
CLO vs PO Mapping
Syllabus
Week
1
1- 3
Top

CDB 1053 Introduction to
Engineering
Thermodynamics
Chapter 2 & 4: Energy Transfer &
Analysis of Closed Sysyems
1
Learning Outcome
By the end of this lecture, you are expected to:
Understand the concept of energy & its forms.
Understand mechanism of en

CDB 1053 Introduction To
Engineering
Thermodynamics
By Herr Azry B Borhan
Dr Muhammad Rashid B Shamsuddin
INTRODUCTION
1
Lecturers
Herr Azry B Borhan
Room 04-03-10
E-mail: azrybo@petronas.com.my
Dr. Muhammad Rashid B Shamsuddin
Room 05-03-35
E-mail:
mra

CDB 1053 Introduction to
Engineering
Thermodynamics
Chapter 3: Properties of Pure
Substances
1
Learning Outcome
By the end of this lecture, you are expected to:
Understand the phase change processes of
pure substances.
Use of property tables & illustra

1) Calculate the polytropic index of the compression process tested
Assuming that the air in the compression process is an ideal gas, we used the reversible
polytropic process formula to calculate the polytropic index.
n
n
PV =constant =P1 V 1 =P 2 V 2
n