TEACHING SCHEDULE: SEM I – 2022/2023
EMH 211/3: Thermodynamics
Week
Day
Mon (17 Oct)
1
(AFM)
Wed
2
(AFM)
Thu
No Class
Mon (24 Oct)
No Class
Wed
Chapter 2: Basic Concepts of Thermodynamics2.5. Thermodynamics Cycles
2.6. Temperature
2.7. Work & Heat
2.8. Unit
Thu
Tutorial 1
Mon (31 Oct)
3
(AFM)
Topics
MODUEL 1- Chapter 1: Preface
1.1. Definition Chapter
1.2. Types of Energy
Chapter 2: Basic Concepts of Thermodynamics2.1. Fluid Properties
Chapter 2: Basic Concepts of Thermodynamics2.2. Thermodynamics System
2.3. Thermodynamics State
2.4. Thermodynamic Process
Chapter 4: Fluid Properties4.1. Phases of Pure Substance
4.2. Water Phase Change at Constant Pressure
4.3. T-v diagram
4.4. P-v diagram
Thu
Tutorial 1
4
(AFM
&
AYS)
Wed
Thu
24.10.2022, Monday –
Deepavali holiday
T1
Chapter 3: First Law of Thermodynamics3.1. Non-flow Equation
3.2. Corollaries of First Law
Chapter 3: First Law of Thermodynamics3.3. Steady Flow Equation
3.4. Continuity Equation
Wed
Mon (07 Nov)
Remark
Chapter 4: Fluid Properties4.5. Type of Fluid
4.5.1. Ideal Gas
4.5.1.1 Specific Heat
4.5.1.2 Joule Law
4.5.2. Van de Waals Gas
4.5.3. Steam
4.5.3.1 Steam Table
4.5.3.2 Wet Steam
4.5.3.3 Superheated Steam
4.5.3.4 Interpolation
MODULE 2- Chapter 5: Thermodynamic Process5.1. Reversible Non- Flow Process
5.1.1. Constant Volume Process
5.1.2. Constant Pressure Process
5.1.3. Constant Temperature Process (isothermal)
Test 1
T1_cont.
AFM
AYS
TEST 1 (Module 1)
Mon (14 Nov)
5
(AYS)
Wed
Thu
Mon (21 Nov)
6
(AYS)
Wed
Thu
Mon (28 Nov)
7
(AYS)
8
Wed
Tutorial 2
Tutorial 2
(05 – 11 Dec)
MID TERM BREAK
Wed
Thu
Mon (19 Dec)
Wed
T2_cont.
Chapter 6: Second Law of Thermodynamic6.5. Relationship of entropy with other properties
6.5.1. Entropy of wet steam
6.5.2. Entropy of ideal gas
6.6. Reversible flow process
6.6.1. Constant Volume Process
6.6.2. Constant Pressure Process
6.6.3. Isothermal Process
Tutorial 3
9
(AYS)
T2
Chapter 6: Second Law of Thermodynamic6.1. Heat Engine & Heat Pump
6.2. Second Law of Thermodynamic
6.2.1. Temperature Scale
Chapter 6: Second Law of Thermodynamic6.3. Entropy
6.3.1. Clausius Inequality
6.3.2. Prove of entropy as a property
6.3.3. Concept of entropy
6.3.4. Principle of increasing entropy
6.4. T-s diagram
Thu
Mon (12 Dec)
10
(TYH)
Chapter 5: Thermodynamic Process5.1.4. Adiabatic Process
5.1.5. Polytrophic Process
5.2. Reversible Process
5.2.1. Boiler
5.2.2. Condenser
5.2.3. Nozzle
Chapter 5: Thermodynamic Process5.2. Reversible Process
5.2.4. Diffuser
5.2.5. Turbine & Compressor
5.2.6. Throttling
T3
6.6.4. Adiabatic Process
6.6.5. Polytrophic Process
6.7. Entropy and irreversibility
6.7.1. Isentropic efficiency
6.8. Exergy
6.8.1. Exergy from a heat source
6.8.2. Exergy of a closed system
Chapter 6: Second Law of Thermodynamic6.8. Exergy
6.8.3. Exergy of an opened system
6.8.4. Exergy change
6.8.5. Principle of decreasing exergy
6.8.6. Second law efficiency
Tutorial 3
MODULE 3- Chapter 7: Thermodynamic cycles7.1. Carnot cycle
Chapter 7: Thermodynamic cycles7.2. Air cycle
7.2.1. External heat transferred cycle
7.2.1.1 Stirling Cycle
7.2.1.2 Ericsson Cycle
7.2.1.3 Brayton/Joule Cycle (closed)
T3_cont.
11
(TYH)
12
(TYH)
Thu
Test 2
Mon (26 Dec)
No Class
Wed
Chapter 7: Thermodynamic cycles7.2. Air cycle
7.2.2. Internal heat transfer cycle
7.2.2.1 Brayton cycle (Opened cycle)
Thu
Tutorial 4
T4
Mon
(02 Jan 2023)
No Class
02.01.2023, Monday –
Replacement holiday
for New Year 2023
Wed
Chapter 7: Thermodynamic cycles7.2. Air cycle
7.2.2. Internal heat transfer cycle
7.2.2.2 Reciprocating engine cycle
Thu
Tutorial 4
Mon (09 Jan)
13
(TYH)
Wed
Thu
Mon (16 Jan)
14
(TYH)
Wed
Thu
26.12.2022, Monday –
Replacement holiday
for Christmas
T4_cont.
Chapter 7: Thermodynamic cycles7.2. Air cycle
7.2.2. Internal heat transfer cycle
7.2.2.3 Air standard Otto cycle
Chapter 7: Thermodynamic cycles7.2. Air cycle
7.2.2. Internal heat transfer cycle
7.2.2.4 Air standard diesel cycle
7.2.2.5 Mix cycle (dual combustion cycle)
7.3. Mean Effective Pressure
Tutorial 5
T5
Chapter 7: Thermodynamic cycles7.4. Vapour cycle
7.4.1. Rankine cycle
7.4.1.1 Modified Rankine cycle
Chapter 7: Thermodynamic cycles7.4. Vapour cycle
7.4.1. Rankine cycle
7.4.1.2 Increase of boiler pressure
7.4.1.3 Superheated cycle
7.4.1.4 Reheat cycle
Tutorial 5
T5_cont.
23 & 24.01.2023,
Monday & Tuesday –
Chinese New Year
Holiday
Mon (23 Jan)
No class
Wed
Chapter 7: Thermodynamic cycles7.4. Vapour cycle
7.4.2. Vapour Compression Cycle
Thu
Test 3
15
(TYH)
16
TEST 2 (Module 2)
TEST 3 (Module 2)
STUDY WEEK (30 Jan – 05 Feb 2023)
17
18
EXAM WEEKS (06 – 26 Feb 2023)
19
Dr. Ahmad Fikri Mustafa (AFM), Mr. Abdul Yamin Saad (AYS), Dr. Teoh Yew Heng (TYH)