Dr A.P.J. Abdul Kalam Technical University, UP (AKTU), Mechanical Engineering Semester 3, Thermodynamics Syllabus

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Unit - 1 Review Of Fundamental Concepts And Definitions

Unit 1

Review of Fundamental Concepts and Definitions

1.1 Introduction Basic concepts System Control Volume

1.2 Surroundings Environment

1.3 Boundaries

1.4 Universe

1.5 Types of System

1.6 Macroscopic and Microscopic viewpoints

1.7 Concept of Continuum

1.8 Thermodynamic Equilibrium

1.9 State Property Process

1.10 Exact Inexact Differentials

1.11 Cycle Reversibility QuasiStatic Process

1.12 Irreversible Process

1.13 Causes of Irreversibility Energy and its forms

1.14 Work and heat Sign convention

1.15 Gas Laws

1.16 Ideal gas

1.17 Real gas

1.18 Law of corresponding states

1.19 Properties of Mixture of Gases

1.20 Electrical magnetic gravitational spring and shaft work

1.21 Zeroth law of thermodynamics Concept of Temperature and its measurement

1.22 Temperature scales

1.23 First Law of Thermodynamics *

1.24 First law of thermodynamics First Law for Flow Processes Derivation of general energy equation for a control volume

1.25 Steady state steady flow processes including throttling

1.26 Examples of steady flow devices

1.27 Examples of steady and unsteady I law applications for system and control volume

1.28 Limitations of first law of thermodynamics *

1.29 PMMI Perpetual Motion Machine *

1.30 Steady flow systems and their analysis

1.31 Steady flow energy equation

1.32 Boilers

1.33 CondensersEvaporators Heat Exchangers

1.34 Turbine

1.35 Throttling Process

1.36 Pumps

Unit - 2 Second Law Of Thermodynamics

Unit – 2

Second law of thermodynamics and Entropy

2.1 Second law of thermodynamics Thermal reservoirs

2.2 Energy conversion

2.3 Heat engines

2.4 Reversed Heat engines

2.5 Heat Pump

2.6 Refrigerator Coefficient of Performance

2.7 Kelvin Planck and Clausius statement of second law of thermodynamics

2.8 Equivalence of Clausius Statement to the KelvinPlanck Statement 

2.9 Reversible and irreversible processes

2.10 Carnot cycle and Carnot engine

2.11 Carnot theorem and it’s corollaries

2.12 Thermodynamic Temperature Scale

2.13 PMMII

2.14 Entropy Clausius inequality

2.15 Concept of Entropy

2.16 Entropy changes of pure substance in different thermodynamic processes

2.17 Tds equation

2.18 Principle of entropy increase

2.18 TS diagram

2.19 Statement of the third law of thermodynamics.

Unit - 3 Availability And Irreversibility

Unit – 3

Availability and Irreversibility

3.1 Available and unavailable energy

3.2 Availability and Irreversibility

3.3 Second law efficiency

3.4 Helmholtz Gibb’s function

3.5 Thermodynamic relations Conditions for exact differentials

3.6 Maxwell relations

3.7 Clapeyron equation

3.8 JouleThompson coefficient

3.9 Inversion curve

3.10 Coefficient of volume expansion

3.11 Adiabatic and Isothermal compressibility

Unit - 4 Properties Of Steam And Rankine Cycle

Unit – 4

Properties of steam and Rankine cycle

4.1 Properties of steam and Rankine cycle Pure substance Property of Pure Substance

4.2 Triple point

4.3 Critical point

4.4 Saturation states

4.5 Sub cooled liquid state

4.6 Superheated vapour state

4.7 Phase transformation process of water

4.8 Graphical representation of pressure volume and temperature

4.9 PT Diagram

4.10 PV Diagram

4.11 Ph diagram

4.12 TS and HS diagrams

4.13 Use of property diagram

4.14 Steamtables Moller chart

4.15 Dryness factor and it’s measurement

4.16 Processes involving steam in closed and open systems

4.17 Simple Rankine cycle

4.18 Airwater vapour mixture and Psychrometry Psychometric terms and their definitions

4.19 Psychometric chart

4.20 Different Psychometric processes and their representation on Psychometric chart

Unit - 5 Refrigeration Cycles

Unit – 5

Refrigeration Cycles

5.1 Reversed Carnot Cycle for gas and vapour

5.2 Refrigeration capacity

5.3 Unit of refrigeration

5.4 Air Refrigeration cycles

5.5 Reversed Brayton Cycle and Bell Coleman Cycle

5.6 Vapour compression refrigeration cycle

5.7 Simple saturated cycle and actual vapour compression refrigeration cycle

5.8 Analysis of cycles

5.9 Effect of superheating

5.10 Subcooling and change in evaporator and condenser pressure on performance of vapour compression refrigeration cycle

5.11 Refrigerants their classification and desirable properties

5.12 Vapour absorption refrigeration system

Download MECH Sem 3 syllabus pdf
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Other Subjects of Semester-1
Materials engineering
Technical communication
Sensor and instrumentation
Fluid mechanics & fluid machines
Universal human values and professional ethics
Mathematics-iv ( pde, probability and statistics )
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