Basic Thermodynamics ME 3rd Sem Syllabus for VTU BE 2017 Scheme

Basic Thermodynamics detail syllabus for Mechanical Engineering (Me), 2017 scheme is taken from VTU official website and presented for VTU students. The course code (17ME33), and for exam duration, Teaching Hr/week, Practical Hr/week, Total Marks, internal marks, theory marks, duration and credits do visit complete sem subjects post given below.

For all other me 3rd sem syllabus for be 2017 scheme vtu you can visit ME 3rd Sem syllabus for BE 2017 Scheme VTU Subjects. The detail syllabus for basic thermodynamics is as follows.

Course Objectives:

• Learn about thermodynamic systems and boundaries
• Study the basic laws of thermodynamics including, conservation of mass, conservation of energy or first law, second law and Zeroth law.
• Understand various forms of energy including heat transfer and work
• Identify various types of properties (e.g., extensive and intensive properties)
• Use tables, equations, and charts, in evaluation of thermodynamic properties
• Apply conservation of mass, first law, and second law in thermodynamic analysis of systems (e.g., turbines, pumps, compressors, heat exchangers, etc.)
• Enhance their problem solving skills in thermal engineering

Module 1

For complete syllabus and results, class timetable and more pls download iStudy. Its a light weight, easy to use, no images, no pdfs platform to make students life easier.

Module 2

First Law of Thermodynamics: Joules experiments, equivalence of heat and work. Statement of the First law of thermodynamics, extension of the First law to non – cyclic processes, energy, energy as a property, modes of energy, Extension of the First law to control volume; steady flow energy equation(SFEE), important applications. Second Law of Thermodynamics: limitations of first law of thermodynamics Devices converting heat to work;

1. in a thermodynamic cycle,
2. in a mechanical cycle. Thermal reservoir, Direct heat engine; schematic representation and efficiency. Devices converting work to heat in a thermodynamic cycle; reversed heat engine, schematic representation, coefficients of performance. Kelvin – Planck statement of the Second law of Thermodynamics; PMM I and PMM II, Clausius statement of Second law of Thermodynamics, Equivalence of the two statements; Carnot cycle, Carnot principles. Problems

Module 3

Reversibility: Definitions of a reversible process, reversible heat engine, importance and superiority of a reversible heat engine and irreversible processes; factors that make a process irreversible, reversible heat engines. Unresisted expansion, remarks on Carnot’s engine, internal and external reversibility, Definition of the thermodynamic temperature scale. Problems
Entropy: Clasius inequality, Statement- proof, Entropy- definition, a property, change of entropy, entropy as a quantitative test for irreversibility, principle of increase in entropy, entropy as a coordinate.

Module 4

For complete syllabus and results, class timetable and more pls download iStudy. Its a light weight, easy to use, no images, no pdfs platform to make students life easier.

Module 5

Ideal gases: Ideal gas mixtures, Daltons law of partial pressures, Amagat’s law of additive volumes, evaluation of properties of perfect and ideal gases,
Air- Water mixtures and related properties.
Real gases – Introduction, Van-der Waal’s Equation of state, Van-der Waal’s constants in terms of critical properties, Beattie-Bridgeman equation, Law of corresponding states, compressibility factor; compressibility chart.Difference between Ideal and real gases.

Course Outcomes:

• Explain thermodynamic systems, properties, Zeroth law of thermodynamics, temperature scales and energy interactions.
• Determine heat, work, internal energy, enthalpy for flow & non flow process using First and Second Law of Thermodynamics.
• Interpret behavior of pure substances and its applications to practical problems.
• Determine change in internal energy, change in enthalpy and change in entropy using TD relations for ideal gases.
• Calculate Thermodynamics properties of real gases at all ranges of pressure, temperatures using modified equation of state including Vander Waals equation, Redlich Wong equation and Beattie-

Text Books:

1. Basic Engineering Thermodynamics, A.Venkatesh, Universities Press, 2008
2. Basic and Applied Thermodynamics, P.K.Nag, 2nd Ed., Tata McGraw Hill Pub. 2002

Reference Books:

1. Thermodynamics, An Engineering Approach, YunusA.Cenegal and Michael A.Boles, Tata McGraw Hill publications, 2002
2. Engineering Thermodynamics, J.B.Jones and G.A.Hawkins, John Wiley and Sons..
3. Fundamentals of Classical Thermodynamics, G.J.VanWylen and R.E.Sonntag, Wiley Eastern.
4. An Introduction to Thermodynamcis, Y.V.C.Rao, Wiley Eastern, 1993,
5. B.K Venkanna, Swati B. Wadavadagi Basic Thermodynamics, PHI, New Delhi, 2010

For detail syllabus of all other subjects of BE Me, 2017 scheme do visit Me 3rd Sem syllabus for 2017 scheme.

Dont forget to download iStudy for latest syllabus and results, class timetable and more.