Module 1
Fundamental concepts-Scope and limitations of thermo dynamics- Thermo dynamic systems – different types of systems-macroscopic and microscopic analysis-continuum-Properties-State-Processes- -Thermo dynamic equilibrium-Equation of state of an ideal gas-PVT system-Real gas-Real gas relations-Compressibility factor-Law of corresponding states.
Fundamental concepts-Scope and limitations of thermo dynamics- Thermo dynamic systems – different types of systems-macroscopic and microscopic analysis-continuum-Properties-State-Processes- -Thermo dynamic equilibrium-Equation of state of an ideal gas-PVT system-Real gas-Real gas relations-Compressibility factor-Law of corresponding states.
Module 2
Laws of thermo dynamics-Zeroth law of thermo dynamics-Thermal equilibrium-Concept of temperature –Temperature scales-Thermometry-Perfect gas temperature scales. Work and Heat-First law of thermo dynamics-concept of energy-first law for closed and open systems-specific heats- internal energy and enthalpy- Steady flow energy equation- Joule Thompson effect.
Laws of thermo dynamics-Zeroth law of thermo dynamics-Thermal equilibrium-Concept of temperature –Temperature scales-Thermometry-Perfect gas temperature scales. Work and Heat-First law of thermo dynamics-concept of energy-first law for closed and open systems-specific heats- internal energy and enthalpy- Steady flow energy equation- Joule Thompson effect.
Module 3
Second law of thermo dynamics-Various statements and their equivalence-Reversible process and reversible cycles – Carnot cycle-Corollaries of the second law-Thermo dynamic temperature scale- Clausius inequality-Concept of entropy-Calculation of change in entropy in various thermo dynamic processes-Reversibility and irreversibility-Available and unavailable energy – Third law of thermo dynamics.
Second law of thermo dynamics-Various statements and their equivalence-Reversible process and reversible cycles – Carnot cycle-Corollaries of the second law-Thermo dynamic temperature scale- Clausius inequality-Concept of entropy-Calculation of change in entropy in various thermo dynamic processes-Reversibility and irreversibility-Available and unavailable energy – Third law of thermo dynamics.
Module 4
Thermo dynamics relations-Combind first and second law equations-Helmholtz and Gibbs functions – Maxwell relations- equations for specific heats, internal energy, enthalpy and entropy – Clausius- Clapeyron equation – applications of thermo dynamic relations.
Thermo dynamics relations-Combind first and second law equations-Helmholtz and Gibbs functions – Maxwell relations- equations for specific heats, internal energy, enthalpy and entropy – Clausius- Clapeyron equation – applications of thermo dynamic relations.
Module 5
Properties of pure substances – PVT, PT and TS diagrams,Mollier diagrams- Mixture of gases and vapours-mixture of ideal gases-Dalton’s law-Gibbs law –Thermo dynamic properties of mixture-mixtures of ideal gases and vapours-Psychrometic principles-Psychrometic chart-Applications.
References
Properties of pure substances – PVT, PT and TS diagrams,Mollier diagrams- Mixture of gases and vapours-mixture of ideal gases-Dalton’s law-Gibbs law –Thermo dynamic properties of mixture-mixtures of ideal gases and vapours-Psychrometic principles-Psychrometic chart-Applications.
References
Engineering Thermodynamics – P.K.Nag
Thermodynamics – J.F.Lee and F.W.Sears.
Engineering Thermodynamics – Spalding and Cole
Engineering Thermodynamics – M.Achuthan
Thermodynamics – Keenan
Thermodynamics – Obert
Thermodynamics – Holman
Heat and Thermodynamics – M.N.Zemansky
Thermodynamics – Rogers, Pearson
Thermodynamics – J.F.Lee and F.W.Sears.
Engineering Thermodynamics – Spalding and Cole
Engineering Thermodynamics – M.Achuthan
Thermodynamics – Keenan
Thermodynamics – Obert
Thermodynamics – Holman
Heat and Thermodynamics – M.N.Zemansky
Thermodynamics – Rogers, Pearson
mg university b.tech syllabus s3 mechanical engg