Introduction; Microscopic and macroscopic viewpoints in thermodynamics; Fundamental concepts of system, control volume, state
properties, equilibrium, processes etc,Zeroth law;
Survey of units and dimensions; forms of energy and energy interaction; heat and work; State postulate; thermodynamic properties of
pure substance in solid, liquid and vapour phases; P-V-T behaviour of simple compressible substances; phase rule; thermodynamic
property tables and charts; ideal and real gases; equations of state; compressibility factor; generalised compressibility chart; First law of
thermodynamics for closed loop system, internal energy and enthalpy; First law for control volumes, Steady flow and unsteady flow
applications. Process calculations for ideal and real gases using equations, tables and charts.
Definitions of Heat Engine, Heat Pump, Thermal efficiency, COP; Carnot cycle.
Second Law of thermodynamics; Statements and corollaries; entropy; concept of reversibility and irreversibility.
Second law analysis of Control volumes; concept of entropy generation, reversible work, Availability and Irreversibility.
Tds relations; Maxwell equations; Clapeyron equation; Clausius Clapeyron equation, Joule Thompson coefficient; compressibility and
expansion coefficient, development of property data in graphical and tabular form.