UNIT 1:
Basic concepts - concept of continuum - comparison of microscopic and macroscopic approach
Path and point functions - Intensive and extensive - total and specific quantities - System and their types
Zeroth law of thermodynamics - First law of thermodynamics
application to closed and open systems
steady flow processes and its applications
Path and point functions - Intensive and extensive - total and specific quantities - System and their types
application to closed and open systems
steady flow processes and its applications
UNIT 2:
Formation of steam and its thermodynamic properties
Use of Steam Table and Mollier Chart
Use of Steam Table and Mollier Chart
T-s, h-s diagrams. P -V-T surface
UNIT 3:
Second Law of Thermodynamics
Statements of Second Law and Its Corollaries
Carnot Cycle-Reversed Carnot Cycle- Performance
Carnot Cycle-Reversed Carnot Cycle- Performance
Carnot theorem- Clausius equality – inequality
Carnot theorem- Clausius equality – inequality
ideal gases - different processes - principle of increase in entropy
UNIT 4:
Ideal and actual Rankine cycles
Ideal and actual Rankine cycles
Cycle Improvement Methods
Reheat and Regenerative cycles
Cogeneration Introduction – Binary cycle
UNIT 5:
Energy Equation -Joule -Thomson Coefficient
Clausius - Clapeyron equation and its applications.
Difference and ratio of heat Capacities
Mole and Mass fraction - Dalton’s. Properties of gas mixture
Mole and Mass fraction - Dalton’s. Properties of gas mixture