Engineering Thermodynamics
Unlock the Mysteries of Thermodynamics: From Fundamental Laws to Real-World Applications! Dive into the science behind energy transfer, explore key concepts, and master the efficiency of mechanical systems with "Engineering Thermodynamics.
4.0
(1)
10 learners
What you'll learn
- Understand the fundamental laws and principles of thermodynamics.
- Apply energy balance concepts to various thermodynamic systems.
- Analyze the efficiency and processes of power and refrigeration cycles.
- Evaluate the implications of the second law of thermodynamics and entropy.
This course includes
- 20.3 hours of video
- Certificate of completion
- Access on mobile and TV
Course content
1 modules • 58 lessons • 20.3 hours of video
Comprehensive Guide to Engineering Thermodynamics Principles
58 lessons
• 20.3 hours
Comprehensive Guide to Engineering Thermodynamics Principles
58 lessons
• 20.3 hours
- Fundamental laws of nature, system definitions and applications 17:55
- Thermodynamic property, state, equilibrium and process 15:41
- Temperature scale and pressure 27:31
- Macroscopic and microscopic forms of energy 19:51
- Different forms of work, energy transfer and sign convention 11:44
- First law of thermodynamics and energy balance 16:17
- Efficiency of mechanical and electrical devices 23:50
- Examples on basic concept and energy balance 24:26
- Phase change of a pure substance 18:30
- Property diagrams of pure substances 24:30
- Thermodynamic properties of a pure substance from a property table 22:34
- Thermodynamic properties of a pure substance 12:41
- Equations of state and compressibility chart 20:21
- Examples on properties of pure substances 30:53
- Quasi equilibrium, moving boundary work 16:18
- Polytropic process 11:25
- Energy analysis of closed system and unrestrained expansion 22:48
- Internal energy, enthalpy, and specific heats of ideal gas 20:21
- Internal energy, enthalpy, and specific heats of solids and liquids 21:34
- Examples on energy balance for closed systems and moving boundary work 41:01
- Conservation of mass and steady flow processes 21:17
- Flow work and energy of flowing fluid 19:51
- Energy balance for steady flow devices 23:57
- Throttling valve, mixing chamber and heat exchanger 18:55
- Energy analysis of steady and unsteady flow devices 15:43
- Examples on mass and energy analysis of open systems 26:07
- Second law of thermodynamics, heat engine and cyclic devices 17:29
- COP of refrigerator and heat pump, second law statements 12:34
- Perpetual motion machines, reversible and irreversible processes, Carnot cycle 14:57
- Carnot principles, thermodynamic temperature scale, Carnot HE and HP 24:30
- Examples on second law of thermodynamics 21:48
- Clausius inequality, application of second law 20:33
- Entropy, increase in entropy principle, isentropic process 20:58
- Change in entropy of solids, liquids and ideal gases 25:09
- Reversible flow work, multistage compressor, efficiency of pump and compressors 24:45
- Entropy balance in closed system and control volume 15:36
- Examples on entropy change in a system 28:44
- Exergy and second law efficiency 21:04
- Exergy of a fixed mass and flowing stream 19:02
- Exergy transfer due to heat, mass and work, exergy destruction 21:09
- Exergy balance and second law efficiency for closed systems and steady flow devices 17:47
- Examples related to exergy change and exergy destruction 48:40
- Gas power cycles and air-standard assumptions 16:55
- An overview of reciprocating engines and otto cycle 13:16
- Analysis of Diesel cycle 06:45
- Analysis of Brayton cycle 25:35
- Examples on gas power cycles such as Otto, Diesel and Brayton 28:22
- Rankin and Carnot vapour power cycles 16:19
- Ideal regenerative Rankin cycle and combined gas-vapour cycle 25:18
- Refrigeration cycles 21:52
- Examples on vapour power cycles 23:56
- Thermodynamic property relations: Gibbs equation, Mnemonic diagrams and reciprocity relations 21:21
- Thermodynamic property relations: Clapeyron equation and Maxwell relations 12:59
- Thermodynamic property relations: Joule-Thomson coefficient and cyclic relations 23:45
- Combustion and conservation of mass in a chemical reaction 16:09
- Energy balance for reacting systems 17:13
- Enthalpy of formation and combustion, adiabatic flame temperature 27:57
- Examples on property relations and reaction thermodynamics 25:51
Related learning topics
Take this course with you
Download the app to continue lessons from your phone anytime.
