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Lecture
Exergy Analysis: Concepts and Applications
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Related lectures (22)
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Thermodynamics: Adiabatic Transformations and Cyclic Processes
Discusses adiabatic transformations, cyclic processes, and the efficiency of thermodynamic cycles in ideal gases.
Thermodynamics: Energy Conversion and System Analysis
Covers the basics of thermodynamics, focusing on energy conversion systems and the principles governing heat to work conversion.
Entropy and the Second Law of Thermodynamics
Covers entropy, its definition, and its implications in thermodynamics.
Thermodynamics Basics
Introduces the fundamental concepts of thermodynamics, including energy conservation, system definitions, and different forms of work.
Thermodynamic Systems: Basics
Covers the basics of thermodynamic systems, energy transfer, state functions, forms of work, and energy conservation.
Geothermal Energy Systems: Principles and Applications
Provides an overview of geothermal energy systems, covering thermodynamic principles, heat pump technologies, and the classification of geothermal reservoirs.
Thermodynamic Functions and Calorimetric Coefficients
Discusses thermodynamic functions, calorimetric coefficients, and their relationships in physical systems.
Energy Conservation and Thermodynamic Cycles
Explores energy conservation in closed systems and the significance of thermodynamic cycles, emphasizing performance and efficiency.
Thermodynamic Functions and Equilibria: Mathematical Tools
Discusses thermodynamic functions, their mathematical tools, and key relationships between state variables in thermodynamics.
Thermodynamics: System, Surface Actions, and Typology
Covers thermodynamic systems, surface actions, and system typology with examples.
Thermodynamic Transformations: Heat and Work Principles
Explains thermodynamic transformations, focusing on heat, work, and energy principles.
Thermodynamics and Energetics I
Explores fundamental thermodynamics concepts, laws, energy transfer, and system analysis.
Thermodynamics: Basics and Power Cycles
Explores thermodynamic basics, power cycles, and renewable energy applications.
Exergy and Thermodynamics
Explores exergy, entropy, and thermodynamic efficiencies in closed and open systems.
Thermodynamic Systems: First Principle and Applications
Covers thermodynamic systems, the first principle, and their applications in physics.
Thermodynamics: Entropy and Ideal Gases
Explores entropy, ideal gases, and TDS equations in thermodynamics, emphasizing the importance of the Clausius inequality and the Carnot cycle.
Thermodynamics: Exploring Thermodynamic Potentials and Equilibrium States
Covers thermodynamic potentials and their role in system equilibrium with reservoirs.
Thermodynamic Processes and Carnot Cycle
Explores the Carnot cycle, ideal gas processes, and thermal equilibria.
Entropy and the Second Law of Thermodynamics
Discusses entropy and the second law of thermodynamics, focusing on reversible processes and their implications in thermodynamic systems.
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