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Related lectures (26)
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Thermal Machines: Carnot Cycle and Efficiency Principles
Discusses the Carnot cycle, thermodynamic temperature, and the efficiency of thermal machines, including real and ideal models.
Stirling Engine: Practical Realization and Applications
Explores the practical realization and applications of Stirling engines, highlighting their advantages and challenges.
Stirling Cycle: Basics and Practical Realization
Covers the Stirling cycle, proposed by R. Stirling in 1816, involving two isotherms and two isochores, and its practical realization.
Thermal Machines: Carnot Cycle and Efficiency
Discusses the Carnot cycle, its efficiency, and the principles of thermal machines in thermodynamics.
Thermodynamic Cycles: Carnot Cycle and Heat Pumps
Explores the Carnot cycle, heat pumps, and efficiency in thermodynamic processes.
Business-IT Alignment: Frameworks and Solutions
Explores key frameworks and solutions for business/IT alignment, emphasizing the importance of minimizing unintended consequences of change.
Stirling Cycle
Explores the Stirling cycle, a thermodynamic process with continuous combustion and versatile fuel options, suitable for refrigeration and heat pump applications.
Thermodynamics: Thermal Machines and Carnot Cycle
Discusses thermal machines, focusing on the Carnot cycle and its efficiency in thermodynamics.
Carnot Cycle: Efficiency and Reversibility
Explores the Carnot Cycle's efficiency, reversibility, and entropy in thermodynamics.
What is an energy system - Conversion
Discusses conversion technologies for transforming energy from one form to another.
Electrochemical Thermodynamics: Efficiency and Potentials
Explores electrochemical thermodynamics, efficiency, potentials, and their practical applications in fuel cells and non-standard conditions.
Stirling Cycle: Principles and Calculations
Explores the Stirling cycle, its efficiency, practical implementation, historical context, and modern applications in refrigeration technology.
Phase Coexistence: Gas Stability and Entropy
Explores phase coexistence, gas stability, and entropy in relation to the Van der Waals equation and phase diagrams.
Thermodynamic Machines: Basics
Covers the basics of thermodynamic machines, including categories, combustion modes, and efficiency.
Thermodynamic Cycles: Efficiency & Otto Cycle
Covers thermodynamic cycles, efficiency, and the Otto cycle in heat engines and thermal machines.
Stirling Cycle: Practical Implementation
Explores the practical implementation of the Stirling cycle and its efficiency calculations.
Heat Pumps: Thermodynamics
Explains heat pumps, engines, work, COP, and efficiency in thermodynamics.
Thermodynamic Cycles: Efficiency and Optimization
Explores thermodynamic cycles, focusing on Rankine cycle efficiency and optimization strategies for mechanical power production.
Thermodynamics: Internal Combustion Engine Cycles
Discusses thermodynamics in internal combustion engines, focusing on the four-stroke cycle and comparing Otto and Diesel cycles.
Thermodynamics: Second Principle and Engine Efficiency
Explains the second principle of thermodynamics and its impact on engine efficiency.
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