Akademik Dersler - İçerik

Comprehend basic concepts of thermodynamics .
Identify the unique vocabulary associated with thermodynamics through the precise definition of basic concepts to form a sound foundation for the development of the principles of thermodynamics.
Comprehend energy, energy transfer and general energy analysis.
Know the concept of energy and define its various forms.
Discuss the nature of internal energy.
Determine amount of energy moving of fluid passing control surface, in addition to energy transition in the form of heat and work from control surface in control volume.
Define the concept of work, including electrical work and several forms of mechanical work.
Comprehend gas turbine cycles.
Evaluate the performance of gas power cycles for which the working fluid remains a gas throughout the entire cycle.
Develop simplifying assumptions applicable to gas power cycles.
Review the operation of reciprocating engines
Analyze both closed and open gas power cycles.
Solve problems based on the Otto, Diesel, Stirling, and Ericsson cycles.
Solve problems based on the Brayton cycle.
Recognize vapor and combined power cycles.
the working fluid
Analyze cogeneration systems.
Investigate ways to modify the basic Rankine vapor power cycle to increase the cycle thermal efficiency.
Analyze the reheat and regenerative vapor power cycles.
Analyze power cycles that consist of two separate cycles known as combined cycles and binary cycles.
recognize refrigeration cycles.
Know the concepts of refrigerators and heat pumps and evaluate their performance.
Analyze the ideal vapor-compression refrigeration cycle.
Analyze the actual vapor-compression refrigeration cycle.
Review the factors involved in selecting the right refrigerant for an application.
Discuss the operation of refrigeration and heat pump systems.
Evaluate the performance of innovative vapor-compression refrigeration systems.
Analyze gas refrigeration systems.
Introduce the concepts of absorption-refrigeration systems.
Review the concepts of thermoelectric power generation and refrigeration.
Recognize chemical reactions.
Give an overview of fuels and combustion.
Apply the conservation of mass to reacting systems to determine balanced reaction equations.
Define the parameters used in combustion analysis, such as air–fuel ratio, percent theoretical air, and dew-point temperature.
Apply energy balances to reacting systems for both steady-flow control volumes and fixed mass systems.
Calculate the enthalpy of reaction, enthalpy of combustion, and the heating values of fuels.
Determine the adiabatic flame temperature for reacting mixtures.
Evaluate the entropy change of reacting systems.
Analyze reacting systems from the second-law perspective.