Akademik Dersler - İçerik

comprehend thermodynamic introduction and basic concepts.
Learns the application areas of thermodynamics.
Understands the importance of dimensions and units.
Have general information about systems.
Learns problem solving technique.
comprehend energy, energy transfer and general energy analysis.
Explain the forms of energy.
Explains energy transitions through heat and work.
introduce the concept of a pure substance
Defines pure substance and phases of pure substances.
Draws T-v and P-v diagrams for phase change operations.
Learns to use thermodynamic property tables.
comprehend energy analysis of closed systems.
Learns moving boundary work.
Analyse the first law of thermodynamics for closed systems.
Associates internal energy and enthalpy changes of perfect gases with specific heat.
Defines specific heat at constant volume and specific heat at constant pressure.
recognize mass and energy analysis of control volumes.
Understands the principle of conservation of mass.
Learns the flow work and the energy of the fluid.
Understand the transfer of energy by mass.
Applies energy analysis in continuous flow open systems.
Solves energy problems for flow arrangements such as nozzles, diffusers, compressors and turbines.
describe the second law of thermodynamics.
Defines thermal energy storage, reversible state change, irreversible change of state, heat machines and cooling machines.
Defines the expressions Kelvin-Planck and Clausius.
Learns the Carnot cycle and Carnot principles.
describe entropy.
Learns entropy and the principle of entropy increase.
Calculates entropy changes.
Calculates isentropic efficiencies of continuous flow systems.
comprehend gas turbine cycles.
Gains general information about gas fluid power cycles.
Learns the difference between real gas turbine cycle and ideal gas turbine cycle.
Understands the Brayton cycle and solves questions.