Sabancı Üniversitesi
Mühendislik ve Doğa Bilimleri Fakültesi
Bilgisayar Bilimi ve Mühendisliği
Understand and demonstrate key concepts of thermodynamic equilibrium, properties, states, processes and cycles, and use these concepts to derive thermodynamic relationships in p-v-T space for gases;
Understand and demonstrate key concepts of system, control volume and the control surface, and use these concepts to calculate mass flow rates, energy transfer rates;
Understand and demonstrate irreversible and reversible processes and macroscopic definition of entropy and calculate work output and efficiency of thermodynamic processes, cycles and heat engines;
Understand and demonstrate the first law principles and enthalpy to calculate temperatures, energy transfer rates, and efficiencies;
Learn to simplify realistic thermophysical systems by applying appropriate assumptions
Apply the first law of thermodynamics to the solution of open and closed analysis of processes and cycles;
Apply the second law of thermodynamics to obtain efficiency limits of heat engines.
Apply laws of thermodynamics and use properties of phase changing liquids to obtain power output and thermal efficiency of components in steam power plants and refrigeration systems
Apply laws of thermodynamics and use properties of gasses to obtain power output and thermal efficiency of components of gas power systems
ENS 207 Enerji Sistemlerine Giriş dersinden özel ders almak için bizimle iletişime geçebilirsiniz.
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