ENE102 - Fundamentals of Energy Systems Engineering (1 + 0) 1
Energy, energy systems, energy resources, fossil, renewable and nuclear sources, energy conversion and transportation, environment, climate change, carbon capture.
ENE201 - Energy Systems I (3 + 2) 9
Historical timeline of energy, future trends, basic energy principles: the three laws of thermodynamics, work, heat, temperature, energy conversion, efficiency, measuring energy, units of measure used in energy systems, forms of energy, fossil fuels, environmental concerns, global warming.
ENE203 - Thermodynamics I (3 + 0) 6
Basic concepts and definitions, properties of a pure substance, equations of state, work and heat interactions, first law of thermodynamics, internal energy and enthalpy, second law of thermodynamics, entropy, reversible and irreversible processes, thermodynamic analysis of processes, third law of thermodynamics.
ENE202 - Energy Systems II (3 + 2) 5
Technical, economical, environmental and policy aspects of renewable and alternative energy systems to provide a comprehensive picture of their role in meeting society?s needs, renewable energy sources (solar, wind, geothermal, hydrolic, biomass, wave, etc.), nuclear energy: nuclear fuels, fission.
ENE204 - Thermodynamics II (3 + 0) 5
Property relations for pure substances, ideal gases, mixture of ideal gases, and atmospheric air; steam power cycles, refrigeration cycles, spark-ignition and compression-ignition engines, and turbine cycles.
ENE302 - Heat and Mass Transfer (3 + 1) 6
Basic concepts of heat transfer, mechanisms of heat transfer (conduction, convection, radiation), steady and transient conduction, numerical methods in heat conduction, forced and natural convection, boiling and condensation, heat exchangers, radiation heat transfer, mass transfer.
ENE399 - Summer Practice I (0 + 0) 10
A minimum of thirty working days summer practice especially in the energy related sectors such as power stations, energy producing centers or producers of energy related machines or apparatus such as wind turbine, solar energy panels etc. and energy research centers.
ENE316 - Reactor Design (3 + 0) 5
Definition of the rate of reaction, the general mole balance equation, batch and continuous flow reactors, conversion and reactor sizing, rate laws and stoichiometry, the reaction rate constant, the reaction order and the rate law, isothermal reactor design, pressure drop in reactors, collection and analysis of rate data, multiple reactions, maximi
ENE409 - Fossil Energy Resources (Oil, Gas and Coal) I (3 + 0) 5
Introduction to fossil energy, global sources of oil and natural gas, petroleum and oil sands, exploration and production, petroleum refining and environmental control and environmental effects, oil shale processing, chemistry and technology, developments in internal combustion engines, gas hydrates, ethics.
ENE411 - Electrochemistry (3 + 0) 5
General electrochemical concepts; introduction to electrochemistry; thermodynamics; electrode potentials; galvanic and electrolytic cells; the cell potential of an electrochemical cell; electrode kinetics; reversible reactions; irreversible reactions; dynamic electrochemistry; mass transport; migration; convection; diffusion layers; conductivity an
ENE413 - Global Finance (3 + 0) 5
Financial and global importance of energy services and markets, benefits and barriers to liberalizing energy, integrated energy service companies, corporate financing and capital structure issues.
ENE410 - Fossil Energy Resources (Oil, Gas and Coal) II (3 + 0) 5
Definition of coal and coal properties, role of coal properties on consumption, utilization of Turkish hard coal, lignite and wastes, coal to liquids, mining, CO2 reduction, natural gas, ethics.
ENE414 - Global Energy (3 + 0) 5
Effective energy management, energy auditing, economic analysis, business environment for energy industry, technological change in business.
ENE416 - Gas Hydrates (3 + 0) 5
Hydrate types and formers; hand calculation methods; computer methods; inhibiting hydration formation with chemicals; dehydration of natural gas; combatting hydrates using heat and pressure; physical properties of hydrates, phase diagrams; water content of natural gas, the most complete guide available on natural gas hydrates.
ENE418 - Energy Laws and Regulations (3 + 0) 5
An introduction to energy law and regulation in Turkey, energy market, nuclear safety regulations, renewable energy regulations and distributed generation, environmental impact assessment regulation, smart grid.
ENE420 - Bioenergy Technologies (3 + 0) 5
Biomass as an energy source, photosynthesis of biomass, its conversion related properties, physical conversion processes, thermal conversion, synthetic oxygenated liquid fuels.
ENE422 - Optimization in Energy Systems (3 + 0) 5
Fundamentals of optimization, graphical optimization, linear and nonlinear programming, unconstrained and constrained optimization, global optimization, MATLAB applications, case studies in energy systems engineering.
ENE424 - Energy and Environment Economics (3 + 0) 5
Energy market; mechanisms, analysis, trading, costs, pricing, emissions, transmission and distribution.
ENE426 - Nuclear Technology (3 + 0) 5
Nuclear materials, nuclear power plants and their types, nuclear processes, nuclear fusion reactions, nuclear energy systems, nuclear protection and shielding, enrichment.
ENE428 - Power Plant Engineering (3 + 0) 5
Analysis and design of steam supply systems, electrical generating systems, and auxiliary systems; nuclear, fossil, hydraulic and renewable energy sources, power plant efficiency and operation.
ENE314 - Geothermal Energy Technologies (3 + 0) 5
Thermal structure of the Earth, heat transfer, geothermal systems and resources, exploration techniques, thermal energy of the oceans.
ENE421 - Hydrogen Technology (3 + 0) 5
Properties of hydrogen, production of hydrogen from fossil fuels and biomass, hydrogen as fuel, electrolysis, hydrogen storage, applications.
ENE305 - Combustion (3 + 0) 5
Gaseous, liquid, and solid fuels, thermodynamics and kinetics of combustion, adiabatic flame temperature, combustion of gaseous and vaporized fuels, combustion of liquid fuels, combustion of solid fuels.
ENE403 - Power Transmission and Distribution (3 + 0) 5
Basics of electric power system theory, electric power transmission, electric power transmission model, distribution systems and planning, lightining protection, grounding and safety, distributed generation.
ENE304 - Measurement and Instrumentation (3 + 0) 5
Importance of experiments in engineering, experimental methods, basic concepts, measurement and dynamic response; statistical analysis of experimental data, error types and error analysis, uncertainity, probability, chi-square test, least square methods, coefficient of correlation; measurement of basic electrical quantities, pressure, flow, tempera
ENE415 - Energy Storage Technology (3 + 0) 5
Basic concepts and definitions, energy storage systems and types, chemical energy storage, batteries and battery types, thermal energy storage methods, thermal energy storage and solar energy, sensible thermal energy storage, latent thermal energy storage, phase change materials, stratification in sensible heat storage systems, modeling of latent h
ENE491 - CO_OP Practice I (3 + 0) 5
Understanding energy efficiency and management technologies, the energy quality and importance of electricity, monitoring and measuring methods and energy saving.
ENE493 - CO_OP Practice II (3 + 0) 5
Renewable energy sources and alternative systems, theoretical knowledge about energy management, economics and policy in these systems, applications
ENE303 - Modeling, Analysis and Simulation (3 + 0) 5
System as an interconnection of components, component models, interconnection of components, system models: block diagrams, state equations, transfer functions, analysis of static and dynamic systems, modeling mechanical, electrical, thermal and fluid systems, simulation using SIMULINK.
ENE308 - Solar Energy Technology (3 + 1) 5
Introduction to solar energy conversions, fundamentals of solar radiation, methods of solar collection and thermal conversion, solar heating systems, solar thermal power, capturing solar energy through biomass.
ENE310 - Hydropower (3 + 0) 5
The hydropower theory, reaction turbines, hydroelectric systems, hydropower regulations and efficiency, hydroelectric energy productions.
ENE312 - Wind Energy Technologies (3 + 1) 5
Wind characteristics, wind energy, wind turbines, design of wind turbines, projecting, planning and economy, wave energy and wave energy conversion systems.
ENE412 - Fuel Cell Technologies (3 + 0) 5
Introduction: fuel cell operating principles,history,types,components and systems;fuel cell thermodynamics and electrochemistry:Nernst equation,Tafel equation,cell voltage,fuel cell efficiency and losses for operational fuel cell voltages;proton exchange membrane fuel cells:components and system, construction and performance, critical issues and recent developments;fuel cell stack design and calculations; hydrogen production, storage, safety and infrastructure; balance of fuel cell power plant
ENE430 - Energy Sytems in Buildings (3 + 0) 5
Building structure, heating, ventilation and air conditioning, the calculation of heat loss and insulation surfaces, water, fuel and electricity consumption in buildings, the national andinternational standards and regulations on energy efficiency in buildings.
ENE306 - Nuclear Energy (3 + 0) 6
Atomic energy, radioactivity, nuclear processes, neutron-atom interactions, nuclear fission and fusion reactions, basic principles of neutron diffusion theory, nuclear energy systems, nuclear heat energy and applications, nuclear power plants.
ENE401 - Energy Systems Design Project I (2 + 2) 9
A team work on research, project and design on the energy related subjects and applications.
ENE499 - Summer Practice II (0 + 0) 10
A minimum of thirty working days summer practice especially in the energy related sectors such as power stations, energy producing centers or producers of energy related machine or apparatus such as wind turbine, solar energy panels etc. and energy research centers.
ENE402 - Energy Systems Design Project II (2 + 2) 8
A team work on research, project and design on the energy related subjects and applications.
ENE406 - Energy Management (3 + 0) 6
Definition, energy audit-need,types of energy audit, energy management (audit) approach-understanding energy costs, bench marking, energy performance, matching energy use to requirement, maximizing system efficiencies, optimizing the input energy requirements, fuel and energy substitution, energy audit instruments.