Curriculum

Course Code Course Name Credit Theoretical Lab/Practical ECTS
ENR501 ENERGY - PAST, PRESENT & FUTURE 3 3 0
ENR5X1 FREE ELECTIVE I 3 3 0
ENR5X2 FREE ELECTIVE II 3 3 0
ENR5X3 FREE ELECTIVE III 3 3 0
ENR5X4 FREE ELECTIVE IV 3 3 0
Course Code Course Name Credit Theoretical Lab/Practical ECTS
ENR502 TECHNO-ECONOMICAL ANALYSIS OF ENERGY APPLICATIONS 3 3 0
ENR580 TERM PROJECT 0 0 0
ENR5X5 FREE ELECTIVE V 3 3 0
ENRXX6 ELECTIVE 3 3 0
ENRXX7 ELECTIVE 3 3 0
ENRXX8 ELECTIVE 3 3 0
Course Code Course Name Credit Theoretical Lab/Practical ECTS
ENR533 FUNDAMENTALS OF ENERGY SYSTEMS OPTIMIZATION 3 3 0
EMN525 RESEARCH METHODS 3 3 0
ENR521 INTERMEDIATE FLUID MECHANICS 3 3 0
ENR527 MODERN ECONOMIC ISSUES IN ENERGY SYSTEMS 3 3 0
ENR302 HEAT AND MASS TRANSFER 0 0 0
ENR306 ENERGY SYSTEMS II 0 0 0
ENR507 SOLAR POWER DESIGN 3 3 0
ENR522 INTERMEDIATE HEAT AND MASS TRANSFER 3 3 0
EMN502 TOTAL QUALITY MANAGEMENT 3 3 0
CVL331 FLUID MECHANICS 0 0 0
ENRE537 DESIGN OF ZERO EMISSION 100% RENEWABLE CITIES 3 3 0
ELE581 SOLAR - THERMAL ENERGY AND ITS APPLICATIONS 3 3 0
EMN501 PRODUCTION PLANNING AND SCHEDULING 3 3 0
EMN514 PRODUCTION AND INVENTORY THEORY 3 3 0
EMN517 OPERATIONS RESEARCH TECHNIQUES 3 3 0
EMN560 ENGINEERING ETHICS 3 3 0
ENVE523 INDUSTRIAL WASTE TREATMENT 3 3 0
The source, characteristics and treatment techniques of wastewater generated from various industries. The caracterization of industrial wastewater, purpose of treatment and regulations. The detection of the wastewater amount. Waste minimization by changing the processes. Modeling the flow and variability of wastewater. Equalization and flow design. The design of unit processes including physical, chemical and biological processes. Liquid-solid separation by sedimentation, DAF, and filtration. The investigation of wastewater treatment plant process flow diagrams of selected industries.
ENVE509 ADVANCED AIR POLLUTION 3 3 0
This course is about air pollution effects, measurements, emission estimates, meteorology and modeling. Topics covered are air pollution meteorology; physical and thermodynamic properties of the atmosphere, equations of motion, hydrostatic equation, continuity equation, geostrophic approximation, atmospheric stability and inversions / air pollutant concentration models; fixed-box models, diffusion models.
ENR512 INTEGRATION OF RENEWABLES 3 3 0
ENR514 ADVANCED GAS TURBINES 3 3 0
ENR301 THERMODYNAMICS 0 0 0
ILE232 ENGINEERING ECONOMY 0 0 0
ENRE534 POWER GENERATING SYSTEMS 3 3 0
This course focuses on to provide students with the understanding of energy generating systems and their working principles. The topics of steam power plants, power generation, steam cycle (Rankine cycle, Kalina cycle, combined gas and steam cycles) including the Brayton cycle, economics of power cycles, fuels and combustion; including solid, liquid and gases fuels, steam generators, steam turbines, gas turbines and the circulating water systems will be discussed in greater depth and complexity than is done in undergraduate courses. Design of economizers and feed water heaters, condensing systems, fuel preparation methods, water treatment, environmental concerns, location of plants will also be discussed. Power transmission systems will be introduced as part of the course.