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Energy Systems Engineering

SEMESTRE 1

MT111Calculus IPreReq.:-Credit:4
Real numbers, functions, and graphs; limits and continuity; the derivative and differentiation; extreme function values, techniques of graphing, and the exact differential.

PS111General Physics IPreReq.:-Credit:3
Introduces classical mechanics. Space and time: straight-line kinematics; motion in a plane; forces and equilibrium; experimental basis of Newton's laws; particle dynamics; universal gravitation; collisions and conservation laws; work and potential energy; vibrational motion; conservative forces; inertial forces and non-inertial frames; central force motions; rigid bodies and rotational dynamics.

CH101General ChemistryPreReq.:-Credit:3
Matter and measurements; Atom, molecules and ions. Stochiometry, the mole, mass relations in chemistry reactions; gases, kinetic theory of gases; electronic structure and the Periodic Table, quantum numbers, energy levels and orbitals. Covalent bonding, thermo-chemistry, calorimetry, bond energy, firs law of thermodynamics, liquids and solids, molecular substances, phase diagrams, types of solutions, concentration units, acid-base model, water dissociation constant, pH and pOH; Alkanes and alkenes, aromatic hydrocarbonates and their derivatives, functional groups, synthetic organic polymers, nuclear reactions, nuclear stability and radioactivity, nuclear fission, nuclear fusion.

ENG101Introduction to ComputersPreReq.:-Credit:3
An introduction to basic aspects of computing, operating systems, computing environments, networks and tools. This course provides a background of tools using DOS and Windows environments for word processing, spreadsheets and databases.

ENG103Computer Aided DesignPreReq.:-Credit:3
Understanding the purposes and commands of AutoCAD, creating new shapes altering them and adding new entities to them. Modifying objects placing notes and specifications on objects, drawing solid objects, Isometrics, The user co-ordinate system, 3D commands, solid bock building, plotting AutoCAD drawings.

TURK001Turkish IPreReq.:-Credit:0
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TFL101Turkish as Foreign Lang. IPreReq.:-Credit:0
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SEMESTRE 2

MT112Calculus IIPreReq.:MT111Credit:4
The definite integral and integration; computing areas; application of the definite integral; inverse functions, and exponential functions; and inverse trigonometric functions, and hyperbolic functions. Computing anti derivative, rational functions. (Prerequisite: MT111)

MT104Linear AlgebraPreReq.:-Credit:3
This course deals with subjects such as system of linear equations, matrices, determinants, introduction to eigenvalues and eigenvectors, dot product, cross product, vector spaces and linear transformations.

PS112General Physics IIPreReq.:PS111Credit:3
Introduction to electromagnetism and electrostatics: electric charge, Coulomb's Law, electric structure of matter, conductors and dielectrics. Gauss's Law, Concepts of electrostatic field and potential, electrostatic energy. Electric currents, magnetic fields and Ampere's law. Magnetic materials. Time-varying fields and Faraday's law of electromagnetic induction; magnetism and matter; basic electric circuits; AC circuits and resonance; Electromagnetic waves and Maxwell's equations. (Prerequisite: PS111)

ENG102Computer Programming IPreReq.:ENG101Credit:3
In this computer programming course, students learn how to solve problem using computers. The concept and notation of algorithms. Problem analysis, development of algorithms and their implementation in a procedure-oriented language. Topics include the integrated programming environment (editing, computing, debugging), data types, operators, input/output structured programming, program control, passing parameters and arrays.

ENG106Fundamentals of Industrial EngineeringPreReq.:-Credit:3
Introduction to Industrial Engineering (IE), brief history of IE, related disciplines, production systems design, production systems design, production systems control, quality control, total management, operations research, decision sciences and systems.

TURK002Turkish IIPreReq.:-Credit:0
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TFL102Turkish as Foreign Lang. IIPreReq.:-Credit:0
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SEMESTRE 3

MT211Calculus IIIPreReq.:MT112Credit:4
Calculus of several variables, emphasising applications. Vector algebra, partial differentiation, multiple integrals, and vector calculus. Infinite series, and power series. (Prerequisite: MT 112)

MT207Probability TheoryPreReq.:-Credit:3
Theoretical definition of probability, various examples for probability, counting techniques, conditional probability, Bayes theorem, tree diagrams. Discrete and continuous probability distributions, mathematical expectation, standard normal distribution. Introduction to inferential statistics. Organising data, calculating mean, standard deviation, mode, median and range.

ENG201Fundamentals of Electrical EngineeringPreReq.:-Credit:3
The Physical foundation of electric circuits. Electric current, electromotive force (voltage), resistance, DC and AC, Ohms law. Power and energy. Real and ideal sources. Circuit analysis of resistive networks: Kirchhoffs voltage and current laws, voltage-divider rule, the current-divider rule ,wye-delta transformations, voltage and current source conversions, mesh-current analysis, nodal analysis. Network theorems: superposition theorem, The venin theorem, Norton theorem, maximum power transfer theorem. Transients in RC, RL and RLC circuits. AC waveform, period and frequency. AC values. AC voltage and current in capacitors and inductors. Sinusoidal steady-state analysis and power calculations. Mutual inductance and transformers.

ENG203Computer Programming IIPreReq.:ENG102Credit:4
A continuation of the development of discipline in program design, implementation and in programming style. Topics include algorithms, recursion, and classical data structures. An additional language will be introduced.

ENE201Introduction to Fluid MechanicsPreReq.:PS112Credit:4
Definitions, physical properties. Hydrostatics, forces on plane and curved surfaces, buoyancy, hydrostatics in moving and rotating containers. Lagrangian and Eulerian descriptions, derivatives, rate of deformation, flow lines. System and control volume approach, Reynolds transport theorem, principles of conservation of mass, momentum and energy, Bernoulli equation. Dimensional analysis.

SEMESTRE 4

MT212Enginnering MathematicsPreReq.:MT211Credit:3
Vector calculus. Orthogonal co-ordinate systems, Cylindrical and Spherical co-ordinates. Line, Surface, and Volume Integrals, Divergence and Stokes' theorems. Complex numbers, and the theory of functions of a complex variable. Fourier series and boundary value problems. (Prerequisite: MT211)

MT206Differential EquationsPreReq.:MT112Credit:4
Study of ordinary differential equations. Standard solution methods for first-order equation. Higher-order forced linear equations with constant coefficients. Complex numbers; Laplace transform. Matrix methods for first-order linear systems with constant coefficients. Series solutions to second-order equations. Fourier series solutions. (Prerequisite: MT112)

ENG202Physical ElectronicsPreReq.:ENG201Credit:3
Overview of basic semiconductor mechanisms. The electronics of metal-semiconductor contacts, pn junctions, bipolar transistors, and MOS field-effect transistors. Properties that are significant to device operation for integrated circuits.

ENG204Introduction to Modelling and OptimizationPreReq.:-Credit:3
A general overview of operations research, with selected applications from engineering and management systems and interdisciplinary areas. The methodology of mathematical modelling and its relation to problems in industrial, commercial and public systems. Introduction to linear programming: the simplex method, duality, sensitivity analysis and related topics. Network models and project scheduling.

ENE202Principles of Energy Systems EngineeringPreReq.:ENG201Credit:4
This course studies energy systems which utilize various energy sources including both renewable and non-renewable fuel. System components and operations of thermal, hydropower and nuclear generating stations, as well as biofuel reactor, fuel cell, wind turbine, solar electric and solar thermal power. Sustainability of energy sources, cost-benefits and their social acceptability.

SEMESTRE 5

ENE301Electromechanical Energy ConversionPreReq.:ENE202Credit:4
Electromagnetic circuits; properties of ferromagnetic materials. Single-phase and three-phase transformers. Per Unit System. Principles of electromechanical energy conversion: Linear and nonlinear systems; singly and multiply excited, translational and rotational systems. DC machines: Theory, generators, motors, speed control.

ENE303Alternative Energy TechnologiesPreReq.:CH101Credit:4
Develop an understanding of the alternative energy sources and their uses. Now more relevant than ever, Alternative Energy covers the basics of electricity, how to generate electricity from renewable resouces, how to store energy, non electrical systems, energy consumption and conservation. Learn to understand why alternative and renewable energy is so important and how to go about it.

EEN305Electrical Measurement and Inst.PreReq.:ENG201Credit:3
Errors theory, accuracy analysis and evaluation. System of units. Standards. Measuring methods and procedures. Electromechanical instruments. Instrument transformers. Potentiometers DC and AC bridges. Oscilloscopes. Electronic and Digital instruments. Transducers and sensors.

ENE305Petroleum and Natural Gas Tech.PreReq.:ENE201Credit:4
The course provides a comprehensive grounding in all aspects of the oil and gas industry. After a broad overview of the distribution of petroleum resources and the organisations that constitute the industry, it introduces the techniques used to detect and assess the commercial viability of deposits. Next, it looks at the extraction process and the technologies used to process, store, transport and refine oil and gas. Finally, it explores the processes of selling, trading and marketing gas and petroleum products, before finishing with a survey of environmental and geopolitical risks and opportunities, and an assessment of the industry's future.

TELTechnical ElectiveCredit:3

SEMESTRE 6

ENE302Renewable Energy TechnologiesPreReq.:ENG202Credit:3
The course content includes: energy technology, renewable energy in a sustainable future, the physics and science behind climate change, and why renewable energy is necessary for the future. Students will understand different types of renewable energy technology, how they work, their advantages, disadvantages, and limitations. The types of renewable energy and technology studied include: wind energy, solar (thermal and photovoltaic), hydro-electric, bio-energy, tidal power, wave energy, geothermal energy, ocean thermal, fuel cells, heat pump systems, and high voltage DC energy transport. The availability and integration of these energy types and technologies are also studied to understand how renewables can work as a compliment to and replacement for conventional technologies.

ENE306Electr. Energy Trans. and Dist.PreReq.:ENE202Credit:4
Overhead lines and underground cables; transformers; generators and excitation systems; transmission system steady-state operation; control of power and frequency; control of voltage and reactive power; power system faults analysis; fundamentals of power system stability; substations and protection; power system economics and management.

ENG304Engineering EconomyPreReq.:-Credit:3
Importance of engineering economy in industrial practice. Engineering economy related concepts, Present value of money, compound interest formulas, present worth methods, payback period, internal rate of return, capital cost, Benefit/cost rate, evaluation of alternative investment projects, mathematics of inflation, risk analysis.

MT308Numerical AnalysisPreReq.:MT112Credit:3
Errors and accuracy; polynomial approximation; interpolation; numerical differentiation and integration; numerical solution of differential equations; least square and minimum - maximum errors approximations; non-linear equations; eigenvalues and eigenvectors of matrices. (Prerequisite: MT112)

TELTechnical ElectiveCredit:3

SEMESTRE 7

ENE401Graduation Project IPreReq.:-Credit:3
Students prepare projects for graduation in the final semester in the most important fields such as alternative energy sources, solar energy, power generation and control in the different fields of energy engineering.

ENE403Power Electronics and Motion Cnt. Sys.PreReq.:ENE202Credit:4
This corse examines the application of electronics to energy conversion and control. Topics covered include: modeling, analysis, and control techniques; design of power circuits including inverters, rectifiers, and DC-DC converters; analysis and design of magnetic components and filters; and characteristics of power semiconductor devices. Numerous application examples will be presented such as motion control systems, power supplies.

ENE405Energy and EnvironmentPreReq.:-Credit:3
This course explores the connections between energy and environment policy. The role that energy plays in our modern world. The basic grounding in the physical, environmental, technological, economic and political aspects of energy systems. Calculation the energy content of a wide variety of systems such as speeding cars, toasty houses and hot tubs, wind, solar illumination, gasoline, and hot dogs. We will apply these concepts to the various energy production schemes and usages found in our lives. Today's dominant energy sources, supply lifetimes, alternative energy sources, environmental impacts, and the future of energy in our world. This semi-quantitative course is meant to provide a scientific foundation for understanding the energy issues so that the student will be able to make informed decisions regarding-or even participate in-the ongoing debate surrounding this important societal issue

TELTechnical ElectiveCredit:3

FELFree ElectiveCredit:3

NH001National History IPreReq.:-Credit:0
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SEMESTRE 8

ENE402Graduation Project IIPreReq.:ENE401Credit:3
Students prepare projects for graduation in the final semester in the most important fields such as alternative energy sources, solar energy, power generation and control in the different fields of energy engineering.

ENE404Energy SavingPreReq.:-Credit:3
Types, combustion in boilers, performances evaluation, analysis of losses, energy conservation opportunities. Boiler efficiency calculation, evaporation ratio and efficiency for coal, oil and gas. Steam System : Properties of steam, steam leakages, steam trapping, condensate and flash steam recovery system, identifying opportunities for energy savings. General fuel economy measures in furnaces. Induction furnace, performance evaluation of a furnace. Cogeneration : Definition, need, application. Waste Heat Recovery : Classification, advantages and applications, commercially viable waste heat recovery devices, saving potential. Energy Efficiency in Electrical Utilities : Electric motors, Aircompressors, reciprocating vs screw, compressor efficiency, efficient compressor operation, leakage test, factors affecting the performance and savings opportunities. Lighting System : Choice of lighting, luminance requirements, and energy conservation avenues. Energy conservation in Buildings:building envelope, insulation, lighting.

TELTechnical ElectiveCredit:3

TELTechnical ElectiveCredit:3

FELFree ElectiveCredit:3

NH002National History IIPreReq.:-Credit:0
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 TECHNICAL ELECTIVES

CEN407Introduction to Web DesignPreReq.:-Credit:3
Web design and programming course is a very comprehensive, detailed course that teaches how to plan, organize, and create a web site from start to finish in both aspect of web programming and design. The course places a heavy emphasis on individual page design and layout. Using some very powerful techniques taught in this course, learners will learn how even the most simplest of pages can be arranged to look more appealing and professional! By the end of this course, through a formal introduction to both an authoring software application and basic Hypertext Markup Language (HTML), students will have created a well-designed web site while having fun along the way. Also students will introduce to PHP and they will develop some PHP applications, especially database connection and modifying data retrieve from database.

CEN410Computer NetworksPreReq.:-Credit:3
Computer Networks Local Area Network, High-speed and bridged local area networks, Wide area networks, Internetworking and, Open systems, topics covered in this course.

CEN415Data CommunicationsPreReq.:-Credit:3
Data communication networks and open system standards. The electrical interface. Data transmission. Protocol basics. Data link control protocols.

CEN428Introduction to Neural NetworksPreReq.:-Credit:3
This course introduces, in qualitative terms, what neural networks are, their properties and compositions. For the simplest class of neural networks, the least-mean-square algorithm (LMS) and the perceptron are examined. The multilayer perceptrons trained with the back-propagation algorithm and another class of layered neural networks, namely radial-basis function networks is introduced. The mathematical modelling of self-organizing maps and also the recurrent network architecture will be given.

CEN459BiometricsPreReq.:-Credit:3
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CEN465Image ProcessingPreReq.:-Credit:3
Overview of the concepts and techniques in image processing. Students get familiarized with various applications in the area of image processing and computer vision

CEN470Artificial IntelligencePreReq.:-Credit:3
Consideration of processes by which machines simulate intelligence; heuristic and algorithmic processes in problem solving, and programming machines for simple operations; models of cognitive processes; applications and limitations of machine intelligence. Examples of algorithms and their LISP or PROLOG implementations. Historical foundations, The Turing test, Knowledge representation methods, Structure for state space search, Languages and Programming Techniques for AI, Understanding of Natural Language, First order predicate logic, Reasoning, Inferencing, and Introduction to the Sub-techniques of AI: Expert systems, Neural Network, Fuzzy set and Systems.

CEN479Introduction to CryptographyPreReq.:-Credit:3
Cryptanalysis Methods and Encryption/Decryption Techniques, starting from first known technique to nowadays will be examined. Course can be separated to three main titles which can also be listed chronologically as,(i) Classical Techniques(ii) Data Encryption Standards(iii) Advanced Encryption Standards.

CEN488Python ProgrammingPreReq.:-Credit:3
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CEN494Applied Scientific ComputingPreReq.:-Credit:3
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CVEN473Energy Efficiency in BuildingsPreReq.:-Credit:3
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CVEN475Energy ManagementPreReq.:-Credit:3
Energy Situation - Global & National. Understanding energy bills. Economic evaluation.Lighting Systems evaluation.Heating Systems evaluation.Ventilation, and air conditioning systems.Combustion process and the industrial waste.Steam generation & distribution.Control systems & computers. Insulation for minimizing energy.Process energy management.Sustainable energy managements & systems.

EEN303Circuit TheoryPreReq.:-Credit:3
The First order Circuits, Step and Natural responses of of RL/RL circuits, Sinusoidal Steady State Analysis, Sinusoidal steady state power calculations. Laplece transforms in circuit analysis, trsnsfer functions (Prerequisite: ENG201)

EEN416Mobile CommunicationsPreReq.:-Credit:3
This course covers the fundamentals of wireless cellular/mobile/personal communications, systems. The topics covered include: radio propagation, digital modulation, and error control; access methods: spread spectrum, FDMA and TDMA; antenna diversity, multi-input, multi-output systems.

EEN419Digital Integrated Circuit DesignPreReq.:-Credit:3
Plot the voltage transfer curve and extract the static parameters and noise margins of a given MOS inverter, build the transistor-level logic gate realizing a given Boolean function, calculate the propagation delays and rise/fall times of a given MOS inverter or gate, design transistor-level combinational and sequential digital circuits using classical (standard CMOS) as well as alternative approaches (transmission gates, dynamic logic), determine the static and dynamic power consumption of a given MOS inverter or gate, analyze and design MOS memory cells (ROM, SRAM, DRAM)

EEN420PLC's and AutomationPreReq.:-Credit:3
Role of digital systems in automation. PLC as a microcomputer. Ladder diagrams and programming. PLC interfacing

EEN423Robotics IPreReq.:-Credit:3
Introducing the fundamentals of mechanics and control of robot manipulators. Provide the student the knowledge to model a robotics system. Teach the essential robot applications used in industrial processes

EEN440Computer Hardware and ApplicationsPreReq.:-Credit:3
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EEN441Digital Signal ProcessingPreReq.:-Credit:3
Overview of digital signals and systems. Frequency and time representation of sampling, decimation, interpolation. Z-transform: Evaluation, region of convergence (ROC) and properties. Discrete time system structures: tapped delay line and lattice structures. Fast Fourier Transform (FFT). Digital filter design: Finite impulse response (FIR), infinite impulse response (IIR), windowing, Hilbert transform.

EEN445Digital CommunicationsPreReq.:-Credit:3
Block diagram description of cellular communication; digital communication; data compression; Huffman coding; source coding theorem; universal source coding; scalar and vector quantisation; digital modulation and demodulation; detection of digital data from vectors and waveforms; the Hilbert space of signals; the Chernoff and Bhattacharyya bounds; error correction coding; the Viterbi algorithm; multi-access schemes such as Time Division Multiple Accessing, Code Division Multiple Accessing, and frequency hopping. (Prerequisite: EEN441)

EEN446Satellite CommunicationsPreReq.:-Credit:3
Introduction to satellite communication systems, transponder characteristics, modulation for non-linear satellite channels, filtering, satellite link design, link budget calculations, mobilesat - mobile terminal characteristics. Propagation characteristics of fixed and mobile satellite links, channel modelling. Digital modem design, speech codec design. Antennas, Satellite-based cellular systems. Error control codec design, multiple-access techniques

EEN465Image ProcessingPreReq.:-Credit:3
The course is designed to give the students all the fundamental concepts in digital image processing with emphasis in filtering, enhancement, restoration, compression, segmentation and recognition of images. A student, after successfully passing this course will be able to understand the fundamental components of image processing including image sensing, acquisition, sampling and quantization, pixel-based image operations, develop methodologies for image enhancement in spatial and frequency domains, perform conversion from one color space to the other for different applications, understand the image compression techniques and use information theory for lossy and error-free compression and use morphological operations for image processing applications.

EEN469Principles of LightingPreReq.:-Credit:3
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EEN474Power ElectronicsPreReq.:-Credit:3
Power Switching Theory, Devices and Applications; switching aids, stability, isolation techniques, adjustable D.C. motor speed control PWM principles and applications.

EEN475Electrical MachineryPreReq.:-Credit:3
Electromagnetic Circuits. Properties of ferromagnetic materials. Single-phase and three-phase transformers. Principles of electromechanical energy conversion. Linear and non-linear systems. Singly and multiply excited electrical machines. Electromagnetic fields created by AC electric machine windings: pulsating and rotating machines, equivalent circuit, and steady-state analysis. Synchronous machines: equivalent circuit, steady-state analysis. DC machines. (Prerequisite: EEN347)

EEN481Microwave CircuitsPreReq.:-Credit:3
Transmission line equations, Smith chart, impedance matching techniques, scattering parameters, transfer parameters, directional couplers, and cavity resonators. Wave propagation in metal waveguides and dielectric wave-guides; optical fibres, optical integrated circuits, and applications to optoelectronic systems. Selections from periodic propagating structures, coupled mode devices, and high-speed circuits for wireless communications. (Prerequisite: EEN348)

EEN484Power Supply & Energy TransmissionPreReq.:EEN303Credit:3
Power and energy in alternating-current circuits. The balanced polyphase circuits. Sinusoidal steady-state analysis. Sinusoidal steady-state power calculation. Balanced three-phase circuit. The single and three phase power transformers. The RMS values, active, reactive, and distortion power in polyharmonic conditions. The. Power cables and their applications. Fuses, switches and relays. (Prerequisite: EEN 303: Circuit Theory )

EEN486Power System Analysis & ProtectionPreReq.:EEN303Credit:3
Basic structure of electrical power systems. Electrical characteristics of transmission lines, transformers and generators. Representation of power systems. Per Unit System. Symmetrical three-phase faults. Symmetrical components. Unsymmetrical faults. Balanced Polyphase Circuits. Matrix analysis of power systems networks and methods of solution. Load flow and short circuit analysis. Economic operation of power systems. Transient stability analysis. Current and voltage transformers. Overcurrent protection. Comparators and static relay circuits. Differential protection and its application to generators, transformers and bus bars. Motor protection. Pilot wire protection of feeders. Introduction to distance and other protection systems.

EEN488High Voltage TechniquesPreReq.:EEN303Credit:3
Generation of high voltages. HVDC vs. HVAC systems, Cockroft-Walton cascade rectifier. Transformer cascade. Marx generator for impulse voltages. High voltage dividers. High voltage test technique. Electrical breakdown strength of gaseous, liquid and solid insulation. Dielectric properties of electrical insulation. Complex permittivity and dielectric response functions.

ENE406Wind EnergyPreReq.:-Credit:3
This course is about the principles, components and conceptual design principles of wind energy conversion systems. the The main objectives of this lecture are: (i) to outline the historical development and the state of the art in wind turbine technologies; (ii) to outline some of the ideas that shape the wind industry; (iii) to outline the main components of a modern wind turbine; (iv) to outline the main site assessment criteria and financial feasibility analysis for wind turbine projects.

ENE416Modern Thermodynamics for Energy SystemsPreReq.:-Credit:3
Properties of pure substances, phase change, equation of state. Concepts of energy transfer by heat, work and mass. Entropy. 1st and 2nd law of Thermodynamics and their applications to common thermal devices such as heat exchangers, turbines, compressors. and nozzles. Basic power and refrigeration thermodynamic cycles: Otto, Diesel, Brayton, Rankine and vapor compression. Refrigeration cycles.

ENE417Thermodynamics IIPreReq.:-Credit:3
Exergy: A Measure of Work Potential. Gas power cycles. Vapor and combined power cycles. Absorption Refrigeration Systems. Thermodynamic property relations. Gas mixtures. Gas-vapor mixtures and air conditioning. Chemical reactions. Chemical and phase equilibrium. Compressible Flow

ENE440Solar Energy & Photovoltaic Sys.PreReq.:-Credit:3
This course teaches how photovoltaic (PV) systems operate, how to determine the size of a PV system needed for a certain application, how to install and connect the PV system to the electrical grid. This is an intensely hands on course and prepares the student to take the electrical portion of the Florida Solar Contractor License exam. Prerequisite to this course is the understanding of DC and AC electrical theory.

ENE443Photovoltaic Power SystemsPreReq.:-Credit:3
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IE410System SimulationPreReq.:-Credit:3
Definition of simulation, difference between simulation and other optimisation techniques, parameters and constants used in simulation, simulation methodology, simulation techniques, probability distributions commonly used in simulation and some applications by using computerised simulation packages.

IE486Automated Production SystemsPreReq.:-Credit:3
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ME304Internal Combustion EnginesPreReq.:-Credit:3
Engine types and their operations. Thermochemistry of air-fuel mixtures. Ideal models of engine cycles. Gas exchange processes. Engine fuel metering and manifold phenomena. Combustion in gasoline and diesel engines. Pollutant formation and control. Engine friction and lubrication. New technologies and alternative fuels.

ME306Heat Transfer IPreReq.:-Credit:3
Principles of heat transfer and their applications. Heat conduction in stationary systems. Transient Heat Conduction. Heat transfer associated with laminar flow and turbulence flow of fluids in forced and natural convection

ME417Heat Exchanger DesignPreReq.:-Credit:3
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ME418Refrigeration TechniquesPreReq.:-Credit:3
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ME419Heat Excahngers DesignPreReq.:-Credit:3
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ME422Heating, Ventilation and Air ConditioningPreReq.:-Credit:3
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ME427Engineering System in MotionPreReq.:-Credit:3
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ME428Theory of CombustionPreReq.:-Credit:3
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