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SIRNAK UNIVERSITY

Engineering Faculty

Energy Systems Engineering Course Content

Compulsory Courses

Course Period:

1th Semester

Course Cod Course name T L K ECTS

ENS101 General Math-I 4 0 4 5

Course Content:

the right and the plane in space, clusters,set’s of number,functions, composite funtion, inverse funcion, limit, functions limit,uncertainly of limit situations,continuity of functions,matrices,determinant,cramer’s rule,system of linear equations,vectors,vector space,eigenvalues and eigenvectors,linear trasformations,derivative,aplications of derivative,exponential and logarithmic functions,trigonometric and hyperbolic functions,complex number,L hospital rule

Course Period:

1th Semester


ENS102 Physics I 3 2 4 5

Course Content:

Vectors,motion in one dimension,two dimensional motion,other aplications of circular motion and newton’slaw,work and energy,potential energy and conservation of energy,linear momentum and collision,rigid body rotation aroundan axis,trundle,angular momentum and torque,static equilibrium and flexibilty,oscillating motion

Course Period:

1th Semester


ENS103 General Chemistry 3 2 4 5

Course Content:

İntroduction,basic concepts,substance chemical calculations,classical atom theory,modern atom theory,periodic table and properties,chemical bonds,state of matter gas,gas laws

Course Period:

1th Semester


ENS105 Energy Systems Engineering İntroduction 3 0 3 4

Course Content:

Energy sources, the historical devolopment of energy technology, steam power and machines, internal combustion engines, power plants, energy statistic, renewable energy, nuclear energy, new prospects in the production of energy, conventional energy sources, devolopments in science and tecnology

Course Period: 1. Semester

Course Code Course Title T P K ECTS-Cr

ENS104 Engineering Drawing 3 0 3 4

Course Content:

Technical Drawing Equipment and Supplies, technical drawing standards, papers, folding shapes. Lines, articles, drawing technique, and the rules of dimensioning, geometric drawings, tangents, arcs, creating views, perspective drawings, sections , applications and homeworks.



ENS109 Fundamentals of Information Technology 3 0 3 2

Course Content:

Basic information about computer systems, computer hardware and software, input, DOS and Windows operating systems, office applications, word processing, database, presentation, spreadsheet and graphics applications, and uses of the internet. HTML and Java programming.Course Period: 1. Semester


ENS108 English-I 2 0 2 2

Course Content:

Countable and uncountable nouns when the envelopes, indefinite pronouns, imperatives, showing the time prepositions, exclamation expression, frequency adverbs, modal verbs with the colors, days, months, and related text studies. Present and past tense verb to be. (Have got) the structure of the use of examples.



ENS106 Turkish Language I 2 0 0 0

Course Content:

What is language? National life and the importance of language as a social institution. The relationship between language and culture. Turkish language and its distribution areas. English voices and their classification. The rules of sound characteristics of Turkish and audio information. Spelling, spelling rules and punctuation marks.



ENS107 Ataturk's Principles and History-I 2 0 0 0

Course Content:

19. at the end of the 20th century reform movements in the Ottoman Empire general condition of the early centuries of the Ottoman Empire. Tripoli and the Balkan Wars. I. World War II. I. Overview of World War I, the Ottoman Empire in the war. Armistice Armistice, the preparation period of the War of Independence. Erzurum Congress. Sivas Congress. The opening of The Great National Meslisi'nin. The establishment of the Government of the Grand National Assembly, internal revolts.



ENS111 General Mathematics-II 4 0 4 5

Course Content:

Sequences, series, power series. Binomial, Taylor Series. Expansions of functions to Taylor and Maclaurin series, parametric study of curves. Examination of polar curves. Indefinite Integral. Rules of integration. Definite Integral and Its Applications, Second-Order Constant and Variable Coefficients Linear Equations. Functions of Several Variables, Partial Derivatives, Maxima and Minima Discovery (Langrange Multipliers Method). Multiple Integrals, Area and Volume Calculation integral, Line Integral.Course Period: 2. Semester


ENS112 Physics-II 3 2 4 5

Course Content:

the structure of atoms and the balance of atom, structure of matter and temperature, Temperature, pressure, dimensions and units for energy, Hydrostatic, hydrodynamic: Boundary layer, laminar and turbulent flow, continuity and Navier-

Stokes equations, fluid removal, the drag and resistance forces, Bernoulli's equations and its applications, pressure losses, Laws of thermodynamics, Work, energy and power concepts, ideal and real gases, equations of state, Changes of state: Melting, condensation and evaporation, mechanical work, and thermodynamic efficiency, heat transfer methods: conduction, convection and radiation concepts.Course Period: 2. Semester


ENS113 Fuel Chemistry 3 2 4 5

Course Content:

Introduction to Fuel Chemistry,Fuel Chemistry and Properties, Solid-Liquid-Gas Fuels,Calculations related to fuels, Coal Formation Theories, Classification of coals, Lignite, hard coal, bituminous coal, Coal Processing Technology, Products derived from coal, coke, coal liquefaction, Combustion Model, Wood and Components, Oil Formation Theories, oil facilities, The importance of oil as a fuel, Oil Refinery, Gas and its significance.



ENS106 Renewable Energy Technologies 3 0 3 5

Course Content:

Renewable energy types. Economic station. Solar energy. Wind energy .Micro hidro-turbine.Biomass. Geotermal energy.Wawe’s energy. Comparing energy sorts such as stream tidal’s energy with other energy. Knowledge associated with fosil. Renewable energy supplies .Enviroment end economics. Solar. Jeotermal. Wind. Biyomass.Wave. OTEC. Hidrojen. Wind and nuclear energy .

Lesson’s Term:

2. Semester

Lesson’s Code

Lesson’s Name T L K ECTS

ENS115 Systems of energy control 3 0 3 4

Lesson’s content

Discription of energy end control.Prosseses end methods of energy production. Proses control and design. Linear end unlinear model. Importance of energy control. Simulation.

Lesson’s Term:

2. Semester

Lesson’s Code

Lesson’s Name T L K ECTS-Cr

ENS116 Turkish Language-II 2 0 0 0

Lesson’s content:

Turkish’s suffixes and applications.Rules associated with composition, scheme used essay writing and application. Noun and verb conjugation in Turkish. Forms of expressions in essay and application. The forms of using adverbs and prepositions in Turkish.

Lesson’s Term:

2. Semester

Lesson’s Lesson’s Name T L K ECTS

Code

ENS117 Atatürk’s principles and revoluions history -II 2 0 0 0

Lesson’s content:

Paris Peace Conference. Invasion of İzmir.The internal state of the country . Çerkez Ethem Event. I. ve II. İnönü Combat. Sakarya Pitched Battle and results. Kars ve Ankara Agreement. Great Offensive War. Mudanya Ceasefire Agreement rudiments and importance. Lozan Conference And importance. Revolutions covering branchs of political,legal,social,cultural,education – teaching. Transition to multi-party system. Adevance in economical branch. Turkish external politics. Issue of Armenian. II. World War and Turkey. Atatürk’s princible.

Lesson’s Term:

2. Semester

Lesson’s Code

Lesson’s Name T L K ECTS

ENS-118 Foreign Language-II 2 0 2 2

Lesson’s content:

Subject and Pronoun, ownership’s adjective, nouns and multiple structures, sign adjectives and some adverb. Aorist, olma ilgili ile bu zamanın positive, negative and question’s structure. Conjunction, sign pronoun, belgili ve belgisiz harfi description ?. Noun, verbs ve object pronouns. "can" that is in uninflected verbs and use of it with samples.


ENS119 Basic Information Tecnology-II 2 0 2 2

Course Content:

Problem-solving. Input-Process-Output process. The algorithm analysis and design. Precision algorithms, finiteness, events. Language of the algorithm. Constants, variables, and expressions. Arithmetic, relational and logical operators. Input-output statements. Conditional and iterative statements. Vector and matrix representations. Character information operations. Subroutines and Functions. Structured programming (C, Fortran) language applications.

Course period: 3th Semester

Course Code Course Title T L K ECTS

ENS121 Linear Algebra 3 0 3 3

Course Content:

Linear Equations and Matrices, Real Vector Spaces, Inner Product Spaces, Linear Transformations and Matrices, Determinants, Eigenvalues and Eigenvectors

Course period: 3th Semester

Course Code Course Title T P K ECTS

ENS122 Engineering Thermodynamics 3 0 3 4

Course Content:

Basic concepts and definitions. Properties of pure substances. Equations of state. Work and heat interactions. The first law of thermodynamics. Internal energy and enthalpy. The second law of thermodynamics. Entropy. Reversible and irreversible processes. Thermodynamic analysis of processes, the third law of thermodynamics.

Dersin Dönemi:

3th Semester


ENS123 Dynamic 3 0 3 4

Course Content:

Basic concepts: the principles of mechanics, statics of particles: The state diagram, free-body diagram, the force diagram and force polygon, Forces: Forces the collection, removal, separation components, the resultant force, plane system of forces, space forces the system, equivalent force systems, force pairs and moments, static equilibrium: Equilibrium of rigid bodies, plane systems, the balance of forces, the balance of forces in space systems, Bonding forces: Single force and distributed loads, reaction forces and calculation of center of gravity: Areas, volumes, theorems of Pappus-Guldinus, curved surfaces, center of gravity account, Moment of Inertia: Areas moment of inertia, mass moment of inertia, carrier systems: Lattice systems, frames and machines, bending of beams: Vertical shear forces and bending moments in beams installed accounts and drawings, Friction: Friction and laws, bearings, belt and pulley systems, virtual business principle.Basic concepts and principles of mechanics. Units used in mechanics, dynamics of particles: Introduction to dynamics, linear motion in the plane, rectangular and polar coordinates, Relative motion, space, linear motion, Newton's Laws, Business - energy relationship, Potential Energy, Kinetics, Kinematics of rigid bodies, rigid body on the points relative motion, mass moment of inertia, kinematics of rigid bodies, kinetics of rigid bodies, D'Alembert principle.

Period of the Course:

3. semester

Code of Course Course Name T L K ECTS-Cr

ENS124 Statistics 3 0 3 4

Course Content:

Introduction to statistics, data and event concepts, control of statistical events, frequency distributions, central tendency and dispersion measures, mode median, arithmetic, geometric, harmonic averages, and the definition and the rules of probability and distribution of permutations and combinations, probability distribution functions, discontinuous distribution types, normal distribution, sampling and distribution, regression analysis, the method of least squares regression, correlation.


3.semester

Code of Course

Course Name T L K ECTS

ENS125 Materials Science 3 0 3 4

Course Content:

Atomic bonding of materials with physical properties of the chemical composition, crystal planes and directions, Bravais and Miller indices, structural defects in crystalline materials properties and their effects, understanding of the mechanical properties of materials and their measurement, chemical composition and mechanical properties of crystalline materials, the effect of diffusion and one-dimensional problems in defining, Two-component phase diagrams, alloy solidification and diffusion systems principles, metals, ceramics, polymers and composite materials, structure-property relationships, types of corrosion, protection methods


3.semester

Code of Course


ESM 211 Computer Applications 3 0 3 4

Course Content:

Basic information systems. Computer software. Computer hardware: processor, memory, input / output devices. Internet and network system. Basic programming concepts. On experience of the application software and the Internet. Programming concepts: data types, arithmetic, assignment statements. Input / Output functions. Library functions. Selection and iterative statements. User-defined functions. Sequences and series (strings).


3.semester

Code of Course


ENS127 Mass and Energy Balances 3 0 3 3

Course Content:

Energy Systems Engineering Processes, which is essential for the measurement of the efficiency of the design and material and energy balances and enlighten about the solution. Students of the mistakes made in the design and efficiency of material and energy balances will cause problems to detect, prosecute, and to promote the implementation of the steps to be followed to fix it.

Semester: 4

Code Course Title T L K ECTS

ENS131 Differential Equations 3 0 3 4

Content:

Basic concepts and classifying differential equations, First-order diffential equations and their engineering applications, Second and higher order differential equations and engineering applications, Power series solutions of linear equations with variable coefficients, Systems of linear differential equations: Scalar and Matrix methods, Laplace trasnformations, Numerical methods for ordinary differential equations.

Semester: 4


ENS132 Engineering Thermodynamics 3 0 3 3

Content:

Main principles of thermodynamics, measurement methods of pressure and temperature, temperature scales, zeroth law of thermodynamics, Pure substance ,phase-change processes, The ideal gas equation ,Heat and Work, The first law of thermodynamics analysis of closed and opened systems, The second law of thermodynamics and Entropy.

Semester: 4


ENS133 Strenght of Materials 4 0 4 5

Content:

Introduction, stress and strain, stress-strain relationships, Hookes Law and modulus of elasticity, direct stress, stresses in thin walled cylinders and spheres, simple shear, bolts joints, riveted joints, pin joints, welded joints, thermal stresses,

centre of gravity and moment of inertia, torsion of shafts, shear force and bending moment diagrams, pure bending, stresses in beams and shafts, Statically indeterminate beams, energy methods

Semester: 4


ENS134 Fluid Mechanics 3 0 3 4

Content:

Definition of fluid and its properties, fluid statics, pressure and its measurement, fluid kinematics, physical laws governing fluid flow, dimensional analysis and modeling, internal pipe flow and pump selection, external flow, lift and drag

Semester: 4


ENS135 Thecnology of Heat System 3 0 3 3

Course content:

Heat and temperature.The necessity and importance of heating.Heat exchange between the human body and environment. Thermal comfort requirements.The classification of the heating circuits.Room heating, floor heating, building heating, city heating.Hot-water heating systems, heating system components:Heaters, pipes, connectors and control elements, pumps, expansion tanks, firing systems and elements, chimneys. Panel heating, boiling water systems, steam systems.

Course Period:

4th Term

Course Code Course Name T L C ECTS

ENS136 Measurement and Control 3 0 3 3

Course content:

Basic concepts of measurement. Uncertainty and statistical analysis of experimental data, Basic analog electronics. Fourier techniques. Digital electronic Dimension, pressure, flow, temperature, heat, force, strain. Basic concepts of methods and sensors for the measurement of vibration and sound. Report writing and presentation.

Course Period:

5th Term


ENS141 Heat and Mass Transfer I 3 0 3 3

Course content:

Energy resources, the national energy production and consumption, energy policy, optimum utilization of power generation facilities and other applications, energy-intensive industries, industrial and residential energy-saving facilities, energy recovery, the waste heat recovery techniques,energy storage, new or special processes having the potential to save energy and plants, power control systems, energy management, Co-generation, the financial analysis of assessing energy-saving devices and methods.

Course Period:

5th Term


ENS142 Güneş Enerji Sistemleri ve Tasarımı 3 0 3 4

Course content:

The relationship between solar energy and other renewable energy sources. Movement of the sun, sun angles, sun geometry and and other basic information. Types of radiation, calculations of the total solar radiation on a flat and curved surfaces of the earth. Airy and liquid types of solar collectors, operation systems (direct and indirect systems, natural and forced systems, vacuum tube and heat pipe systems), features, connection types (parallel and series), and yields. Association of solar energy systems with existing systems.Various solar energy applications (solar chimney, solar pool, solar cells, solar swimming pool systems, solar heating, etc.) Required solar collector area for heating and hot-water preparation systems, calculating diameter of the pipe and the pump capacity, and design of solar energy systems.

Course Period:

5th Term


ENS143 Fossil Fuels Technology 3 0 3 5

Course content:

Input of fossil energy sources. Petroleum and natural gas properties, composition and methods of obtaining. Ways to

use oil and its derivatives. Coal, lignite properties, production techniques, and applications. Combustion techniques.

Herbal and other biological sources of energy. Known as renewable energy sources and this group directly energy

source or to be energy source transformed subjected to used. Methane, methanol and ethanol production.

Course Period:

5. Semester

Course Code Course Title T L K ECTS-Cr

ENS144 Boilers and Burning Technology 3 0 3 4

Course Content:

Solid, liquid and gaseous fuels storage, Boilers, kinds of boiler. Liquid-fuel combustion systems. Gas fuel combustion systems. Dual-fuel combustion systems. Burner selection, mounting, commissioning, maintenance - repair. For liquid and gaseous fuels pipe fittings and safety devices. The use of combustion control systems. Preparation experiment schedules, to make applied experiments with laboratory instruments, design and maintenance of combustion systems.

Course Period:

5. Semester


ENS145 Thermal and Hydraulic Machines 3 0 3 4

Course Content:

A wide scope of theoretical or practical scientific research and investigations on the topic of Energy and Installation Engineering which interest, study is prepared for principles of the part in a condition of technical report, presentation and defending.

Course Period:

5. Semester


ENS146 Computer Aided Drawing-I 4 0 4 4

Course Content:

C.A.D. definition, importance, AutoCAD and commands, AutoCAD drawing methods and versions, basic drawing rules, basic drawing applications, measuring, sections and assembly drawings, Write drawings on paper and plotter printer.

Course Period:

5. Semester


ENS147 Energy Systems Laboratory-I 0 6 3 3

Course Content:

This lab, heat transfer, thermodynamics, materials, machinery and applied fluid mechanics, power systems and provides energy-related experiments. Energy Engineering examination and observation of various factors on these experiments targeted.

Course Period:

6th Term


ENS151 Oil refining 3 0 3 3

Ders İçeriği:

The general principles of petroleum refining .petroleum producs and features.Overview of treatment units .fuels section

.lubricating oils sections .auxiliary facilities

Course Period:

6th Term


ENS152 Ventilation and air-conditionning technology 3 0 3 3

Ders İçeriği:

Properties of air, ventilation and air conditioning systems used in the definition of the system and flow rate calculating, types of air conditioning systems, indoor air quality . hygiene principles and air conditioning necessity, thermal comfort and psychrometry the concepts and relations, equality and diagrams related to air-conditioning operations,coditioning comfort and industrial plants .indoor air issues must be considered during installation. Selection of air-conditioning systems installation location. Speed, flow, rate, temperature, current, voltage, and so on. measurements and settings. Mechanical and electrical fault detection and correction. Maintenance and operation of the ventilation-air conditioning systems.

Course Period: 6th Term

Course Code Course Name T L C ECTS-Cr

ENS153 Soğutma Teknolojisi 3 0 3 3

Ders İçeriği:

Importance of cooling, the cooling requirement, the development of refrigeration systems and cooling applications. Cooling types. Cooling load calculations. The selection of vapor compression refrigeration system. Examination of other cooling cycles. Electric defrost systems and cooling circuits. Refrigerants, fluid charging methods, lubricating oils, refrigerants and the environment.

Course Period: 6th Term

Course Code Course Name T P C ECTS

ENS154 Wind Energy Systems 3 0 3 3

Ders İçeriği:

General concepts related to wind energy. Calculation of wind energy potential, wind speed and energy potential measurement systems. Power density function, wind turbine power curve. Modern wind turbines, wind turbine system performance, aerodynamic behavior of wind turbines. Horizontal-axis wind turbine applications, and research issues in different sizes. Theoretical models for the calculation of wind, applications. Wind Statistics. Technological trend in wind energy conversion systems and economies.

Course Period: 6th Semester


ESM 308 The Greenhouse Effect and Global Warming 3 0 3 4

Course Content:

Intoduction, Greenhouse effect, Global warming, Greenhouse effect gases, Fuels increases the greenhouse effect, Causes of global warming and parameter values, Opposing views on global warming.



ENS156 Energy Economy and Efficiency 3 0 3 3

Course Content:

General introduction and identification, Energy economy methods, Energy economy applications at the industry,

Energy-saving designs at the industrial facilities and enterprises, General applications on sample projects. Introduction

to heat economy. Cost in the thermic facilities. Energy costs. Insulation, insulation techniques. Fuels, Fuel heat values,

Combustion. Heat transfer, Heat exchanger, Cycle efficiencies. Heat balance.



ENS157 Energy Systems Laboratory -II 0 6 3 3

Course Content:

This laboratory, heat transfer, thermodynamic, material, machine and applied fluid mechanics, power systems and provides energy-related experiments. Energy engineering examination and observation of various factors on these experiments targeted.



ENS161 Biofuel Technology 4 0 4 5

Course Content:

Intoduction, Biomass resources, Biofuels, Liquid Biofuels (bioethanol and biodiesel), Bio liquid fuels (bioethanol) and biogas (biogas and bio-hydrogen) Fuels, Thermochemical conversion processes (liquefaction, pyrolysis, gasification), Biofuel economics, Biofuel policy



ESN162 Nuclear Energy Systems 4 0 4 5

Course Introduction:

Fundamentals of atomic and nuclear physics, substance reactions and radition, nuclear reactions neutron diffission and moderation, nuclear reactor theory, time-dependent ractions, heat transfer and heat extraction at nuclear reactors, radiation protection, reactor licensed, security and environmental. Fundamental informations about nuclear energy generated. Kinetic and thermodynamic approach. Heat and mass transfer.Reactions, Nuclear power plants, fields of application, new technologies

Course period:

7th Semester

Course Cod: Course name T L K ECTS

ENS163 Energy Utility and Management 3 0 3 5


Energy utility definition and importance, What is energy management? How is energy managed? Purpose of management. How is energy management made in the world and in our country? What are advantage if energy is managed well?

Course period:

7th Semester


ENS164 Graduation Project-1 3 0 3 5


All final years students, under the guidance, an interest of topic of Energy Systems Design Engineering prepare Project mainly the designing, Examination of all the results in the evalution of alternatives, In a report with the details of the drawings as may be necessary represent and defence.

Course period:

8th Semester

Course Cod: Course name T L K ECTS-Cr

ENS171 Energy biotechnics 3 0 3 5


Biomass energy principles, Areas os biomass formed and biomass energy sources, Biomass potential in the world and our country, Flow of energy between plant and evironment: photosynthesis, C3 and C4 metabolism of plants, C3 and C4 plants between diferences, Plants grown in order to obtain energy (energy plants), Physical and chemical properties of materials used in biomass energy conversion systems,Methods of obtaining energy from biomass: Thermochemical methods (direct burning, piroliz, liquefaction), Biochemical methods (alcohol fermentation, anaerobic fermentation, biofotoliz), Agrochemical methods (Burning extraction), Areas use of biomass energy: Classic use of biomass, Modern use of biomass, Advantage and dezadvantage of biomass energy.

Course period:

8th Semester


ENS172 Hydrogen Energy Systems 3 0 3 5


Course Period: 8. SemesterCourse Code Course Title T P K ECTS-Cr

ESM 101 Energy Economics and Politics 3 0 3 4

Course Content:

The basic concepts of the economy; The basics macroeconomics and microeconomics; Economic analysis of energy projects; Financing of energy projects; Financial analysis of energy investments;Energy investment planning, scheduling and pricing; Energy cost analysis, energy trading, energy derivatives markets; The potential for global energy supply and demand; Energy balance of the global energy markets;For the next 30 years of regional views: prevailing trends and forecasts; Energy indicators; Energy policy analysis and modeling; Energy and economic growth; Energy markets, regulations, liberalization and competition; Energy and sustainable development. Energy policies.

Course Period: 8. SemesterCourse Code Course Title T P K ECTS-Cr

ESN174 Energy Systems Graduation Project-II 3 0 3 5

Course Content:

All last year students should select a topics about Energy Systems Engineering ,their topics must be mainly a matter of concern REE. Students prepare a projecet under the supervision of the advisor. Student must do for their project evaluation of all alternatives, examination of the results that may be necessary drawings and details. In conjunction with the submission and defense of a report.

Elective Courses:

ENS175 Science History Theory (T):3 Credits (K):3 ECTS:3

The first human needs (food clothing and shelter).transportation, made the basic equipment. Protection and hunting. Security and peace. Fire and its importance. The use of fire-making tools. Presence of minerals and metals to achieve (Used in the production of gold and copper tools).Invention of the wheel, and the use of public transport. Bronze made the article. Finding and processing of iron. Scientists in history-shaping (Archimedes, Aristotle, Avicenna, Al-Farabi, Galileo, Newton, Tesla, Einstein, .....)

ENS176 Energy Law Theory (T):3 Credits (K):3 ECTS:3

Basic legal concepts. Social importance of law. Oil-related legal problems. The energy agreements in recent history. Social phenomena resulting from the use of coal technology . Peaceful and non-peaceful energy kaynakları.Kyoto protocol and applications.

ENS177 Energy Marketing Theory (T):3 Credits (K):3 ECTS:3

Raw materials distance on marketing energy of center. Distance marketing centers of energy raw materials. Energy costs and the impact of road transport. The importance of national and international power transmission lines. Energy relations between organizations. Energy market. Distribution and consumption of energy. National and international energy prices.

ENS 171 Energy Education (Theoretical) (T):3 Kredi(K):3 ECTS:3

Educations public aims and targets. Using and saving Optimum energy. Using of energy source consciously. Using of energy technology consciously. Energy education at elementary school, high school and university. Using importance of energy as duty. Teaching of energy related concepts.

ENS 179 Engineering Ethic (Theoretical) (T):3 Kredi(K):3 ECTS:3

Energy and Responsibility. Engineering Moral. Authority and responsibility of engineering. Positive and negative behavior in engineering. Patent and know-how rights in engineering.

ENS 181 Scientific Research Techniques (Theoretical) (T):3 Kredi(K):3 ECTS:3

Experiment and observation. Literature review. Determine methodology and hypothesis executions about subject. Studying the relationship between cause results. Discussion of the results and comparison with other studies. Evaluation of the obtained results. Suggestion

ENS 182 Terminology of Engineering (Theoretical) (T):3 Kredi(K):3 ECTS:3

Teaching scientific concepts used in engineering. Teaching engineering terms, the provision for the current language. Teaching national and international engineering standards. Basic engineering equipments description.

ENS 183 Introduction to Economics (Theoretical) (T):3 Kredi(K):3 ECTS:3

Basic terms. Supply and demand relationship. Inflation and devaluation concepts. Economical choices of Raw materials and product costs. Psychology of shopping. Advertisement and marketing impotence in economy. Competition rules. Cost counting.

ENS 184 Sustainable Energy Systems (Theoretical):

Renewable and un-renewable energy source. Fading and unfading energy source (sun, wind, water...). Carbon cycling. Importance of photosynthesis in sustainable energy. Carbon natural fuels. Utilization ebb and flows energy. Utilization wind, wave and buoyancy force.

ENS 185 Terminology of Engineering II (Theoretical) (T):3 Kredi(K):3 ECTS:3

Teaching scientific concepts used in engineering. Teaching engineering terms, the provision for the current language. Teaching national and international engineering standards. Basic engineering equipments description.

ENS 186 Energy Management (Theoretical) (T):3 Kredi(K):3 ECTS:3

Teaching energy management terms. Energy management in city and town areas. Energy management in industry, heating, lighting and transporting. Balancing with production and consumption. Established energy control network. Determined and prevent the energy lost with technological methods. Using optimum transporting equipment when transporting the energy transporting. Reduced heating lose to minimum value in energy networks.

ENS 187 Internal Combustion Engine (Theoretical) (T):3 Kredi(K):3 ECTS:3

System and environment. Treatments and cycling terms. Heating machine. Carnot, Rankine, Otto and Diesel cycles. Efficiency of engine and calculation. Mechanical member and functions.

ENS188 Energy Use and Environmental Impacts Theoretical (T):3 Credit(K):3 ECTS:3

Polluting and non-polluting fuels. Controllable and uncontrollable energy sources (wind, floods, geothermal energy, volcanic lava.) Harmful gas emissions (sulfur, particulate matter, ...). The environmental impact of fossil fuels. Eco-friendly fuels (biomass, hydrogen, biogas ....).

ENS189 Heating and Cooling Systems Design Theoretical (T):3 Credit(K):3 ECTS:3

Building design to reduce heat loss. Heat loss prevention methods. Heat conduction surface calculations. Increasing the use of the heat output (Cogeneration and trigeneration). Heat pump. Solar cooling and heating. Wind power cooling and heating. Heating and cooling efficiency calculations.

ENS190 Electricity and Circuits Theoretical (T):3 Credit(K):3 ECTS:3

Circuit elements. Symbols of the circuit elements. The circuit diagram. Integrated circuit And non-integrated circuit.

ENS191 Robotics Theorical(T):3 Credit(K):3 ECTS:3

Basic concepts. Cybernetics. Definition and history of robotics. The importance of robotics in the engineering. Robot manipulators. Ismail Al-Jazeera and mechanical robots. Robot types. Mathematical calculations for the robots. Classification according to the use of robots.

ENS192 Hydropower Theorical(T):3 Credit(K):3 ECTS:3

Water resources. Fluids used for transformation of energy. Turbine concept. Turbine types. Calculation of Turbines yield. Power generators. Generators power loss calculations.

ENS193 Geothermal Energy Systems Theorical(T):3 Credit(K):3 ECTS:3

The concept of geothermal energy. Geothermal energy resources. The use of groundwater as a source of hot and Energy-saving. Geothermal vapors and use as a source of energy. The use of geothermal energy heating system.

ENS194 Wind Energy Theorical(T):3 Credit(K):3 ECTS:3

Wind speed and local wind statistics. Wind turbines, wind turbine manufacturing, balancing, transportation and installation. Wind power-turbine blade length relation. Wind turbines used to generate electricity.

ENS 195 Electromagnetic Energy Systems Theorical(T):3 Credit(K):3 ECTS:3

Giving the basic laws of electromagnetic fundamental laws. Advances in coil and permanent magnet magnetic circuits and circuit analysis. Giving an electromechanical system, the concept of force and moment. Co-energy concept. Analysis of the rotor winding reluctance motor. Single and three-phase transformers. Magnemotor force diagrams and rotating field theory. Magnetic energy and forces, Hall effect, time-varying fields.

ENS196 Hydroelectric and Thermal Power Plants Theorical(T):3 Credit(K):3 ECTS:3

Heat energy and its importance. Methods for obtaining heat energy. Fuels used in thermal power plants. Calculation of efficiency. Turbines used in the conversion of heat energy to electrical energy. Environmental impact of thermal power plants. Thermal power plant flue ashes used as a cement additive.

ENS197 Gas Technique Theorical(T):3 Credit(K):3 ECTS:5

The kinds of gases, combustion characteristics and classification, gas transport, storage and distribution, gas burning appliances and chimneys varieties and purposes of using, architecture of the buildings, structural elements and the location-related information. Industrial gases, and related applications. Storage tanks and safety rules

Regulators. Automatic converters. OPSO-Upson (tank and burner) Regulators. Gas circuit connection elements and standards. Fire precautions and procedures. Bulk gas supply systems. Natural gas conversion plants. Pressure test.

ENS198 Non-combustible Energy Systems Theoretical (T): 3 Credits (K): 3 ECTS: 5

ENS199 Biorafinery Theoretical (T): 3 Credits (K): 3 ECTS: 5

Introduction. Biomass fuels. Biorafinery concept. Vehicle fuels. Biomass fractionation and evaluation. Thermochemical conversion processes. Biochemical processes. Ekononomisi Biorafinery. Biorafineries political influences. Biorafineries environmental impacts.

ENS201 Global Energy Protocols Theoretical (T): 3 Credits (K): 3 ECTS: 5

Greenhouse effect and global warming. The Kyoto Protocol and its influencing factors. Obligations of the Kyoto Protocol. Member countries. And the importance of carbon certificates. Carbon exchange certificate.

ENS202 FUEL CELLS Theoretical (T): 3 Credits (K): 3 ECTS: 5Definitions Historical Development. Emissions, Fuel Cell Systems Overview, Alkaline Fuel Cell. Molten Carbonate Fuel Cell, Solid Oxide Fuel Cell and Solid Polymer Fuel Cells Terms and Principles of Business, Typical Cell Supplies, Cell Configurations, Applications and Economics; Fuel Cell Elektrokimyasının Principles, heat of fuel cells. Adiabatic flame temperature. Criteria of chemical equilibrium, equilibrium constants. Chemical kinetics: reaction velocity, Arrhenius equation. Activation energy. Single-step, sequential and chain reactions. Droplet and spray combustion. Combustion systems, fuel atomization, the group combustion numbers. Fluidized bed combustion. Coal combustion. Ignition, combustion pollutant propagation environment.

ENS203 Motor Science Theory (T): 3 Credits (K): 3 ECTS: 5

Motor types and properties. System and the environment. Processing and the cycle concepts. Heat machine. Carnot, Rankine, Otto and Diesel cycles. Yield and calculations ın engine . Engine parts and their functions.

ENS204 Energy Storage Technology Theory (T): 3 Credits (K): 3 ECTS: 5

It is a technical elective course for energy engineering. To deposit energy according to the characteristic. The use of hydrogen as a fuel carrier. Storage of thermal energy. Storage of renewable energy.

ENS205 Heat exchangers Theoretical (T): 3 Credits (K): 3 ECTS: 5

Heat transmission. Convection, conduction and radiation heat transfer, parallel and inverse heat conduction. Heat transfer calculations at . fluid transitions Construction of the heat exchanger. Areas of heat exchangers.

ENS206 Simulation and Modeling Theoretical (T): 3 Credits (K): 3 ECTS: 5

Basic concepts of simulation and modeling. Linear and non-linear models. Mathematical models. Methods for obtaining processed data. Simulation types. Simulation programs. MATLAB and Simulink curves.

ENS207 Algae Energy Technology Theory (T): 3 Credits (K): 3 ECTS: 5

Introduction. Green energy facilities. Biofuels. Algae technology. Algae species. Algae energy acquisition methods. Methods of obtaining biodiesel from algae oil. Biorafineries. Changes for the future.

ENS208 Control Systems Theoretical (T):3 Credit(K):3 ECTS:5

Introduction. Control and system definition. Control methods. Feedback control. PIDs management. Laplace transforms. Error functions. Fast convergent series. Control models. Obtaining control models. Simulink diagrams and curves.

ENS209 food - energy relationship Theoretical (T):3 Credit(K):3 ECTS:5

Bio liquid fuels. The importance of bio-ethanol and biodiesel. The production of bio-ethanol and biodiesel raw materials. The use of vegetable oils and vegetable oils. The use of sugar cane and corn biofuel production. Impact of the world food prices, biofuel production. Food- energy policies, national and international.

ENS210 gas hydrates Theoretical (T):3 Credit(K):3 ECTS:5

Introduction. Natural gas. Gas hydrates. The gas hydrates krital structures. Methane gas hydrate. Gas hydrate reserves. Production processes of methane gas from gas hydrates.

ENS211 future energy sources Theoretical (T):3 Credit(K):3 ECTS:5

Introduction. Solar Cells. Solar panels. Hydro power. Hybrid fuels. Hydrogen. Natural gas. Electric vehicles. Flying cars.

ENS213 Physics of semiconductors Theoretical (T):3 Credit(K):3 ECTS:5

Crystal structure. Effective mass. Semiconductor types. Atomic density of the transmitter and receiver. Energy band and carrier concentration. The density of states. Fermi-Dirac statistics. Solid and carrier density. Drift and diffusion current densities. Direct and indirect-band transitions. Hall-effect. Continuity equations, the pn junction, pn junction in thermal equilibrium. Schottky layer capacitance and consumption. Current-voltage capacity. Voltage characteristics. Contacts. surface and interface physics.

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