CUMHURİYET UNIVERSİTY

FACULTY OF ENGINEERING

DEPARTMENT OF CHEMICAL ENGINEERING

UNDERGRADUATE PROGRAM

 

 

                               * This program includes 184 hours and 146 credits.

 

 

 

 

DEPARTMENT OF CHEMICAL ENGINEERING

CONTENS OF UNDERGRADUATE PROGRAM COURSES

 

First Semester

MAT-151 General Mathematics-I (3 2 4): Numbers, functions, special functions, definition of functions, limits and continuity, differentiation, derivatives and applications of derivatives, maxima and minima, functions and graphs, graphs of polar equations.

FİZ-109 General Physics-I (3 2 4): Measurements, vectors, one dimensional movement, planar movement, Newton's laws, particle dynamics, circular movement, friction, work and energy, conservation of energy, momentum and collision, rotation kinematics and dynamics, equilibrium of solids.

KİM-107 General Chemistry-I (3 2 4): Chemical calculations, structure of an atom, periodical table, structure of nucleus, chemical bonds, gases, liquids, solids, mixtures.

KİM-157 General Chemistry Laboratory-I ( 0 3 1.5 ): General information and laboratory rules, density of solid and liquids, melting, boiling, sublimation and condensation, synthesis of copper sulphure, heat degradation of potassium chlorate, determination of copper (II) oxide amount in alkali copper (II) carbonate, determination crystal water of copper sulfate,  solubility of alcohol in water and ether, temperature effect on solubility, diffusivity of gases, distillation with vapor, determination of molecular weight and vapor density of volatile liquids 

ENF-151 Basic Information Technology Usage (1 2 0): Introduction to computer aided technical drawing. Software, hardware and operating systems, DOS and Windows, Office application; office, excel and power point application, Internet application; FTP, e-mail and www applications.

MAK-171 Technical Drawing (1 2 1): Drawing instruments and their uses, lines and lettering, geometrical constructions, view drawings, three-view drawings, orthographic drawing and sketching, pictoral drawing and sketching, sectioning and conventions, dimensioning principles, simple assemblies, screw heads and threaded fasteners, symbols,

 

Second Semester

 

MAT-152 General Mathematics-II (3 2 4) :  Integral types and methods, definite integrals, mean value, improper integrals, mass through a curve, mass of a planar section, series, power series, multivariable functions and their continuity, exact differentials, maxima and minima in multivariable functions, multiple integrals.

 

FİZ-110 General Physics-II (3 2 4) : Charge and matter, electrical field, Gauss law, electrical potential, capasitors, dielectrics, current and resistance, electromotor force and electrical circuits, magnetic field, amper law, Faraday law and induction.

 

KİM-108 General Chemistry-I (3 2 4): Acids and bases, chemical kinetics, chemical equilibrium, aquous solution equilibria, chemical thermodynamics, and electrochemistry.

 

 

KİM-158 General Chemistry Laboratory-II (0 3 1,5): General information and laboratory rules, preparation of solution, determination of equivalent mass for metals, determination of molecular weight  by degradation of freezing point methods,  precipitation  and filtration experiments, effect of concentration, temperature and surface area on reaction rate, chemical equilibrium, acid-base titrations, pH,  determination of solubility and neutralization  heats, redox reactions,  measure of water strength.

 

ENF-162 Basic Information Technology (2 2 3): Computer basics, introduction to hardware and software concepts, algorithm, program languages and data structures (visual basic or Delphi),  UNIX  operating systems, computer net systems.

 

 

Third Semester

 

MAT-215 Differential Equations (2 2 3) : Basic definitions, first order differential equations, second order constant coefficient linear differential equations, second order variable coefficient differential equations, solution methods.

 

KİM-205 Analytical Chemistry (4 0 4) : Solutions and concentration calculations, acids, bases, salts and pH calculations, titration, neutralization titrations, precipitation titrations, complex titrations, oxidation-reduction titrations, gravimetric methods, assesment of results.

 

KİM 207 Physical Chemistry-I (2 2 3): General concepts; ideal gas and ideal gas mixing, kinetic theory of gases, Thermodynamics laws; first, second and third law, fundamentals equation in thermodynamic, chemical thermodynamic,  chemical equilibrium, state of materials, phase equilibrium, physical chemical properties and real gases.

KİM 213 Instrumental Analyses (3 0 3): Concept of spectrometric methods, theories of spectrometric methods, adsorption laws, optic accessories, UV-G molecular adsorption spectroscopy, IR spectroscopy, atom adsorption spectroscopy, atomic emission spectroscopy, mass spectrometer, chromatographic analysis methods.

KMÜ 201 Mass and Energy Balances-I (2 2 3): Dimensions, units and systems of units, gas laws, steady state material  balances in reactive and non-reactive chemical systems, fuels and combustion systems, industrial applications of material balance; recycle ad by-pass systems, chemical balances.

TMB 271 Static (2 0 2): plane force systems, vectors, mathematical operation of vectors,  space force systems, rigid materials stability, coop systems and calculations, beams, internal force in beam members,  static moment, inertia moment.

MET 281 Material Science (2 0 2):. Basic materials classifications (metals, ceramics, polymers and composites), atomic structure, crystal design structure, diffusion in crystal, properties of solid materials and mechanics test systems, metals and alloys, dual alloy systems and phase diagrams, Fe-C phase diagrams, ceramic structure and properties, composite structure and properties.

Fourth Semester

KİM-208 Physical Chemistry-I (2 2 3): Mixtures, general properties of mixtures, ideal mixtures, real mixtures of non-electrolyte solutions, electrochemistry:  electrical concepts, thermodynamics of electrolytic solutions, conductivity of electrolytic solutions, ionic equilibrium, electrochemical cells, surface chemistry, interface, adsorption  and colloid chemistry. 

KİM-256 Analytical Chemistry Laboratory (0 4 2) : First group cations, second group cations, third group cations, fourth group cations, fifth group cations, preliminary experiments and methods of qualitative analysis, qualitative anion analyses, gravimetric barium analysis, preparation of acidic and basic solutions and quantitative iron analysis.

KİM 260 Instrumental Analysis Laboratory (0 3 1.5): Introduction and experimental analysis of UV-vis, FTIR, MS, AAS, GC, HPLC and conductivity etc.)

KMÜ 202 Mass and Energy Balances-II (2 2 3): Heat units and heat capacity, energy balances, latent heat, energy balance, heat recovery , parallel and reverse heat exchangers, exact combustion, chemical equilibrium,  mass and energy balance, fundability diagrams.

TMB-204 Fluid Mechanics (3 0 3): Dimensional analysis, transport phenomena and fluid mechanics, properties of fluids, viscosity, density, surface tension, Newton's law, fluid static, static balance, manometers, flow of fluids, mass balances, characteristics of flow, laminar flow, boundary layer theory, momentum balance, velocity profiles, overall energy balance and friction, flow around submerged objects, measurement of fluid flow, agitation of liquids.

TMB-278 Strength of Materials (2 0 2): Tension and compression, statically indeterminate force systems, thin walled pressure vessels, direct shear stresses, moments of inertia, axially and laterally loaded members, torsion, concepts of stress and strain, rivets.

 KMÜ-210 Chemical Engineering Mathematics (3 0 3): Concept of mathematical modeling. solution of model equations such as algebraic equation, ordinary differential equations, partial differential equations, Laplace transforms. Solutions of problems related to momentum, energy and mass transfer in chemical engineering.

Fifth Semester

KİM-315 Organic Chemistry (3 0 3): Alkanes, alkenes, alkynes, organic halogen compounds, alcohols, ethers, aldehydes and ketones, carboxylic acids and their derivatives (chlorides, anhydrides, esthers, amides, nitriles), amines, stereoisomerism, introduction to aromatic compounds.

KİM-357 Physical Chemistry Laboratory (0 4 2) : Kinetic experiments, properties of fluids, adsorption, spectroscopic experimental

KMÜ 303 Chemical Reaction Engineering-I (2 2 3): Chemical kinetics and laws, reactors types, homogeny reactions, ideal reactors and calculations, single reactor design, reactor systems, autocatalytic reactions, multiphase reactors design.

KMÜ 305 Chemical Engineering Thermodynamics-I (3 0 3): Real gases, state equation of real and ideal gases, thermodynamics of Solid and liquid, fugacity, thermodynamic properties of pure fluids and mixtures, phase equilibrium, partial molar properties, Gibbs-Duhem equations, mixing enthalpy, thermodynamic properties of ideal mixtures,  non-electrolyte real mixtures, activity and activity coefficient, chemical thermodynamics, energy balances.

KMÜ 307 Inorganic Technology (3 0 3): Water technology, sodium carbonate, sodium hydroxide and chlorine, nitrogen, fertilize, sulphur and sulphuric acid,  explosive materials, ceramic industry, glass, lime and cement, sodium carbonate industries and adhesive technology. Chemical balance in technological process

KMÜ 309 Polymer chemistry (2 0 2): Information about polymers, general properties of polymers, polymer reactions, and chain and step reactions.

KMÜ 313 Heat Transfer (3 0 3): Heat transfer mechanisms, conduction, convection, phase changes with heat transfer, heat exchangers and radiation

 

Sixth Semester

KMÜ 304 Chemical Reaction Engineering-II (2 2 3): Irreversible reactions, parallel and serial reactions, reaction heats and temperatures, analysis of reactions, effects of pressure and temperature in reactors, Adiabatic reactor design, non-adiabatic reactions and heterogenic reactions.

KMÜ 306 Chemical Engineering Thermodynamics-II (3 0 3): Direction and equilibrium, state variables, state functions, specific thermodynamic concepts, thermodynamic diagrams, isothermal process, isobaric process, isothermal process , isochoric process,  hyperbolic process, constant internal energy process, constant enthalpy process, polytrophic process, thermodynamic balance, material balance, Closed and opened systems, energy balance, entropy balance, irreversibility, Usability and second law yield, thermodynamic systems,  condensers, turbines, compressors,  pumps, power and freezer cycles.

KMÜ 308 Organic Technology (3 0 3): Sugar, ethanol, oil and fats, detergent, paper, petrol, vinyl chlorine, liquid and gas fuel production industries.

KMÜ 310 Polymer Technology (2 0 2): Introduction, chemical technology, general   definition, chemical equilibrium , polymerisation process; mass polymerization, solution polymerization, fabrication process; raw material shape, fabrication, mixing, one, two and tri-dimensional processes

KMÜ 314 Mass Transfer (3 0 3): Mass transfer mechanisms, mass transfer with diffusion, mass transfer theories, interphase mass transfer, gas absorption, evaporatin

KMÜ 358 Chemical Technology Lab. ( 0 4 2 ): Water analysis, sugar analysis, soap and detergent technology and analysis, fertilizer technology and analysis, lime and cement technology and analysis, clay and ceramic technology and analysis.

Seventh Semester

KMÜ 401 Chemical Engineering Process Design-I (3 0 3): Selection of reactor configuration, process design, design of heat transfer equipment, design of separation process; adsorption, extraction, evaporation,   

KMÜ 403 Chemical Engineering Economics (3 0 3): Concept of economy, demand theory, cost theory,  producton theory, markets, novel development of market,  macro economy importance.

KMÜ 409 Separation Process-I (3 0 3): Distillation, liquid-liquid extraction, solid-liquid extraction, crystallization,

KMÜ 451 Chemical Engineering Laboratory-I (0 4 2): Heat transfer with conduction and convection, laminar and turbulence flow analysis, Reynolds number, flow meters, heat exchanger, power number in agitation system, second reaction kinetics in a batch reactor.

KMÜ 459 Polymer Laboratory (0 3 1,5): De-polymerization of PMMA, step polymerization of phenol-formaldehyde under acid and base catalysis, determination ester number,  Mass polymerization of styrene, analysis of exposit groups of polymers,  hydrolysis of PVA, step polymerization of phallic anhydride with ethylene glycol, determination of molecular weight with viscosity methods.

KMÜ 400 Graduation Thesis: Theoretical and/or experimental one semester research on special chemical engineering topics.

Eighth Semester

KMÜ 402 Chemical Engineering Process Design-II (3 0 3): Project, Process units and material selections, planning a chemical plant, economic analysis a project

KMÜ 406 Process Control (3 0 3): Fundamentals process control concepts, Laplace transfors, process modeling, Linear and non linear system dynamic, linearization of nonlinear systems, Closed  Dver control systems and stability, Application of control method system and process dynamics, control methods, automatic control forms.

KMÜ-408 Labor Law (2 0 2): Worker and employer relations.

KMÜ-410 Separation Processes -II (3 0 3): Humidification, drying, solid particles, storing of solids, size reduction, and filtration.

KMÜ-452 Chemical Engineering Laboratory-II (0 4 2): Drying experiment, packed-bed distillation experiment, particle size and sieve analysis, retention time analysis in reaction systems, absorption experiment, liquid-liquid  extraction experiment, solid-liquid extraction experiment and diffusion experiment.

KMÜ 400 Graduation Thesis: Theoretical and/or experimental one semester research on special chemical engineering topics.

 

DEPARTMENT OF CHEMICAL ENGINEERING

CONTENS OF GRADUATE PROGRAM COURSES

 

KMÜ-8001 Transport Phenomena ( 3 0 3 ): Newton’s viscosity law, velocity distribution in laminar flow,

The equation of change for isothermal systems, Fourier’s heat transfer law, temperature distribution in solid and in laminar flow, the equations of change for non-isothermal systems, Fick’s diffusion law, concentration distribution in solids and in laminar flow, the equation of change for multiphase systems.

KMÜ-8002 Advanced Chemical Engineering Mathematics (3 0 3): Principles and classification of mathematical modeling, mass balances in rectangular, cylindrical and spherical coordinates, ordinary differential equations, second order linear differential equations, Bessel equation and functions, definite integral functions (error and gamma functions), partial differential equations and solutions, non-homogeneous problems, solution of ordinary and partial differential equations using Laplace transform methods and related to chemical engineering applications.

KMÜ-8003 Advanced Chemical Engineering Reactions (3 0 3): Non-ideal flows, series and parallel reactions, liquid-liquid reactions, heterogenic reaction systems, solid catalyzed reactions.

KMÜ-5510 Advanced Control Engineering (3 0 3): Design accept of process control system, hardware for a process control system, development of a mathematical model, modeling consideration for control, computer simulation and the linearization of nonlinear systems, Laplace transfors, solution of linear differential equations using Laplace transforms, transfer functions and input –output models, dynamic behavior of first order systems.

KMÜ 5513 Petroleum Refinery Engineering (3 0 3): Refinery operations. Separation processes. Entrained and fluidized beds pyrolysis, catalytic cracking, catalytic reforming polymerisation, alkylation and hydrogenation. Clay and acid treating and extraction techniques.

 

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