Study Plan: Chemical Engineering

Transcription

1 Study Plan: College: Engineering Dept.: Program: Degree: Bachelor of Science in Total credit hours required for graduation Credit Hours Admitting Criteria: High School Diploma 75 % Foundation Engineering: (Exemption with TOEFL 500 points and SAT 550 in Math ) Others: TOEFL (500 points) Graduation Project: One Term Two Terms Practical Training: Fall spring summer duration: 8 weeks General Outlines for the Study Plan: Cr. Hrs Required No. of Req. s Offered No. of Offered s University Requirements 20 7 or College Requirements Major Compulsives Major Electives (revision in progress) Mir Compulsives Mir Electives Additional Compulsives Additional Electives Total 50 or

2 College Requirements: No. MATH0 MATH02 MATH2 MATH27 PHYS9 PHYS92 PHYS9 PHYS94 CHEM0 CHEM0 GENG06 GENG07 GENG200 GENG00 GENG60 ELEC20 Name Calculus I Calculus II Calculus III Mathematics for Engineers Physics for Engineers I Physics for Engineers Lab. I Physics for Engineers II Physics for Engineers Lab. II General Chemistry I Experimental General Chemistry I Computer Programming Engineering Skills & Ethics Probability and Statistics for Engineers Numerical Methods Engineering Ecomics Electric Circuits Credit No. of Hours Theo Exp 2 Fees/ Cr Hr Pre-requisite Co-Requisite*: No. / Name MATH0 MATH02 MATH2 MATH0 PHYS9* PHYS9 PHYS9* CHEM0* MATH02 MATH2, GENG06 MATH02 MATH02*, PHYS9*

3 Major Compulsive s: No. CHEM02 CHEM04 CHEM2 CHEM24 CHEM242 CHEM4 CHME20 CHME202 CHME22 CHME2 CHME CHME2 CHME CHME4 CHME5 CHME24 CHME25 CHME99 CHME42 CHME422 CHME42 CHME426 CHME495 CHME496 Name General Chemistry II Experimental General Chemistry II Organic Chemistry Physical Chemistry I Experimental Physical Chemistry I Physical Chemistry II Introduction to Chemical Engineering I Introduction to Chemical Engineering II Thermodynamics I Fluid Mechanics Heat Transfer Thermodynamics II Mass Transfer I Chemical Reaction Engineering Mass Transfer II Laboratory I Laboratory II Practical Training Plant Design I Plant Design II Process Control Laboratory III Graduation Project I Graduation Project II Credit No. of Hours Theo Exp Fees/ Cr Hr CHEM0 Pre-requisite Co-Requisite*: No. / Name CHEM0, CHEM02* CHEM0 CHEM02 CHEM24* CHEM24 MATH0, PHYS9, CHEM0 CHME20 CHME20 CHME20, MATH02 GENG00*, CHME202, CHME2 CHME22, CHEM4* CHME*, CHME2* CHME202, CHME2 CHME ENGL20, CHME2, CHME* CHME24, CHME Department Approval CHME5 CHME42, GENG60 CHME, MATH27 CHME42, CHME4 CHME42* CHME495

4 Major Elective s: No. CHME4 CHME4 CHME45 CHME45 CHME462 CHME46 CHME466 CHME467 CHME470 Name Petroleum Refining Processes Petrochemical Techlogy Polymer Engineering Introduction to Gas Engineering Pollution Control Water Processes Special Topics in Chemical Engineering I Special Topics in Chemical Engineering II Fundamentals of Petroleum Engineering Credit No. of hours Theo Exp Fees/ Cr Hr Pre-requisite(s): No. / Name CHEM2 CHEM2, CHME2 CHEM02 CHME2 CHEM2 CHEM, CHME2 CHME2, CHME2

5 Program Study Plan: Semester - Fall Semester 2 - Spring ENGL202 ARAB00 MATH0 CHEM0 CHEM0 GENG07 Name English Language I Arabic Language Calculus I General Chemistry I Experimental General Chemistry I Engineering Skills and Ethics ENGL20 MATH02 PHYS9 PHYS92 CHEM02 CHEM04 GENG06 Name English Language II Calculus II General Physics for Engineering I Experimental General Physics for Engineering I General Chemistry II Experimental General Chemistry II Computer Programming Semester - Fall Semester 4 Spring MATH2 PHYS9 PHYS94 CHEM2 CHEM24 CHEM242 CHME20 Name Calculus III General Physics for Engineering II Experimental General Physics for Engineering II Organic Chemistry Physical Chemistry I Experimental Physical Chemistry I Introduction to I CHEM4 GENG00 CHME202 CHME22 CHME2 Name Physical Chemistry II Numerical Methods Introduction to Chemical Engineering II Thermodynamics I Fluid Mechanics Free Elective Semester 5 - Fall Semester 6 - Spring MATH27 GENG200 CHME CHME2 CHME CHME24 Name Mathematics for Engineers Probability and Statistics of Engineers Heat Transfer Thermodynamics II Mass Transfer I Laboratory I ELEC20 GENG60 CHME4 CHME5 CHME25 DAWA CHME99 Name Electric Circuits Engineering Ecomics Chemical Reaction Engineering Mass Transfer II Laboratory II Islamic Culture Practical Training (Summer)

6 Semester 7 - Fall Semester 8 - Spring CHME42 CHME42 CHME495 CHMExxx CHMExxx Name Plant Design I Process Control Graduation Project I Technical Elective Technical Elective Free Elective 2 CHME426 CHME422 CHME496 CHMExxx Name Laboratory III Plant Design II Graduation Project II Technical Elective Free Elective Equivalence Table: New Study Plan s Old Study s Name Name

7 Descriptions: Co-Requisite indicated by * Number: MATH0 Name: Calculus I Credit Hours: (--0) Pre-requisite: Content: Review of some basic concepts. Functions. Limits and Continuity. Derivatives. Applications of derivatives. Integration. Applications of integration. Number: MATH02 Name: Calculus II Credit Hours: (--0) Pre-requisite: MATH0 Content: Transcendental functions. Techniques of integration. L Hospital s rule. Improper integrals. Complex numbers. Conic sections. Number: MATH2 Name: Calculus III Credit Hours: (--0) Pre-requisite: MATH02 Content: Vectors. Vector valued functions. Functions of several variables. Double and triple integrals. Number: MATH27 Name: Mathematics for Engineers Credit Hours: (--0) Pre-requisite: MATH2 Content: Sequences and series. Linear algebra. First order ordinary differential equations. Applications. Number: PHYS9 Name: Physics for Engineers I Credit Hours: (--0) Pre-requisite: MATH0 Content: Periodic motion. Mechanical waves. Superposition of waves. Sound. Heat and temperature. Quantity of heat. Mechanism of heat transfer. Thermal properties of matter. The first law of thermodynamics. The second law of thermodynamics. The nature and propagation of light. Geometric optics. Optical instruments. Number: PHYS92 Name: Physics for Engineers Lab. I Credit Hours: (-0-) Pre-requisite: PHYS9*

8 Number: PHYS9 Name: Physics for Engineers Credit Hours: (--0) Pre-requisite: PHYS9 Content: Electric charge and electric field. Coulomb s law and Gauss s law- electric potential. Capacitance and dielectric- current- resistance. Electromotive force- direct current circuits. Magnetic field and magnetic forces. Sources of magnetic field. The force between parallel conductors. Ampere s law and its applications. Electromagnetic induction. Faraday s law. Lenz s law. Maxwell s equations. Inductance. Alternating current. L-R-C series and parallel circuits. Resonance circuits. Filters. Transformers Number: PHYS94 Name: Physics for Engineers Lab. II Credit Hours: (-0-) Pre-requisite: PHYS9* Number: CHEM0 Name: General Chemistry I Credit Hours: (--0) Pre-requisite: Content: Chemistry and measurement. Atoms. Molecules and ions. Chemical reactions. Calculations with chemical formulas and equations. Thermo chemistry. Quantum theory of the atom. Electron configurations and periodicity. Ionic and covalent bonding. Molecular geometry and chemical bonding theory. Gas laws. States of matter (liquids and solids). Number: CHEM0 Name: Experimental General Chemistry I Credit Hours: (-0-) Pre-requisite: CHEM0* Content: Measurements. Uses of apparatus. Stoichiometry. Gas laws. Thermochemistry. Neutralization reactions. Oxidation and reduction reactions. Number: CHEM02 Name: General Chemistry II Credit Hours: (--0) Pre-requisite: CHEM0 Content: Gases and States of Matter. Properties of Solutions. Rates of Reaction and Chemical Equilibrium. Acids and Bases and Acid-Base Equilibria. Solubility and Complex Equilibria. Thermodynamics and Equilibrium. Electrochemistry. Number: CHEM04 Name: Experimental General Chemistry II Credit Hours: (-0-) Pre-requisite: CHEM0, CHEM02* Content: Determination of Molar Mass. Softening of hard water. Rate of a Chemical reaction. Determination of Chemical Equilibrium. Relative Strengths of some Acids. Acidbase Titration and determination of pka of a weak acid. Solubility product constant. Calorimetry and Electrochemistry.

9 Number: GENG06 Name: Computer Programming Credit Hours: (-2-) Pre-requisite: Content: Programming using a high level language. General description of computer systems: hardware and software. Program outline and flowcharts. Program design and structure. Variables, constants and data types declaration and execution. Input/output statements including data file I/O. Arithmetic, logical and comparison operators. Control structures. Modular programming with functions and procedures. Arrays: single and multidimensional. Character and string processing. Dynamic data structures. Number: GENG07 Name: Engineering Skills & Ethics Credit Hours: (--0) Pre-requisite: Content: Study skills (time management, te taking, review methods). Problemsolving skills. Communication skills (data presentation, significant figures, units, technical presentations). Survey of engineering disciplines. Introduction to design with applications. Engineering ethics. Number: GENG200 Name: Probability & Statistics for Engineers Credit Hours: (-2-) Pre-requisite: MATH02 Content: Classification of data, Graphical representation, Arithmetical description, Probability theory, probability of an event and composite events, Addition rule and multiplication rule, independent events, Counting techniques, Random variables and probability distributions. Expected values, Continuous and discrete random variables, Normal distribution, Bimial distribution, Poisson distribution, Joint and marginal probability distributions, Independence of random variables, Covariance and correlation, Random sampling, Unbiased estimates, Design of experiments, Linear correlation, Linear regression, Least squares, Control chart techniques. Number: GENG60 Name: Engineering Ecomics Credit Hours: (--0) Pre-requisite: MATH02 Content: Ecomic decision making for engineering systems, Choice of alternatives by equivalent annual cost, rate-of-return, Present worth, and benefit-cost methods, Statistical decision making and replacement policy, Ecomic aspects of Engineering projects.

10 Number: ELEC20 Name: Electric Circuits Credit Hours: (-2-) Pre-requisite: PHYS9*, MATH02* Content: Basic Concepts: Voltage, current, power, and energy. Independent and dependent voltage and current sources. DC Circuits Analysis: Ohms law, Kirchhoff s current and voltage laws. Series and parallel DC circuits analysis, dal analysis, and mesh analysis. Superposition, source transformation, and maximum power transfer theorems, Thevenin s and Norton s theorems. Capacitance and Inductance: series and parallel connections of capacitors and inductors. AC Circuits Analysis: Sinusoidal sources, rms value, phasor representation, complex impedances. Kirchhoff s laws in the phasor domain, parallel and series AC circuits. Experiments will be conducted to support the course including the use of computer software for circuit analysis. Number: GENG00 Name: Numerical Methods Credit Hours: (--) Pre-requisite: MATH2, GENG06 Content: Numerical errors. Interpolation and curve fitting. Numerical Integration. Linear system of algebraic equations System of coupled nlinear equations. Ordinary differential equations: Euler, R.unge-Kutta, predictor-corrector methods. Boundary value problems. Optimization techniques. Constrained and multi-objective optimization. Applications. Number: CHEM2 Name: Organic Chemistry Credit Hours: (-2-) Pre-requisite: CHEM0 Content: Bonding and isomerism. Alkanes and cycloalkanes. Alkenes and alkynes. Aromatic compounds. Alcohols, phels and thiols. Ethers and epoxides. Aldehydes and ketones. Carboxylic acids and their derivatives. Amines Experimental : Separation and purification processes. Determination of physical constants. Identification of different functional groups (alcohols, phels, aldehydes, ketones, carboxylic acids and amines). Carbohydrates (simple sugars and polysaccharides). Separation of mixtures of organic compounds. Preparation of simple organic compounds (aspirin and methylbenzoate) Number: CHEM24 Name: Physical Chemistry I Credit Hours: (--0) Pre-requisite: CHEM02 Content: The kinetic model of gases: molecular interaction, the Vander Waals equation. Chemical thermodynamics: The first law, work, heat and energy, The second law, entropy and free energy, Free energy, chemical potential, effect of temperature and pressure on free energy changes, Tourton s and Richard s rules - Free energy changes and equilibrium constant, effect of temperature on the equilibrium constant,. Absolute entropy- the third law. Phase diagrams and the phase rule: phase stability and phase transition, the physical liquid surface; surface tension, curved surface, and capillary action.

11 Number: CHEM242 Name: Experimental Physical Chemistry I Credit Hours: (-0-) Pre-requisite: CHEM24* Content: Introduction and laboratory safety experiment design Determination of the gas constant, R. The faraday and Avogadro s number. Molecular radius from viscosity measurements. Molecular weight of a polymer. Molecular weight (Rast method and/or Beckmann s method). Electrochemical cells and thermodynamics. Heat of solution. Heat of vaporization. Standard enthalpy change. Surface tension. Heat of adsorption Dissociation constant of an acid Phase diagrams. Cooling curves. Two components. Three components system Number: CHEM4 Name: Physical Chemistry II Credit Hours: (,,0) Pre-requisite: CHEM24 Content: Chemical kinetics, reaction orders, first, second and third orders, reactions approaching equilibrium, parallel first order reactions, consecutive elementary reactions, the Michaels- Mentenmechanism, the Lindemann-Hinshelwood mechanism, theories of the rate constant (collision theory and activated complex theory). Equilibrium electrochemistry, ion activities, electrochemical cells. Dynamic electrochemistry. Processes at solid surfaces. Surface growth. Surface composition. Surface sensitive techniques. The adsorption processes. Number: CHME20 Name: Introduction to I Credit Hours: (--0) Pre-requisite: MATH0, PHYS9, CHEM0 Content: The role of chemical engineers in process industries. Systems of units. Basic process variables and different types of energy. Dimensional consistency of equations. Scientific tation. Precision, accuracy, error, and rounding. Curve fitting, solution of linear sets of algebraic equations, solution techniques for nlinear algebraic equations (one equation). Fundamentals of material balance calculations, including reactive and n-reactive systems. Combustion reactions. Single phase systems. Ideal and real gas laws. Balances on multiple unit systems. Degrees of freedom analysis. Number: CHME202 Name: Introduction to II Credit Hours: (--0) Pre-requisite: CHME20 Content: Multiphase systems, single component phase equilibrium. Phase diagrams for single components. The Gibbs phase rule, steady-state mass balances on gas-liquid systems involving one condensable component. Applications. Multicomponent gas-liquid systems. Solutions of solids in liquids. Immiscible and partially miscible liquids. Raoult s and Henry s Laws. The bubble and dew point calculations. Phase diagrams for ternary systems. Energy and energy balances, the first law of thermodynamics, thermodynamic data, simultaneous material and energy balances. Balances on n-reactive systems: phase change operations, the psychometric chart, enthalpy concentration diagrams, flash evaporation. Balances on reactive systems, heats of reaction, Hess s Law. Multiple unit flowsheets. Degrees of freedom analysis. An introduction to simulation.

12 Number: CHME22 Name: Thermodynamics I Credit Hours: (--0) Pre-requisite: CHME20 Content: Fundamental concepts. Thermodynamic properties of fluids. Equations of state. Diagrams, tables, and generalized correlations of thermodynamic properties. Work and heat. First law of thermodynamics. Heat effect. Second law of thermodynamics. Power and refrigeration cycles. Number: CHME2 Name: Fluid Mechanics Credit Hours: (--0) Pre-requisite: MATH02, CHME20 Content: Fluid Statics. Viscosity of fluid and type of flow. Mass, energy, and momentum balance. Berulli s equation. Pressure and Flow measurements. Fluid friction in pipes and fittings. One- Dimensional gas flow. Pump, Compressors and Turbines. Potential flow. Hydrodynamic boundary layer and turbulence.flow past immersed objects. Flow in packed beds. Fluidization. Introduction to gas liquid flow. Surface forces. Number: CHME Name: Heat Transfer Credit Hours: (--0) Pre-requisite: CHME202, CHME2, GENG00* Content: Conduction. Shape factors. Extended surfaces. Thermal boundary layer and turbulence. Heat transfer inside pipes and outside geometries. Heat transfer for flow in packed beds. Free convection. Boiling. Condensation. Heat exchangers. Radiation heat transfer. Number: CHME2 Name: Thermodynamics II Credit Hours: (--0) Pre-requisite: CHME22, CHEM4* Content: Heat engine and Refrigeration systems. Non-ideal behavior in systems of variable composition. Partial molar properties. Fugacity and fugacity coefficients. Excess properties and activity coefficients. Heat effects of mixing. Phase equilibria at low to moderate pressures. The phase rule and Duham s theorem. Dew point, bubble point, and flash calculations. Chemical reaction equilibria. Equilibrium constants and dependence on temperature. Calculation of equilibrium conversions for single and multi reactions. Number: CHME Name: Mass Transfer I Credit Hours: (--0) Pre-requisite: : CHME*, CHME2* Content: Molecular mass transfer. Estimation & measurement of diffusion coefficient. Analogies among mass, heat, & momentum transfer. Turbulence effects. Correlations for mass-transfer coefficients in laminar & turbulent flow. Interface mass transfer, Continuous two-phase transport. Absorption. Adsorption. Drying.

13 Number: CHME4 Name: Chemical Reaction Engineering Credit Hours: (--0) Pre-requisite: CHME202, CHME2 Content: The rate of reaction, interpretation of kinetic data, batch reactors, continuous flow reactors. Design equations for batch systems, flow systems reactors in series. The reaction rate constant, the reaction order, elementary reactions and molecularity. Reversible reactions and n-elementary reactions. Reactor sizing, batch systems, constant volume reaction systems, flow systems, volume change with reactions. Isothermal reactor design, continuous stirred tank reactors (CSTR) and tubular reactors. Pressure drop in reactors. Unsteady state operation of reactors. Number: CHME5 Name: Mass Transfer II Credit Hours: (--0) Pre-requisite: CHME Content: Distillation, liquid-liquid extraction and leaching. Humidification. Crystallization. Number: CHME24 Name: Laboratory I Credit Hours: (-0-) Pre-requisite: ENGL202, CHME2, CHME* Content: Experiments in Fluid Flow and Heat Transfer: Frictional Pressure Losses in Pipes & Fittings, Pump Performance, Pressure-drop through a Packed Bed, Double Pipe and Shell & Tube Heat Exchangers. Number: CHME25 Name: Laboratory II Credit Hours: (-0-) Pre-requisite: CHME24, CHME Content: Experiments in heat transfer with phase change, mass transfer and separation processes: boiling, condensation, drying, humidification, gas absorption, batch and fractional distillation, Liquid-Liquid extraction. Number: CHME99 Name: Practical Training Credit Hours: Pre-requisite: Department approval Content: Supervised eight week training period at an approved engineering concern (consulting, contracting, industrial, government), intended to provide students with hands-on experience at the workplace. Evaluation is based on: Daily performance, supervisor s input, student s report, and a short presentation.

14 Number: CHME42 Name: Plant Design I Credit Hours: (--0) Pre-requisite: CHME5 Content: Introduction to design, flow sheeting, design information and data. Case studies involving applications of chemical engineering ecomic principles to the design of a selected chemical manufacturing process. Hazards, industrial safety, site location and plant layout. Detailed design procedure for selected equipment e.g. plate towers for distillation, design of liquid mixing systems, design of gravity settlers, reaction vessels, pumps, and compressors. Number: CHME422 Name: Plant Design II Credit Hours: (--0) Pre-requisite: GENG60, CHME42 Content: Case study involving applications of chemical engineering and ecomic principles to the design of a selected manufacturing process. Number: CHME42 Name: Process Control Credit Hours: (--0) Pre-requisite: MATH27, CHME Content: General review of Laplace Transforms. Linear open-loop systems. Firstorder systems alone and in series. Higher-order systems. Linear closed-loop systems. Controllers and final control elements. Closed-loop transfer functions. Transient response. Stability. Number: CHME426 Name: Laboratory III Credit Hours: (-0-) Pre-requisite: CHME4, CHME42 Content: Experiments in solid handling, process control, and kinetics. Filtration: batch and continuous. Membrane separation. Use of computer simulation to predict experimental results. Use analog and digital control equipment. Student originated experiments. Number: CHME495 Name: Graduation Project I Credit Hours: (--0) Pre-requisite: CHME42* Content: An in-depth study of a project of defined chemical engineering significance based on laboratory or computer oriented investigations. Students work in close accord with a faculty member on a project of mutual interest. Written reports and oral presentations are required for evaluation by the department. This course gives the student an opportunity to demonstrate his ability to work with a minimum of supervision. Number: CHME496 Name: Graduation Project II Credit Hours: (--0) Pre-requisite: CHME495 Content: Continuation of CHME495 Graduation Project I.

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