Chemical Engineering (CHE)

Advanced Course offering in Chemical Engineering (CHE)

CHE    300   Transport Phenomena II                                               

Modes of heat transfer. Differential equations of energy transport. Steady and transient heat conduction. Free and forced convection in laminar and turbulent flows. Momentum and heat transfer analogies. Boiling and condensation. Radiation heat transfer. Application to the design of process heat transfer equipment.

Prerequisite: CHE 204

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CHE    303   Chemical Engineering Thermodynamics II               

Review of 1st and 2nd laws. Thermodynamic relations. PVT properties. Thermodynamic diagrams. Properties of mixtures. Ideal and real mixtures. Phase equilibria, calculation concepts. The concept of fugacity and activity in liquid phase models. Chemical reaction equilibria concepts and criteria. The steam power plant.

Prerequisites: MATH 202, CHE 203

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CHE    304   Transport Phenomena III                                            

Fundamentals of mass transfer. Differential equations of mass transfer. Steady-state and unsteady-state molecular diffusion. Convective mass transfer. Interface mass transfer. Mass transfer theories. Mass transfer equipment. Absorption and humidification operations.

Prerequisite: CHE 204

Corequisite:  CHE 300

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CHE    306   Stagewise Operations                                               

Review of vapor-liquid equilibria. Differential and flash distillation. Binary distillation. McCabe-Thiele and Ponchon-Savarit methods. Introduction to multicomponent distillation. Liquid-liquid and solid-liquid extraction.

Prerequisites: CHE 303, CHE 304

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CHE    309   Chemical Engineering Laboratory I                                  

This laboratory emphasizes concepts presented in the transport phenomena courses. A safety session is given at the commencement of the course. Safe practices are strictly adhered to throughout the course. Students carry out selected experiments in fluid mechanics, heat transfer, thermodynamics and diffusional mass transfer. Data collected are analyzed and compared to applicable theories.

Prerequisites: CHE 300, ENGL 214

Corequisite:    CHE 304

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CHE    325   Chemical Engineering Computing Laboratory                

Programming chemical engineering calculations and problem solving. Data acquisition and processing, computer assisted design and simulation of chemical engineering problems using appropriate commercial software packages.

Corequisite: CHE 306

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CHE    351   Applied Chemical Engineering Cooperative Work         

In this course the student will spend a period of 28 weeks of industrial employment in industry. Students are required to write a detailed formal report on their experience. Evaluation by the employer will be counted towards the grade given for this course.

Prerequisites: CHE 309, ENGL 214, Approval of the Department (85crs). (Registration in this course is limited to students in the College of Applied Engineering)

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CHE    401   Process Dynamics and Control                              

Dynamics and simulation of linear systems. Transfer functions for 1st and 2nd order. General Transfer functions. Linearization. Modes of control; Block diagram representataion, open and closed loop transfer functions, stability studies, parameter tuning, frequency response analysis, Nyquist and Bode diagrams. Case studies.

Prerequisites: CHE 306, SE 301

[ May not be taken for credit if credit already awarded for SE 302 or EE 380]

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CHE    402   Kinetics and Reactor Design                              

Theory of chemical kinetic mechanisms and derivation of overall rate expressions. Interpretation of constant volume, variable volume batch reactor data and its application to the design of ideal backmix and plug flow reactors. Comparison of reactor performance including series, parallel, and multiple reactions. Nonisothermal reactor operation. Basic heterogeneous reactions and nonideal reactors performance.

Prerequisites: CHE 303, CHEM 311, Senior Standing

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CHE    409   Chemical Engineering Laboratory II                       

A laboratory to complement the theoretical derivations in stagewise operations, process dynamics and control, and kinetics and reactor design. A safety session is given at the commencement of the course. Safe practices are strictly adhered to throughout the course. Two environmental engineering reaction experiments are included. Students carry out selected experiments,  analyze data collected referring to applicable theories and present their findings in formal reports.

Prerequisites: CHE 306, CHE 309

Corequisites:  CHE 401, CHE 402

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CHE    425   Engineering Economics and Design Principles                  

Process economic analysis of chemical plants with particular emphasis on cost estimation, interest calculations, depreciation, profitability, methods for decision-making among alternatives and capital budgeting.

Process flow diagram analysis, design of flow systems, design and integration of process equipment such as chemical reactors, separators, pumps, compressors, heat exchangers, absorbers, etc., into a chemical process. Development of the general principles of process design including materials selection, transfer and handling, plant location, plant layout, waste disposal, safety considerations, etc. Application of software packages such as Aspen Plus and Chemshare.

Prerequisite: CHE 306

Corequisite:  CHE 402

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CHE    440   Catalysis & Catalytic Processes                                          (3-0-3)

Basic definition and classification of catalysts, nature and mechanism of catalytic reactions, adsorption processes, catalyst preparation and catalyst characterization. Mass and heat transport effects in catalysis. Catalyst deactivation Basic design principles of heterogeneous catalytic reactors such as fixed bed and fluidized bed reactors. Industrial catalytic processes with emphasis on existing processes in Saudi Arabia.

Corequisite: CHE 402

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CHE    463   Polymer Technology                                    (3-0-3)

Structure and physical properties of polymers. Homogeneous and heterogeneous polymerization processes. The chemical, mechanical, and engineering properties of polymers as well as polymer processing and rheology are emphasized in this course.

Prerequisite: CHEM 311

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CHE    470    Process Air Pollution Control                                                (3-0-3)

Sources and effects of air pollution; air quality, atmospheric reactions and scavenging processes. Meteorological setting for dispersion of air pollutants. Theory of atmospheric dispersion modeling. Air pollution control concepts, selection, evaluation and application of control devices for emission and control from chemical and petrochemical industries.

Prerequisite: Senior Standing or Departmental Approval.

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CHE    480   Energy Technology                                              (3-0-3)

Statistics on global energy use, supply and demand of energy, energy generation from fossil and non-fossil fuels. Energy transportation and storage, energy from low-calorific value fuels, energy conservation and economics, and energy management.

Prerequisites: CHE 300, CHE 303

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CHE    495   Integrated Design Course                                        

Development of general engineering skills and judgment needed in the solution of open-ended problems from a technical-economic viewpoint are the major goals of this course. The design of a project from conception to implementation including preliminary feasibility study, preparation of process, flow diagram, process design, pre-construction cost estimate, equipment sizing (design), selection of materials of construction, and analysis of project.

Applications will be in areas such as petroleum, petrochemicals, emerging chemical industries and water desalination. Design topics will be assigned to teams of students.

Corequisite: CHE 425

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All Chemical Engineering Courses   (Undergraduate Program )

Chemical Engineering (CHE)

( Graduate Program )

Course offering Chemical Engineering ( Graduate Program ) :

CHE 530   Advanced Reaction Engineering (3-0-3)

A study of the effect of temperature on conversion, stability, and product distribution in complex homogeneous reactions. Analysis of flow and mixing patterns and residence time distributions in chemical reactors. Kinetics of catalytic gas-solid reactions, mass and heat transport effects in catalysis. Design of catalytic fixed-bed reactors.

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CHE 560   Numerical Methods in Chemical Engineering (3-0-3)

Normalization of models, visualization of profiles, analysis of models of chemical processes, non-linear finite difference techniques, orthogonal collocation, non-linear algebraic equations, initial value and boundary value problems in chemical engineering, software packages for solving such problems.

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CHE 561    Process Optimization  (3-0-3)

Review of computerized material and energy balances, modeling of chemical and biochemical processes. Formulation of optimization problems, nature and organization of optimization problems in the process industry, optimization theory and techniques (basic concepts, optimization of unconstrained functions, unconstrained multivariable optimization, constrained optimization, linear programming and nonlinear programming). Real Time Optimization (RTO) Calculus of variation and Pontryagin maximum principle, Energy Integration (IE), Mass Integration (MI and Pinch Technology.

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CHE 580   Research Report (3-0-3)

Overview of research methodology: documentation; statistics, experimental design, library and database use – CD-ROM and internet search, oral presentation skills with videotape review.  Students will focus on a specific research topic and produce a comprehensive technical report of publishable quality for a reputable journal. Seminar presentation to all faculty is required.

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CHE 590    Special Topics in Chemical Engineering (3-0-3)

Advanced topics are selected from the broad area of chemical engineering. The contents of the course are given in detail one semester in advance of that in which it is to be offered. The approval of the Graduate Council will be necessary for offering this course.

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CHE 599   Seminar (1-0-0)

Graduate students working towards either M.S. or Ph.D. degrees, are required to attend seminars given by faculty, visiting scholars and fellow graduate students. Additionally each student must present at least one seminar on a timely research topic. Among other things, this course is designed to give the student an overview of research in the department, and a familiarity with the research methodology, journals and professional societies in his discipline. Graded on a Pass or Fail basis.

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CHE 610   M.S. Thesis (0-0-6)

Involves individual studies by students in the field of chemical engineering. The work must be original and the concept, data and the conclusions must contribute new knowledge to the field of engineering. The quality of the work must reflect the student’s proficiency in research and creative thinking. Following preliminary studies and a literature survey on the thesis subject, each student will present his proposed thesis subject orally, and also submit a written proposal to the College of Graduate Studies for approval. On satisfactory completion of his thesis work, the student is required to make a formal defense of his research thesis.

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CHE 710         Ph.D. Dissertation (0-0-12)

Involves in-depth analysis of a particular branch of chemical engineering. The quality of the work must be original, creative and must be a significant contribution in the areas of the topic selected. The work should have an original experimental component. In addition, departmental regulations and those of the College of Graduate Studies must be satisfied.

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Other Courses Offering in:

College of Engineering Sciences  (CES):

·         Petroleum Engineering (PETE)

·         Chemical Engineering (CHE)

·         Mechanical Engineering (ME)

·         Electrical Engineering    (EE)

·         Civil Engineering (CE)

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College of Computer Sciences & Engineering  (CCSE):

·         Computer Engineering  (COE)

·         Systems Engineering   (SE)