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:: Course Modules ::

  The total number of credits in this course consist of 142 credits plus a workshop of two months apprenticeship (Not considered in total credits)

  No

  Subject

  Credit value

  1

  General subjects

  22 Credits

  2

  Basic subjects

  44 Credits

  3

  Principal subjects

  58 Credits

  4

  Specific subjects

  12 Credits

  5

  Optional subjects

  6 Credits

  6

  Internships

  2 Credits

 

  Table No 2. The Basic Subjects of Chemical Engineering

  B.Sc. Degree.

  * = Simultaneous Prerequisite

 

  No

  Subject

  Credit No

  Prerequisite or Presentation Time

  11

  Mathematics 1

  3

 

  12

  Mathematics 2

  3

  Mathematics 1

  13

  Differential Equations

  3

  Mathematics 1-2*

  14

  Engineering Mathematics

  3

  Differential Eq. Mathematics 2

  15

  Numerical Calculations

  2

  Differential Eq .

  16

  Physics 1

  3

 

  17

  Physics 2

  3

  Physics 1

  18

  Physic lab 1

  1

  Physics 1*

  19

  Physic lab 2

  1

  Physics 2*

  20

  Basic Chemistry-Chemical Engineering

  3

  -

  21

  Basic Chemistry Lab

  1

  Chemical Engineering Basic Chemistry

  22

  Organic Chemistry-Chemical Engineering

  3

  Chemical Engineering Basic Chemistry

  23

  Organic Chemistry lab-Chemical Engineering

  1

  Chemical Engineering Organic Chemistry

  24

  Analytical Chemistry

  3

  Chemical Engineering Basic Chemistry

  25

  Analytical Chemistry lab

  1

  Analytical Chemistry* 

  26

  General Workshop

  1

  -

  27

  Technical Drawing

 

  -

  28

  Computer Programming

  3

  -

  29

  Statics and Strength of Materials 

  3

  Physics 1

  30

  Engineering Software workshop

  1

  Computer Programming- * Numerical Calculations 

  Table 3 Chemical Engineering B.Sc. Principal Subjects

  * = Simultaneous, Prerequisite Credits.

 

  No

  Subject

  Credit No

  Prerequisite or Presentation Time

  31

  Introduction to chemical Engineering

  2

  -

  32

  Material and Energy Balances

  4

  -

  33

  Chemical Engineering Thermodynamics 1

  3

  Differential Equations *

  34

  Chemical Engineering thermodynamics 2

  3

  Chemical Engineering Thermodynamics 1

  35

  Chemical Engineering Chemistry-Physics

  3

  Chemical Engineering Thermodynamics 2*

  36

  Fluid Mechanics 1

  3

  Material and Energy Balances- Engineering Mathematics

  37

  Fluid Mechanics 2

  2

  Fluid Mechanics 1

  38

  Fluid Mechanics Lab

  1

  Fluid Mechanics 1

  39

  Heat Transfer 1

  3

  Fluid Mechanics 1

  40

  Heat Transfer 2

  3

  Heat Transfer 1

  41

  Heat Transfer Lab

  1

  Heat Transfer 1

  42

  Mass Transfer

  3

  Heat Transfer 1

  43

  Unit Operation 1

  3

  Mass Transfer*

  44

  Unit Operation 2

  3

  Unit Operation 1

  45

  Unit Operation Lab

  1

  Unit Operation 1

  46

  Process Control 1

  3

  Unit Operation 1

  47

  Process Control 2

  2

  Process Control 1

  48

  Process Control Lab

  1

  Process Control 1

  49

  Chemistry-Physics Lab

  1

  Chemical Engineering - Chemistry-Physics

  50

  Chemical Reaction Engineering

  4

  Mass transfer

  51

  Applied Mathematics in Chemical Engineering

  2

  Mass transfer

  52

  Chemical Engineering Software Workshop

  1

  Computer Programming Numerical Calculations, Unit Operation 1

  53

  Plant Design and Economics

  3

  Engineering Software Workshop- Chemical Reaction Engineering,*

  Unit Operation 2*

  54

  Project

  3

  Process Control 1

  55

  Internships (a two months Course)

  2

  Unit Operation 1*, Chemical Reaction Engineering *

  After Completing 90 credits

 

  Table (4) Chemical Engineering B.Sc. Course

  Specific Credits

 

  No

  Subject

  Credit No

  Total

  Theory

  Practical

  Prerequisite or Presentation Time

  56

  Petroleum Refining Processes

  2

  32

  32

  -

  Unit Operation 1

  57

  Gas Processes

  2

  32

  22

  -

  Unit Operation 1

  58

  Petrochemical Processes

  2

  32

  32

  -

  Unit Operation 1

  59

  Mineral Processes

  2

  32

  32

  -

  After completing Mass Transfer

  60

  Polymeric Processes

  2

  32

  32

  -

  After completing Mass Transfer

  61

  Bio - Technology

  2

  32

  32

  -

  After completing Mass Transfer

  62

  New Processes in Chemical Engineering

  2

  32

  32

  -

  After completing Mass Transfer

 

  Table (5) Chemical Engineering B.Sc. Course Optional Credits

 

  No

  Subject

  Credit No

  Total

  Theory

  Practical

  Considerations

  63

 

  Specification and Selection of Devices

  2

  32

  32

  -

  Simultaneous: Mass transfer

  64

  Measurement Methods of Engineering Quantities

  2

  32

  22

  -

  Simultaneous: Mass Transfer

  65

  Material Science and Corrosion

  2

  32

  32

  -

 Prerequisite: Chemistry-Physics

  66

  Safety in Chemical Industries

  2

  32

  32

  -

  After Completion of 60 Credits

  67

  Industrial Management

  2

  32

  32

  -

  After Completion of 60 Credits

  68

  Powder Technology

  2

  32

  32

  -

  Simultaneous: Mass transfer

  69

  Environmental Engineering

  2

  32

  32

  -

  After Completion of 60 Credits

  70

  Energy Systems

  2

  32

  32

  -

  Simultaneous: Mass Transfer

  71

  principals of Entrepreneurship

  2

  32

  32

  -

  -

 

  Chemical Engineering (Discontinuous) M.Sc. Subjects

  Chemical Engineering School admits Students for the following (2) Fields and (4) Disciplines.

 

 

  Field of study

  Discipline

  1

  Chemical Engineering

  -Mineral Industries

  -Separation Processes

  -Design, Simulation and Control of Processes

  -Thermodynamics, Kinetics and Reactor Design

  2

  Chemical Engineering Bio- Technology

 

 

  The Total Credits of M.Sc. Subjects in Chemical Engineering in each Discipline are 32 Credits, Which are as follows:

  Design, Simulation and Control of Processes Discipline:

  A. Make up Credits

  1. Technical Language

  2. Research Method

  B. Principal Credits:

  1. Advanced Engineering Mathematics 3 Credits

  2. Advanced Chemical Reaction Engineering 3 “

  3. Advanced Thermo dynamics 3 “

  4. Advanced Fluid Mechanics 3 “

  5. Advanced Heat Transfer 3 “

  6. Advanced Mass Transfer 3 “

  7. Advanced Numerical Calculations 3 “

  C. Optional Credits:

  1. Principals of Process Engineering 3 “

  2. Optimization 3”

  3. Modeling and Simulation 3 “

  4. Computer Aided Designing 3 “

  5. Process Integration 3”

  6. Energy Recovery in Industry 3 “

  7. Design of Processing Equipments

  D. Seminar and Thesis 8 “

  1. Seminar 2 “

  2. Thesis 6 “

  Mineral Industries Discipline

  A. Make up Credits:

  1. Technical Language

  2. Research Method

  B. Principal Credits:

  1. Advanced Engineering Mathematics 3 Credits

  2. Advanced Chemical Reaction Engineering 3 Credits

  3. Advanced Thermodynamics 3 Credits

  4. Advanced Fluids Mechanics 3 Credits

  5. Advanced Heat Transfer 3 Credits

  6. Advanced Mass Transfer 3 Credits

  7. Advanced Numerical Calculations 3 Credits

  C. Optional Credits:

  1. Materials Technology 3 Credits

  2. Heating and Cooling in inorganic Chemical Industries 3 Credits

  3. Optimization 3 Credits

  4. Cement Engineering 3 Credits

  5. Energy recovery in non- Metallic – Inorganic Industries 3 Credits

  6. Chemical Inorganic Industries Technology 3 Credits

  A. Seminar and Thesis 8 Credits

  1. Seminar 2 Credits

  2. Thesis 6 Credits

 

  

  Thermodynamics, Kinetics, Catalyst and Reactor Design Discipline :

  A. Make up Credits:

  1. Technical Language

  2. Research Methods

  B. Principal Credits:

  1. Advanced Engineering Mathematics 3 Credits

  2. Advanced Chemical Reaction Engineering 3 Credits

  3. Advanced Thermodynamics 3 Credits

  4. Advanced Fluid Mechanics 3 Credits

  5. Advanced Heat Transfer 3 Credits

  6. Advanced Mass Transfer 3 Credits

  7. Advanced Numerical Calculations 3 Credits

  C. Optional Credits:

  1. Non-ideal Solution Thermodynamic 3 Credits

  2. Thermodynamic properties of Fluids 3 Credits

  3. Statistical Thermodynamics 3 Credits

  4. Optimization 3 Credits

  5. Heterogeneous Catalysts 3 Credits

  6. Advanced Combustion Engineering 3 Credits

  7. Specific Industrial Reactor Design 3 Credits

  8. Thermodynamics of Electrolyte Solutions

  D. Seminar and Thesis

  1. Seminar 2 Credits

  2. Thesis 6 Credits

 

  Design of Separation Processes Discipline

  A. Make up Credits

  1. Technical Language

  2. Research Methods

  B. Principal Credits:

 

  1. Advanced Engineering Mathematics 3 Credits

  2. Advanced Chemical Reaction Engineering 3 Credits

  3. Advanced Thermodynamics 3 Credits

  4. Advanced Fluid Mechanics 3 Credits

  5. Advanced Heat Transfer 3 Credits

  6. Advanced Mass Transfer 3 Credits

  7. Advanced Numerical Calculations 3 Credits

  C. Optional Credits:

  1. Specific Separation Methods 3 Credits

  2. Multi-component Separation 3 Credits

  3. Industrial Crystallization 3 Credits

  4. Membrane Separation Processes 3 Credits

  5. Drying Phenomena 3 Credits

  6. Advanced Process Control 3 Credits

  7. Surface Phenomena 3 Credits

  8. Transport Phenomena in Biological Systems 3 Credits

 

  D. Seminar and Thesis 8 Credits

  1. Seminar 2 Credits

  2. Thesis 6 Credits

 

  Chemical Engineering – Biotechnology Discipline:

  A. Make up Credits: (Maximum 6 Credits with the department’s approval)

  1. Basic Microbiology 2 Credits

  2. Basic Biochemistry 2 Credits

  3. Genetics 2 Credits

  4. Technical Language 2 Credits

  5. Research Methods 2 Credits

  B. Compulsory Credits: (12 Credits)

  1. Advanced Engineering Mathematics 3 Credits

  2. Transport Phenomena in Biological Systems 3 Credits

  3. Design of Biochemical Reactors 3 Credits

  4. Industrial Microbiology and Fermentation Processes 3 Credits

  C. Optional Credits: (12 Credits)

  1. Biotechnology Lab 1 Credits

  2. Enzymes Technology 2 Credits

  3. Advanced Thermodynamics 3 Credits

  4. Non-ideal Solution Thermodynamics 3 Credits Prerequisite: Advanced Thermodynamics

  5. Metabolic Engineering 3 Credits

  6. Recovery and Separation of Biological Materials

  7. Statistics in Engineering Processes

  8. Waste Water Treatment

  9. Food Biotechnology

  10. Selected Discussions

  D. Seminar Thesis

  1. Seminar 2 Credits

  2. Thesis 6 Credits

 

  Chemical Engineering Ph.D. Curriculum

  The list of the Principal Subjects of Higher Educational Degree in Chemical Engineering, in addition to Principal M.Sc. Courses.

 

  No

  Subject name

  Credits

  1

  Advanced Heat Transfer (Convection)

  3

  2

  Advanced Heat Transfer (radiation)

  3

  3

  Advanced Transport Phenomena

  3

  4

  Advanced Control

  3

  5

  Advanced Numerical Calculations

  3

  6

  Multicomponent Separation

  3

  7

  Optimization in Chemical Engineering

  3

  8

  Modeling and Simulation of Processes

  3

  9

  Thermodynamics of Mixtures

  3

  10

  Specific Industrial Reactors Design

  3

  11

  Surface Phenomena

  3

  12

  Advanced Rheology and Non-Newtonian Fluids

  3

  13

  Advanced Environmental Engineering

  3

  14

  Conceptual Design Processes

  3

  15

  Transport Phenomena in Biological Systems

  3

  16

  Advanced Biochemical Engineering

  3

  17

  Polymer Process Engineering

  3

  18

  Specific Topics

  3

  19

  Ph.D. Seminar

  3

  20

  Ph.D. Thesis

  3

 

  Chemical Engineering Ph.D. Curriculum (Attachment 2)

  The List of Higher Educational Courses in Chemical Engineering

 

  Thermodynamics, Kinetics and Chemical Reactors Design Discipline

  No

  Course Name

  Credit No

  1

  Advance Thermodynamics

  3

  2

  Advanced Chemical Reaction Engineering

  3

  3

  Statistical Thermodynamics

  3

  4

  Properties of Fluids (Physical, Chemical, and Thermodynamic)

  3

  5

  Heterogeneous and Industrial Catalysts

  3

  6

  Specific Industrial Reactor Design

  3

  7

  Bio Chemical Reactors Design

  3

  8

  Kinetics and Polymerization Reactors

  3

  9

  Surface Phenomena

  3

  10

  Advanced Combustion Engineering

  3

  11

  Supercritical Extraction

  3

  12

  Advanced Electro- Chemical Engineering

  3

  13

  Cement Engineering

  3

  14

  Energy Optimization

  3

  15

  Pinch Technology

  3

  16

  Exergy

  3

  17

  Fluidization Engineering

  3

  18

  Special Topics

  3

  19

  Ph.D. Seminar

  3

  20

  Ph.D. Thesis

  3

 

  (Attachment 2)

  Chemical Engineering Doctoral Curriculum (Continued)

  The list of Higher Educational Subjects in Chemical Engineering

 

  Transport Phenomena and Separation Processes Discipline

  No

  Subject Name

  Credit No

 

  Besides Fluid Mechanics, Heat Transfer, Mass Transfer and Advanced Mathematics the Following Credits are Recommended:

  3

  1

  Advanced Transport Phenomena

  3

  2

  Multiphase Separation

  3

  3

  Boundary Layer Theory

  3

  4

  Turbulent Flows

  3

  5

  Multiphase Flows

 

  6

  Fluidization Engineering

  3

  7

  Industrial Crystallization

  3

  8

  Drying Phenomenon

  3

  9

  Hydrocarbon Reservoir Engineering

  3

  10

  Specific Separation Methods

  3

  11

  Membrane Separation Processes

  3

  12

  Supercritical Extraction

  3

  13

  Hydrodynamics of Macro Molecules

  3

  14

  Cement Engineering

  3

  15

  Advanced Refining Processes

  3

  16

  Specific Topics

  3

  17

  Ph.D. Seminar

  3

  18

  Ph.D. Thesis

  3

 

  (Attachment 2)

  Chemical Engineering Ph.D. Curriculum (Continued)

  The list of Higher Educational Subjects in Chemical Engineering

 

  Design, Simulation and Control of Processes Discipline

  No

  Credit Name

  Credit No

  1.

  Design of Chemical Processes

  3

  2.

  Process Equipment Design

  3

  3.

  Computer Aided Design

  3

  4.

  Modeling and Simulation

  3

  5.

  Advanced Chemical Reaction Engineering

  3

  6.

  Specific Industrial Reactor Design

  3

  7.

  Statistical Analysis of Processes

  3

  8.

  Finite Elements Method

  3

  9.

  Process Scale-up

  3

  10.

  Advanced Control

  3

  11.

  Control of Industrial Units

  3

  12.

  Modern and Digital Control

  3

  13.

  Optimization in Chemical Engineering

  3

  14.

  Energy Optimization

  3

  15.

  Pinch Technology

  3

  16.

  Exergy

  3

  17.

  Advanced Combustion Engineering

  3

  18.

  Advanced Refining Processes

  3

  19.

  Specific Topics

  3

  20.

  Ph.D. Seminar

  3

  21.

  Ph.D. Thesis

  3

 

  (Attachment 2)

  Chemical Engineering Ph.D. Curriculum (Continued)

  The List of Higher Educational Subjects in Chemical Engineering

 

  Biotechnology and Biochemical Engineering Discipline

  No

  Subject Name

  Credit No

  1

  Separation in Biological Systems

  3

  2

  Principles of Fermentation Technology

  3

  3

  Enzymes Technology

  3

  4

  Biochemical Reactors Design

  3

  5

  Application of Chemical Engineering in Medicine

  3

  6

  Advanced Environmental Engineering

  3

  7

  Specific Topics

  3

  8

  Ph.D. Seminar

  3

  9

  Ph.D. Thesis

  3

    (Attachment 2)

  Chemical Engineering Ph.D. Curriculum (Continued)

  The List of Higher Educational Subjects in Chemical Engineering

 

  Environmental Engineering Discipline

  No

  Subject Name

  Credit No

  1

  Advanced Environmental Engineering

  3

  2

  Advanced Waste Water Treatment

  3

  3

  Air Pollution Engineering

  3

  4

  Disposal and Management of Solid Waste Materials

  3

  5

  Advanced Biochemical Engineering

  3

  6

  Biochemical Reactor Design

  3

  7

  Advanced Combustion Engineering

  3

  8

  Specific Topics

  3

  9

  Ph.D. Seminar

  3

  10

  Ph.D. Thesis

  3

 

  (Attachment 2)

  Chemical Engineering Ph.D. Curriculum (Continued)

  The List of Higher Educational Subject in Chemical Engineering

 

  Polymer Engineering Discipline

  No

  Subject Name

  Credit No

  1

  Advanced Rheology and Non-Newtonian Fluids

  3

  2

  Hydrodynamics of Macro Molecules

  3

  3

  Kinetics and polymerization reactors

  3

  4

  Mechanical Properties of Polymers

  3

  5

  Specific Topics

  3

  6

  Ph.D. Seminar

  3

  7

  Ph.D. Thesis

  3

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