Graduate Catalog

Program Structure and Requirements

Overall Program Structure

The MSc CHEG consists of a minimum 30 credit hours, distributed as follows: 12 credit hours of Program Core courses, 9 credit hours of Program Elective courses, 9 credit hours of Master’s Thesis and a zero credit Research Methods course. Students may organize the selection of elective courses relevant to the Master’s Thesis topic with the consent of the Main Advisor. The components of the program are summarized in the table below.

Program Component Credit Hours
Seminar in Research Methods 0
Program Core 12
Program Electives  9
Master’s Thesis  9
Total 30

Program Requirements

Students seeking the degree of MSc in Chemical Engineering must successfully complete a minimum 30 credit hours as specified in the program requirements detailed below, with a minimum CGPA of 3.0. Course selection should be made in consultation with the student’s Main Advisor. All courses have a credit rating of three credits each, except the Seminar in Research Methods and the Master’s Thesis.

Program Core (12 credit hours)

The MSc in CHEG degree program core requires a minimum of 12 credits, consisting of 4 core courses, and the Seminar in Research Methods course which has zero credit rating.  The courses are specified below.

I. CHEG Core Courses (12 credits):

It is mandatory for the students to complete the following listed courses:

CHEG 610 Advanced Chemical Reaction Engineering

CHEG 620 Mathematical Methods in Chemical Engineering

CHEG 630 Advanced Chemical Engineering Thermodynamics

CHEG 640 Transport Phenomena

II. ENGR 695 Seminar in Research Methods (0 credits)

Core Courses

ENGR 695Seminar in Research Methods

0

CHEG 610Advanced Chemical Reaction Engineering

3

CHEG 620Mathematical Methods in Chemical Engineering

3

CHEG 630Advanced Chemical Engineering Thermodynamics

3

CHEG 640Transport Phenomena

3

Program Electives and Concentrations (9 credit hours)

Students must complete a minimum of 9 credits of electives from the list of courses below.  Students can also select up to two elective courses (6 credits) from other MSc programs at KU, subject to the approval of their research advisor.

  • CHEG 606/WENV 606    Wastewater Treatment Engineering
  • CHEG 611     Polymer Reaction Engineering
  • CHEG 621     Numerical Methods in Chemical Engineering
  • CHEG 622     Process Simulation and Optimization
  • CHEG 623     Systems Engineering
  • CHEG 631     Statistical Thermodynamics
  • CHEG 641     Multiphase Flow
  • CHEG 642     Separation Processes
  • CHEG 643     Colloids and Interfacial Science
  • CHEG 644     Consequence Analysis of Chemical Releases
  • CHEG 651     Combustion and Air Pollution Control
  • CHEG 652     Advanced Process Control
  • CHEG 653     Sustainable Energy Conversion Processes
  • CHEG 654     Chemical Process Safety
  • CHEG 655     Air Quality Management
  • CHEG 656     Experimental Design
  • CHEG 657     Materials Engineering and Corrosion
  • CHEG 658     Polymer Properties and Processing
  • CHEG 659     Engineering Design for Process Safety
  • CHEG 694     Selected Topics in Chemical Engineering

Program Elective Courses

CHEG 604Desalination

3

CHEG 606Wastewater Treatment Engineering

3

CHEG 611Polymer Reaction Engineering

3

CHEG 621Numerical Methods in Chemical Engineering

3

CHEG 622Process Simulation and Optimization

3

CHEG 623Systems Engineering

3

CHEG 631Statistical Thermodynamics

3

CHEG 641Multiphase Flow

3

CHEG 642Separation Processes

3

CHEG 643Colloids and Interfacial Science

3

CHEG 644Consequence analysis of chemical releases

3

CHEG 651Combustion and Air Pollution Control

3

CHEG 652Advanced Process Control

3

CHEG 653Sustainable Energy Conversion Processes

3

CHEG 654Chemical Process Safety

3

CHEG 655Air Quality Management

3

CHEG 656Experimental Design

3

CHEG 657Materials Engineering and Corrosion

3

CHEG 658Polymer Properties and Processing

3

CHEG 659Engineering Design for Process Safty

3

CHEG 694Selected Topics in Chemical Engineering

3

Concentration in Food Process Engineering and Technology (FPET)

The MSc in CHEG program offers an optional concentration in Food Process Engineering and Technology. Students choosing this concentration are expected to attain the following concentration specific learning outcomes:

  1. Apply the knowledge of food science and engineering in the processing, preservation, and packaging of nutritious and high-quality food products while meeting food safety standards and regulations.
  2. Demonstrate an understanding of the advanced and emerging technologies for food processing operations, quality control, and farming along with their impact on the environment.

In addition to program specific core courses, students who opt for the concentration in Food Process Engineering and Technology must complete a minimum of three courses (9 credit hours) from the list below and a thesis within the domain of the concentration. The concentration will be specified on the student’s official transcript.

List of courses for Food Process Engineering and Technology Concentration:

Concentration Courses

CHEG 660Food Engineering and Science

3

CHEG 661Food Preservation and Packaging

3

CHEG 662Food Safety and Legislation

3

CHEG 663Food Systems Engineering

3

CHEG 664Enzymes in Food Engineering

3

CHEG 665Farming Technologies for Arid Climate

3

Concentration in Metallurgy Engineering (METE)

The MSc in CHEG program offers an optional concentration in Metallurgy Engineering. Students choosing this concentration are expected to attain the following concentration specific learning outcomes:

  1. Assess the application of the principles involved in mineral processing and chemical extraction of metals.
  2. Assess the application of the principles that support microstructure, properties, behavior of metals and alloys to design and produce advanced metals and alloys.
  3. Demonstrate an ability to describe and apply international best practice standards in minerals engineering, metallurgical methods and technologies.

In addition to program specific core courses, students who opt for the concentration in Metallurgy Engineering must complete a minimum of three courses (9 credit hours) from the list below and a thesis within the domain of the concentration. The concentration will be specified on the student’s official transcript.

 

List of courses for Metallurgical Engineering Concentration:

  • CHEG/MSEN 670 Advanced Chemical Metallurgy
  • CHEG/MSEN 671 Advanced Physical Metallurgy
  • CHEG/MSEN 672 Materials Characterization
  • CHEG/MSEN 673 Phase Transformations in Metals
  • CHEG/MSEN 657 Materials Engineering and Corrosion 

Concentration Courses

CHEG 670Advanced Extractive Metallurgy

3

CHEG 671Advanced Physical Metallurgy

3

CHEG 672Materials Characterization

3

CHEG 673Phase Transformations in Metals

3

CHEG 657Materials Engineering and Corrosion

3

Master’s Thesis (minimum 9 credit hours)

Students must complete a Master’s Thesis that involves creative, research-oriented work within the broad field of chemical engineering, under the direct supervision of a full-time faculty advisor from the Chemical and Petroleum Engineering Department, and at least one other full-time faculty who acts as a co-advisor. The outcome of research should demonstrate the synthesis of information into knowledge in a form that may be used by others. The research findings must be documented in a formal thesis and defended successfully in a viva voce examination. Furthermore, the research should lead to publishable quality scholarly articles.

Thesis

CHEG 699Master's Thesis

9