Postgraduate Courses

a) Undergraduate courses marked with [BLD] or [SPO] may be offered in the mode of blended learning or self-paced online delivery respectively, subject to different offerings. Students should check the delivery mode of the class section before registration.

b) Undergraduate courses marked with [EXP] may adopt the approach of experiential learning subject to different offerings. Students should check the delivery mode of the class section before registration.

• CENG 5100

  Advanced Reaction Engineering

  [3-0-0:3]
  Background

  CENG 3230

  Description

  Reaction mechanisms and kinetics. Homogeneous and heterogeneous catalysis. Ideal reactors. Multiphase reactors. Interplay of reaction, mixing, heat and mass transfer. Design of reaction systems involving organics, inorganics, and polymeric materials. Experimental techniques in reaction engineering. Use of mathematical software to problem solving.
• CENG 5210

  Advanced Separation Processes

  [3-0-0:3]
  Exclusion(s)

  CBME 5210 (prior to 2023-24)

  Background

  CENG 3210

  Description

  Separation of gaseous and liquid mixtures by adsorption. Affinity chromatography. Membrane separation technology: reverse osmosis, ultrafiltration. Electrophoresis and other product recovery methods.
• CENG 5220

  Numerical Methods for Chemical Engineers

  [3-0-0:3]
  Previous Course Code(s)

  CENG 6000K

  Background

  Elementary background knowledge on linear algebra is preferred

  Description

  This course discusses the application of various numerical methods to solve typical problems found in the chemical engineering discipline. Topics include systems of linear and non-linear algebraic equations, ordinary and partial differential equations, and numerical optimization. The aim is to equip students with a practical set of skills to solve mathematical problems that they may encounter in their research or chemical engineering profession.
• CENG 5230

  Advanced Control and Data Science

  [3-0-0:3]
  Previous Course Code(s)

  CENG 6000M

  Description

  The course will cover digital and advanced control methods such as adaptive, model predictive, and learning controls and methods of process monitoring and optimization in the context of big data environment.
• CENG 5240

  Deep Learning for Chemical and Biological Engineering

  [3-0-0:3]
  Previous Course Code(s)

  CENG 6000N

  Background

  Basic programming skills (in any language) with experience, and mathematical knowledge, especially on linear algebra and statistics

  Description

  This course provides an introduction to the application of deep learning methods in chemical and biological engineering. The course will cover the fundamental concepts and techniques in deep learning, such as deep neural networks, backpropagation, convolutional and recurrent neural networks, and transformer models. The course will focus on applying these methods to solve problems in chemical and biological engineering, including molecule and reaction property prediction, drug discovery, process monitoring and control, etc.
• CENG 5300

  Advanced Chemical Engineering Thermodynamics

  [3-0-0:3]
  Previous Course Code(s)

  CENG 6000A

  Background

  CENG 2210, or any undergraduate-level physical chemistry or engineering thermodynamics course

  Description

  The fundamental laws of thermodynamics, properties of pure substances and mixtures, phase and chemical equilibria, intermolecular forces. Brief introduction to statistical thermodynamics, colloid and interfacial phenomena, and molecular self-assembly.
• CENG 5520

  Polymer and Materials Characterization Techniques

  [3-0-0:3]
  Previous Course Code(s)

  CENG 6000H

  Exclusion(s)

  CENG 4000J, CBME 5520, FYTG 5412 (prior to 2018-19)

  Description

  The course will first review some basic concepts in polymer physics and polymer chemistry. The course focuses more in polymer and materials characterization and related fabrication toward applications of advanced and functional polymers. The characterization techniques include thermal analysis of differential scanning calorimetry (DSC), dynamic thermal mechanical analysis (DTMA), thermal gravimetric analysis (TGA), scanning electron microscopy (SEM), transmission electron microscopy (TEC), optical microscopy, infrared spectroscopy (FTIR), X-ray diffraction, surface analysis, and mechanical properties and testing. MCPR's instrument demo will also be arranged.
• CENG 5550

  Polymer Physics and Advanced Applications

  [3-0-0:3]
  Previous Course Code(s)

  CENG 6000B

  Description

  The course will provide students with a general understanding of the relationship of polymer structure and properties that may help them in selection and design of polymers for their research. Applications in engineering materials, membrane separations, and bioengineering will be discussed.
• CENG 5610

  Protein Engineering

  [3-0-0:3]
  Previous Course Code(s)

  CENG 6000G

  Exclusion(s)

  CBME 5920

  Description

  This course introduces fundamentals of protein science as well as rational design and evolutionary approaches for engineering protein molecules. Protein fundamentals provide the basic knowledge of protein structure and function. Rational design-based protein engineering use several case studies to illustrate the role of modern computational tools in design of functional protein molecules such as catalysts, biosensors, biomaterials, etc. Protein directed evolution topics cover mechanisms of biomolecular evolution, fitness landscapes, examples of successful protein evolution, and metabolic engineering enabled by directed evolution.
• CENG 5840

  Nanomaterials for Chemical Engineering Applications

  [2-1-0:3]
  Co-list with

  NANO 5350

  Prerequisite(s)

  CENG 1500, CENG 3210, CENG 3230

  Exclusion(s)

  CBME 5840, CENG 4540, NANO 5350

  Description

  Nanomaterials and nanotechnology have become a rapid growth area in the 21st century. This course provides an introduction to students who enter into this exciting area of research. The course will focus on major routes for the synthesis of nanostructured materials. Selected applications of nanomaterials in chemical engineering applications, such as separation and catalysis, will be studied.
• CENG 5930

  Electrochemical Energy Technologies

  [3-0-0:3]
  Previous Course Code(s)

  CENG 6000E

  Co-list with

  ENEG 5500

  Exclusion(s)

  CBME 5830, ENEG 5500

  Description

  Electrochemical energy conversion and storage technologies such as fuel cells, batteries, supercapacitors, solar cells, electrolyzers, CO2 reduction, etc. help overcome the energy and environmental problems that have become prevalent in our society. This course will focus on the principles and critical materials for each technology. Cutting-edge research areas as well as electrochemistry fundamentals will be discussed in this course.

  Intended Learning Outcomes

  On successful completion of the course, students will be able to:

  • 1.
    Distinguish the working principles of each electrochemical energy technology.
  • 2.
    Assess the advantages and limitations of each technology.
  • 3.
    Analyze the current research trend of each technology.
  • 4.
    Design the critical materials including anode, cathode, eletrolytes, etc. for each technology.
  • 5.
    Apply basic electrochemistry principles in energy conversion and storage.
• CENG 6000

  Special Topics

  [1-3 credit(s)]
  Description

  Selected topics in chemical and biological engineering of current interest in emerging areas and not covered by existing courses. May be repeated for credit if different topics are covered. May be graded by letter or P/F for different offerings.
• CENG 6800

  Chemical and Biomolecular Engineering Seminar

  [0-1-0:0]
  Description

  Seminar topics presented by students, faculty and guest speakers. Students are expected to attend regularly and demonstrate proficiency in presentation in accordance with the program requirements. Graded P or F.
• CENG 6900

  Independent Study

  [1-3 credit(s)]
  Exclusion(s)

  CENG 6800

  Description

  Selected topics in chemical engineering studied under the supervision of a faculty member. Graded P or F.
• CENG 6990

  MPhil Thesis Research
  Description

  Master's thesis research supervised by a faculty member. A successful defense of the thesis leads to the grade Pass. No course credit is assigned.
• CENG 7990

  Doctoral Thesis Research
  Description

  Original and independent doctoral thesis research. A successful defense of the thesis leads to the grade Pass. No course credit is assigned.