Undergraduate Catalog

Bachelor of Science in Chemical Engineering Requirements

The field of chemical engineering deals with the science and engineering of chemical reactions and separation processes. It applies physical and life sciences together with engineering and economic principles to produce, transform, transport, and properly use chemicals, materials and energy.

 

A BSc in Chemical Engineering program educates engineers to design, develop, and operate chemical processes by which chemicals, petroleum products, food, pharmaceuticals, and consumer goods can be produced economically and safely. The program incorporates extensive laboratory work and computer process simulation to reinforce the principles and concepts used in the classroom.

 

Program Educational Objectives

 

  • Successful practice of the chemical engineering profession.
  • Design and safe operation of process plants.
  • Successful career in research and development.

 

Program Learning Outcomes

Students graduating with a BSc in Chemical Engineering degree will attain the following:

 

(1)

An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics.

(2)

An ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors.

(3)

An ability to communicate effectively with a range of audiences.

(4)

An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts.

(5)

An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives.

(6)

An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions.

(7)

An ability to acquire and apply new knowledge as needed, using appropriate learning strategies.

 

Program Facilities

The Chemical Engineering Program laboratories include:

  • Catalysis Laboratory
  • Computing Laboratory
  • Instrumentation Laboratory
  • Polymer Chemistry Laboratory
  • Polymer Processing Laboratory
  • Polymer Properties and Characterization Laboratory
  • Reaction Engineering Laboratory
  • Thermodynamics Laboratory
  • Unit Operations Laboratory
  • Petroleum Refinery Laboratory

 

Professional Chapters

The Chemical Engineering program is supported by a student chapter of the American Institute of Chemical Engineering (AIChE). The aim of the chapter is to promote chemical engineering and establish a bridge between the students and the professional community at large. AIChE holds regular meetings for its members and organizes social and technical activities open to all students.

Degree Requirements

To be recommended for graduation with a BSc in Chemical Engineering, students must satisfactorily complete the courses in the specified categories as set out below. The categories cover the University General Education Requirements (GER, 48 credits), Additional MATH/Science Requirements (15 credits), as well as Chemical Engineering Core and Technical Electives requirements of 67 credits. The normal length of the program is 130 credits.

Additional Math/Sciences Requirements (15 credits)

To satisfy the College of Engineering and Physical Sciences requirements, the BSc in Chemical Engineering requires the following Mathematics and Sciences courses in addition to the Math/Science required in GERs: CHEM115, PHYS121, , MATH111, and MATH112.

CHEM 116General Chemistry II

4

CHEM 211Fundamentals of Organic Chemistry

4

MATH 211Differential Equations and Linear Algebra

4

MATH 231Calculus III

3

Chemical Engineering Core Requirements (55 credits)

CHEG 205Principles of Chemical Engineering

3

CHEG 213Experimental Design

3

CHEG 230Chemical Engineering Thermodynamics I

3

CHEG 232Fluid Mechanics

4

CHEG 310Introduction to Biochemical Engineering

3

CHEG 312Numerical Methods for Chemical Engineers

3

CHEG 324Mass Transfer

3

CHEG 332Chemical Engineering Thermodynamics II

4

CHEG 335Heat Transfer

4

CHEG 350Materials Science & Engineering

3

CHEG 412Process Dynamics & Control

4

CHEG 443Reaction Engineering

4

CHEG 485Separation Processes

4

CHEG 497Senior Design Project I

3

CHEG 498Senior Design Project II

3

ESMA 200Engineering Economic Analysis

3

CHEG 399Chemical Engineering Internship

1

CHEG 399Chemical Engineering Internship

1

Chemical Engineering Technical Electives (12 credits)

The following is a sample list of courses that will satisfy the Technical Electives requirement for the BSc in Chemical Engineering program. Students must select a total of 12 credits from this list. All Technical electives must be at 300-level or 400-level and at most three credits may be Undergraduate Research. In addition, courses from the list below may be taken to satisfy the free electives requirement. Additional courses may be approved by the department as technical electives.

CHEG 325Fundamentals of Nanotechnology

3

CHEG 340Chemical Extraction of Metals

3

CHEG 341Electrochemical Engineering

3

CHEG 352Materials in Nuclear Power Plants

3

CHEG 360Introduction to Hydrogen Technologies and Applications

3

CHEG 361Hydrogen Safety

3

CHEG 362Climate Change Policy and Risk Management

3

CHEG 380Introduction To Polymer Science and Engineering

3

CHEG 381Polymer Chemistry and Reaction Engineering

3

 Space

CHEG 377Undergraduate Research

3

Or

CHEG 477Undergraduate Research

3

 Space

CHEG 395Special Topics in Chemical Engineering

3

Or

CHEG 495Special Topics in Chemical Engineering

3

 Space

CHEG 402Introduction to Energy Transition Management

3

CHEG 403Innov. Low-Carbon Enrgy Con Sy

3

CHEG 404Bioenergy

3

CHEG 410Pollution Prevention and Waste Management

3

CHEG 411Green Chemical Engineering

3

CHEG 415Combustion and Air Pollution Control

3

CHEG 416Corrosion Engineering

3

CHEG 423Gas Processing Engineering

3

CHEG 424Petroleum Refining and Processing

3

CHEG 430Bioseparation Engineering

3

CHEG 432Food Engineering and Technology

3

CHEG 433Applied Biotechnology

3

CHEG 460Introduction to Clean Energy Production

3

CHEG 470Industrial Catalysis

3

CHEG 471Water Chemistry for Environmental Engineering

3

CHEG 472Water Treatment and Membrane Processes

3

CHEG 488Polymer Properties

3

Hydrogen and Sustainable Energy Track (Optional)

This track will provide students with an appropriate mastery of knowledge, techniques, skills and modern tools in major features of hydrogen and sustainable energy technologies, current impact and interactions of such technologies with the environment, as well as relevant hydrogen economic and policy developments. Students are expected to develop a thorough understanding of existing and emerging technologies to generate, purify, transport and safely utilize Hydrogen, in the framework of renewable and clean energies, with a strong focus on industrialization and technology implementation. Students should take all 4 courses.

CHEG 360Introduction to Hydrogen Technologies and Applications

3

CHEG 460Introduction to Clean Energy Production

3

CHEG 361Hydrogen Safety

3

CHEG 325Fundamentals of Nanotechnology

3

CHEG 360, CHEG 460, CHEG 361, and CHEG 325: CHEG Technical Elective.

Water and Environmental Engineering Track (Optional)

This track aims to equip chemical engineering students with the basic tools needed to create engineered solutions to environmental challenges within the chemical industry and beyond. The track draws on a range of disciplines, including chemistry, ecology, mathematics, biology, and engineering to cover key topics, such as clean water supply, proper wastewater treatment and discharge, treatment and disposal of liquid and solid wastes, and the control of water, soil and atmospheric pollution. Students should take CHEG 472 as well as 3 of the remaining 5 offered courses.

CHEG 472Water Treatment and Membrane Processes

3

CHEG 415Combustion and Air Pollution Control

3

CHEG 410Pollution Prevention and Waste Management

3

CHEG 411Green Chemical Engineering

3

CHEG 471Water Chemistry for Environmental Engineering

3

CHEG 472, CHEG 415, CHEG 410, CHEG 411, and CHEG 471: CHEG Technical Elective.

Materials Track (Optional)

This track considers modern applications of downstream petroleum-based industries such as polymers and plastics and also novel nanomaterials such as carbon and metal oxide materials. Students should take 4 out of the 6 offered.

CHEG 325Fundamentals of Nanotechnology

3

CHEG 340Chemical Extraction of Metals

3

CHEG 380Introduction To Polymer Science and Engineering

3

CHEG 416Corrosion Engineering

3

CHEG 470Industrial Catalysis

3

CHEG 488Polymer Properties

3

CHEG 325, CHEG 340, CHEG 380, CHEG 416, CHEG 470, and CHEG 488: CHEG Technical Elective.