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Chemical Engineering
Chemical engineering is concerned with industrial processes involving chemical and physical changes. Chemical engineers create what has never been by using their fundamental knowledge of the basic sciences, their engineering training and an appreciation of economics. During their careers, chemical engineering graduates face the challenge of contemporary problems in pollution control, energy conversion, process sustainability and food processing. The Department of Chemical Engineering can provide the knowledge to help solve those problems.
There is a wide spectrum of opportunities for the chemical engineer in process development, pilot plant experimentation, process design, and operation of chemical plants, as well as in the development of new technologies and new materials. Other areas include corporate development, analysis of market opportunities, of competitive processing methods and of process economics.
Chemical engineers can find employment in the chemical, petro-chemical, energy, petroleum, biotechnology, food, textile, paper and pharmaceutical industries as well as in government regulatory bodies or research agencies. In these areas, they can function as a process or project engineer, manager, researcher, teacher, technical consultant, or become involved in technical sales.
In the Department of Chemical Engineering, the first year provides a strong foundation in chemistry, mathematics and physics. In second year, the student specializes in chemistry and chemical engineering and takes courses in mathematics, economics and engineering graphics. A complementary studies elective requirement must also be satisfied.
In the third and fourth years, students concentrate more heavily on chemical engineering. Courses in complementary studies, including communication skills, are also included.
The Department of Chemical Engineering also offers formal options in environmental engineering and in engineering management and entrepreneuship, as well as a new combined program which allows students to obtain a BASc in chemical engineering and a BSc in computing technology in only five years. In addition, in collaboration with the Department of Biochemistry, it offers the combined biochemistry / chemical engineering program in biotechnology, which allows students to obtain two degrees (a BASc in chemical engineering and a BSc in biochemistry) after only five years of study. A co-operative program with industry is also offered, starting at the end of the second year of studies.
This program, leading to the degree of Baccalaureate of Applied Science in Chemical Engineering, is recognized by the Canadian Society for Chemical Engineering, the Professional Engineers of Ontario, and the Ordre des ingénieurs du Québec.
The baccalaureate program in chemical engineering is accredited by the Canadian Engineering Accreditation Board of the Canadian Council of Professional Engineers.
The Department of Chemical Engineering houses the Industrial Membrane Research Institute, which is engaged in fundamental and applied aspects of membrane research.
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BASc in Chemical Engineering | 147 |
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| |
| First year | 36 |
| |
| Fall: | |
| CHM1310 | Principles of Chemistry | 4 |
| ENG1112 | Technical Report Writing | 3 |
| GNG1100 | Engineering Mechanics | 4 |
| GNG1101 | Fundamentals of Engineering Computation | 4 |
| MAT1320 | Calculus I | 3 |
| |
| Winter: | |
| CHG1120 | Chemical Engineering Fundamentals | 4 |
| CHM1320 | Organic Chemistry I | 4 |
| MAT1322 | Calculus II | 3 |
| MAT1341 | Introduction to Linear Algebra | 3 |
| PHY1102 | Fundamentals of Physics II | 3 |
| PHY1304 | Physics Laboratory for Engineers | 1 |
| |
| Second year | 36 |
| |
| Fall: | |
| CHG2312 | Fluid Flow | 3 |
| CHG2317 | Introduction to Chemical Process Analysis and Design | 3 |
| CHM2130 | Physical chemistry: Introduction to the molecular properties of matter | 3 |
| MAT2322 | Calculus III for Engineers | 3 |
| MAT2331 | Ordinary Differential Equations and Numerical Methods | 4 |
| |
| Complementary studies elective1 | 3 |
| |
| Winter: | |
| CHG2314 | Heat Transfer Operations | 3 |
| CHM2136 | Laboratory of Physical Chemistry | 2 |
| CHM2131 | Chemical Thermodynamics of Gases and Solutions | 3 |
| MAT2377 | Probability and Statistics for Engineers | 3 |
| ECO1192 | Engineering Economics | 3 |
| |
| HIS2129 | Technology, Society and Environment since 1800 | 3 |
| or | |
| PHI2394 | Scientific Thought and Social Values | 3 |
| |
| Third year | 36 |
| |
| Fall: | |
| CHG3316 | Transport Phenomena | 3 |
| CHG3324 | Fundamentals and Applications of Chemical Engineering Thermodynamics | 3 |
| CHG3331 | Application of Mathematical Methods to Chemical Engineering | 3 |
| CHG3335 | Process Control | 3 |
| CHG3337 | Data Collection and Interpretation | 3 |
| |
| Technical elective2 | 3 |
| |
| Winter: | |
| CHG3111 | Unit Operations | 3 |
| CHG3112 | Process Synthesis, Design and Economics | 3 |
| CHG3122 | Chemical Engineering Practice | 3 |
| CHG3127 | Chemical Reaction Engineering | 3 |
| CHG3326 | Principles of Phase Equilibria and Chemical Reaction Equilibria | 3 |
| |
| Complementary studies elective1 | 3 |
| |
| Fourth year | 39 |
| |
| Fall: | |
| CHG4305 | Advanced Materials in Chemical Engineering | 3 |
| CHG4316 | Chemical Engineering Laboratory | 6 |
| CHG4343 | Computer-Aided Design in Chemical Engineering | 3 |
| CHG4381 | Introduction to Biochemical Engineering | 3 |
| |
| Technical elective2 | 3 |
| |
| Winter: | |
| CHG4300 | Thesis and Seminar | 6 |
| or | |
| |
| Technical electives | 6 |
| |
| CHG4306 | Microelectronics Manufacturing Processes | 3 |
| CHG4307 | Clean Processes and Sustainable Development | 3 |
| CHG4344 | Plant Design Project | 3 |
| GNG4170 | Engineering Law | 3 |
| |
| Technical elective2 | 3 |
| (1) For a complete list of complementary studies electives, consult the Academic Regulations section. Depending on scheduling, HIS2129 or PHI2394 may be interchanged with a complementary studies elective. | |
| (2) List of technical electives (courses are not necessarily offered every year). | |
| CHG4157 | Strategies for Engineering Process Analysis | 3 |
| CHG4300 | Thesis and Seminar | 6 |
| CHG4301 | Air Pollution Control Processes | 3 |
| CHG4302 | Environmental Biotechnology | 3 |
| CHG4303 | Hazardous Waste Control | 3 |
| CHG4331 | Introduction to Polymer Reaction Engineering | 3 |
| CHG4333 | Fundamentals of Polymer Processing | 3 |
| CHG4355 | Science and Technology of Pulp and Paper | 3 |
| CHG4359 | Selected Topics I | 3 |
| CHG4360 | Selected Topics II | 3 |
| CHG4361 | Selected Topics III | 3 |
| CHG4362 | Selected Topics IV | 3 |
| CHG4367 | Enhanced Oil Recovery | 3 |
| CHG4371 | Properties and Treatment of Particulate Wastes - Sludges | 3 |
| CHG4372 | Polymers in the Environment | 3 |
| CHG4377 | Risk Assessment and Hazard Analysis | 3 |
| CHG4385 | Adsorption Separations for Environmental Applications | 3 |
| GNG4128 | Introduction to Nuclear Engineering | 3 |
| GNG4151 | Statistical Process Control | 3 |
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Environmental Engineering option | 151 |
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Pollution control and environmental engineering have always been a major part of the chemical engineering profession. In addition, todays society is becoming more and more concerned with environmental questions. In order to respond to these needs, the Department of Chemical Engineering offers a structured undergraduate option in environmental engineering. This option is offered in collaboration with the Department of Civil Engineering, where a similar structured option exists in environmental engineering.
Although Biology 4U is not a factor in admission to the Faculty, students considering the environmental engineering option are strongly encouraged to take it as their sixth credit. |
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| First year | 36 |
| |
| Fall: | |
| CHM1310 | Principles of Chemistry | 4 |
| ENG1112 | Technical Report Writing | 3 |
| GNG1100 | Engineering Mechanics | 4 |
| GNG1101 | Fundamentals of Engineering Computation | 4 |
| MAT1320 | Calculus I | 3 |
| |
| Winter: | |
| CHG1120 | Chemical Engineering Fundamentals | 4 |
| CHM1320 | Organic Chemistry I | 4 |
| MAT1322 | Calculus II | 3 |
| MAT1341 | Introduction to Linear Algebra | 3 |
| PHY1102 | Fundamentals of Physics II | 3 |
| PHY1304 | Physics Laboratory for Engineers | 1 |
| |
| Second year | 43 |
| |
| Fall: | |
| CHG2312 | Fluid Flow | 3 |
| CHG2317 | Introduction to Chemical Process Analysis and Design | 3 |
| CHM2130 | Physical chemistry: Introduction to the molecular properties of matter | 3 |
| CVG2131 | Fundamentals of Environmental Engineering | 4 |
| MAT2322 | Calculus III for Engineers | 3 |
| MAT2331 | Ordinary Differential Equations and Numerical Methods | 4 |
| |
| Complementary studies elective1 | 3 |
| |
| Winter: | |
| CHG2314 | Heat Transfer Operations | 3 |
| CHM2136 | Laboratory of Physical Chemistry | 2 |
| CHM2131 | Chemical Thermodynamics of Gases and Solutions | 3 |
| ECO1192 | Engineering Economics | 3 |
| EVS1101 | Introduction to Environmental Science | 3 |
| MAT2377 | Probability and Statistics for Engineers | 3 |
| |
| HIS2129 | Technology, Society and Environment since 1800 | 3 |
| or | |
| PHI2394 | Scientific Thought and Social Values | 3 |
| |
| Third year | 36 |
| |
| Fall: | |
| CHG3316 | Transport Phenomena | 3 |
| CHG3324 | Fundamentals and Applications of Chemical Engineering Thermodynamics | 3 |
| CHG3331 | Application of Mathematical Methods to Chemical Engineering | 3 |
| CHG3335 | Process Control | 3 |
| CHG3337 | Data Collection and Interpretation | 3 |
| |
| Technical elective2 | 3 |
| |
| Winter | |
| CHG3111 | Unit Operations | 3 |
| CHG3112 | Process Synthesis, Design and Economics | 3 |
| CHG3122 | Chemical Engineering Practice | 3 |
| CHG3127 | Chemical Reaction Engineering | 3 |
| CHG3326 | Principles of Phase Equilibria and Chemical Reaction Equilibria | 3 |
| |
| Complementary studies elective1 | 3 |
| |
| Fourth year | 36 |
| |
| Fall: | |
| CHG4305 | Advanced Materials in Chemical Engineering | 3 |
| CHG4316 | Chemical Engineering Laboratory | 6 |
| CHG4343 | Computer-Aided Design in Chemical Engineering | 3 |
| CHG4381 | Introduction to Biochemical Engineering | 3 |
| |
| Technical elective2 | 3 |
| |
| Winter: | |
| CHG4300 | Thesis and Seminar | 6 |
| or | |
| |
| Technical electives2 | 6 |
| |
| CHG4306 | Microelectronics Manufacturing Processes | 3 |
| CHG4307 | Clean Processes and Sustainable Development | 3 |
| CHG4344 | Plant Design Project | 3 |
| GNG4170 | Engineering Law | 3 |
| (1) For a complete list of complementary studies electives, consult the Academic Regulations section. Depending on scheduling, HIS2129 or PHI2394 may be interchanged with a complementary studies elective. | |
| (2) List of technical electives for the environmental option (courses are not necessarily offered every year). | |
| BIO2109 | Ecology | 4 |
| CHG4300 | Thesis and Seminar | 6 |
| CHG4301 | Air Pollution Control Processes | 3 |
| CHG4302 | Environmental Biotechnology | 3 |
| CHG4303 | Hazardous Waste Control | 3 |
| CHG4355 | Science and Technology of Pulp and Paper | 3 |
| CHG4359 | Selected Topics I | 3 |
| CHG4360 | Selected Topics II | 3 |
| CHG4361 | Selected Topics III | 3 |
| CHG4362 | Selected Topics IV | 3 |
| CHG4371 | Properties and Treatment of Particulate Wastes - Sludges | 3 |
| CHG4372 | Polymers in the Environment | 3 |
| CHG4377 | Risk Assessment and Hazard Analysis | 3 |
| CHG4385 | Adsorption Separations for Environmental Applications | 3 |
| CHG8192 | Membrane Applications in Environmental Engineering | 3 |
| CVG3120 | Hydrology | 3 |
| CVG3132 | Physical / Chemical Unit Operations of Water and Wastewater Treatment | 3 |
| CVG4130 | Advanced Environmental Engineering | 3 |
| CVG4132 | Hazardous Waste Management | 3 |
| CVG4133 | Solid Waste Management | 3 |
| CVG4301 | Waste Geotechnique | 3 |
| GNG4128 | Introduction to Nuclear Engineering | 3 |
| (3) This course must be in the field of environmental engineering. | |
| (4) The following courses may not be combined for credit: CHG4303 and CVG4132 | |
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Engineering Management and Entrepreneurship option | 150 |
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The engineering management and entrepreneurship option will appeal to students interested in managing their own enterprise. These skills are also important for engineers who are working in teams on both large and small-scale projects, as they need to be able not only to design a product or process but also to market it effectively to both their technical and administrative associates.
Entrepreneurs are knowledgeable about the legal, financial, and administrative procedures involved when starting up new companies comprising like-minded individuals and they are aware of the pitfalls involved. In this option students take the bulk of their complementary studies requirements from the School of Management, starting in second year. |
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| |
| First year | 36 |
| |
| Fall: | |
| CHM1310 | Principles of Chemistry | 4 |
| ENG1112 | Technical Report Writing | 3 |
| GNG1100 | Engineering Mechanics | 4 |
| GNG1101 | Fundamentals of Engineering Computation | 4 |
| MAT1320 | Calculus I | 3 |
| |
| Winter: | |
| CHG1120 | Chemical Engineering Fundamentals | 4 |
| CHM1320 | Organic Chemistry I | 4 |
| MAT1322 | Calculus II | 3 |
| MAT1341 | Introduction to Linear Algebra | 3 |
| PHY1102 | Fundamentals of Physics II | 3 |
| PHY1304 | Physics Laboratory for Engineers | 1 |
| |
| Second year | 36 |
| |
| Fall: | |
| ADM1100 | Introduction to Business Management | 3 |
| CHG2312 | Fluid Flow | 3 |
| CHG2317 | Introduction to Chemical Process Analysis and Design | 3 |
| CHM2130 | Physical chemistry: Introduction to the molecular properties of matter | 3 |
| MAT2322 | Calculus III for Engineers | 3 |
| MAT2331 | Ordinary Differential Equations and Numerical Methods | 4 |
| |
| Winter: | |
| CHG2314 | Heat Transfer Operations | 3 |
| CHM2131 | Chemical Thermodynamics of Gases and Solutions | 3 |
| CHM2136 | Laboratory of Physical Chemistry | 2 |
| ECO1192 | Engineering Economics | 3 |
| MAT2377 | Probability and Statistics for Engineers | 3 |
| |
| HIS2129 | Technology, Society and Environment since 1800 | 3 |
| or | |
| PHI2394 | Scientific Thought and Social Values | 3 |
| |
| Third year | 39 |
| |
| Fall: | |
| ADM2340 | Financial Accounting | 3 |
| CHG3316 | Transport Phenomena | 3 |
| CHG3324 | Fundamentals and Applications of Chemical Engineering Thermodynamics | 3 |
| CHG3331 | Application of Mathematical Methods to Chemical Engineering | 3 |
| CHG3335 | Process Control | 3 |
| CHG3337 | Data Collection and Interpretation | 3 |
| |
| Winter: | |
| ADM2320 | Marketing | 3 |
| CHG3111 | Unit Operations | 3 |
| CHG3112 | Process Synthesis, Design and Economics | 3 |
| CHG3122 | Chemical Engineering Practice | 3 |
| CHG3127 | Chemical Reaction Engineering | 3 |
| CHG3326 | Principles of Phase Equilibria and Chemical Reaction Equilibria | 3 |
| |
| Fourth year | 39 |
| |
| Fall: | |
| CHG4305 | Advanced Materials in Chemical Engineering | 3 |
| CHG4316 | Chemical Engineering Laboratory | 6 |
| CHG4343 | Computer-Aided Design in Chemical Engineering | 3 |
| CHG4381 | Introduction to Biochemical Engineering | 3 |
| |
| Elective for the management / entrepreneurship option1 | 3 |
| |
| Winter: | |
| ADM3313 | Introduction to Entrepreneurship | 3 |
| CHG4300 | Thesis and Seminar | 6 |
| or | |
| |
| Technical electives2 | 6 |
| |
| CHG4306 | Microelectronics Manufacturing Processes | 3 |
| CHG4307 | Clean Processes and Sustainable Development | 3 |
| CHG4344 | Plant Design Project | 3 |
| GNG4170 | Engineering Law | 3 |
| (1) List of electives for the engineering management and entrepreneurship option | |
| ADM1101 | Social Context of Business | 3 |
| ADM2336 | Organizational Behaviour | 3 |
| ADM3318 | International Business | 3 |
| ADM3319 | Comparative Management | 3 |
| ADM3334 | Industrial Relations | 3 |
| ADM3326 | Advertising and Sales Promotion Management | 3 |
| PHI2397 | Business Ethics | 3 |
| (2) Consult the list of technical electives shown in the regular program. | |
| NOTE: Other elective courses may be allowed but must be approved by the Department of Chemical Engineering. |
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BASc in Chemical Engineering / BSc in Computing Technology | 181 |
|
The combined program in chemical engineering and computing technology is offered jointly by the Department of Chemical Engineering and the School of Information Technology and Engineering (SITE). The programs goal is to provide a strong background for a career in chemical engineering along with a solid foundation in computing technology. As a result of this innovative curriculum, graduates will have the same preparation as students in the regular chemical engineering program, as well as training in software engineering, computer hardware, programming languages and operating systems, expert systems, networks, process modelling and simulation, and instrumentation and actuation. This training will allow graduates not only to compete on the job market but also to excel in their careers.
The combined program requires five years of study and leads to two degrees: the BASc in chemical engineering and the BSc in computing technology. The program can also be completed under the co-operative education option.
The BASc in chemical engineering is recognized by the Canadian Society for Chemical Engineering, the Engineering Institute of Canada, the Professional Engineers of Ontario, the Ordre des ingénieurs du Québec, and the Canadian Engineering Accreditation Board of the Canadian Council of Professional Engineers.
Admission to the program is limited. To remain in the program, students must satisfy Faculty regulations. |
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| First year | 42 |
| |
| Fall: | |
| CHM1310 | Principles of Chemistry | 4 |
| ENG1112 | Technical Report Writing | 3 |
| GNG1100 | Engineering Mechanics | 4 |
| GNG1101 | Fundamentals of Engineering Computation | 4 |
| GNG1102 | Fundamentals of Computer Hardware | 2 |
| MAT1320 | Calculus I | 3 |
| |
| Winter: | |
| CHG1120 | Chemical Engineering Fundamentals | 4 |
| CHM1320 | Organic Chemistry I | 4 |
| CSI1102 | Fundamentals of Software Design | 4 |
| MAT1322 | Calculus II | 3 |
| MAT1341 | Introduction to Linear Algebra | 3 |
| PHY1102 | Fundamentals of Physics II | 3 |
| PHY1304 | Physics Laboratory for Engineers | 1 |
| |
| Second year | 34 |
| |
| Fall: | |
| CHG2312 | Fluid Flow | 3 |
| CHG2317 | Introduction to Chemical Process Analysis and Design | 3 |
| CHM2130 | Physical chemistry: Introduction to the molecular properties of matter | 3 |
| CSI2165 | Prolog Concepts Laboratory | 2 |
| MAT2322 | Calculus III for Engineers | 3 |
| MAT2331 | Ordinary Differential Equations and Numerical Methods | 4 |
| |
| Winter: | |
| CHG2314 | Heat Transfer Operations | 3 |
| CHM2131 | Chemical Thermodynamics of Gases and Solutions | 3 |
| CHM2136 | Laboratory of Physical Chemistry | 2 |
| CSI2172 | C++ Concepts Laboratory | 2 |
| ECO1192 | Engineering Economics | 3 |
| MAT2377 | Probability and Statistics for Engineers | 3 |
| |
| Third year | 36 |
| |
| Fall: | |
| CHG3316 | Transport Phenomena | 3 |
| CHG3324 | Fundamentals and Applications of Chemical Engineering Thermodynamics | 3 |
| CHG3331 | Application of Mathematical Methods to Chemical Engineering | 3 |
| CHG3337 | Data Collection and Interpretation | 3 |
| CSI2111 | Computer Architecture | 3 |
| CSI2114 | Data Structures | 3 |
| |
| Winter: | |
| CHG3111 | Unit Operations | 3 |
| CHG3112 | Process Synthesis, Design and Economics | 3 |
| CHG3122 | Chemical Engineering Practice | 3 |
| CHG3127 | Chemical Reaction Engineering | 3 |
| CHG3326 | Principles of Phase Equilibria and Chemical Reaction Equilibria | 3 |
| CSI2121 | Principles of Assembly Language Programming | 3 |
| |
| Fourth year | 35 |
| |
| Fall: | |
| CHG3335 | Process Control | 3 |
| CHG4316 | Chemical Engineering Laboratory | 6 |
| CHG4343 | Computer-Aided Design in Chemical Engineering | 3 |
| CSI3103 | Data Transmission and Computer Networks | 3 |
| CSI3125 | Concepts of Programming Languages | 4 |
| |
| Winter: | |
| CHG4306 | Microelectronics Manufacturing Processes | 3 |
| CHG4307 | Clean Processes and Sustainable Development | 3 |
| SEG3300 | Introduction to Software Engineering | 3 |
| ELG2331 | Electric Circuits and Machines for Mechanical Engineering | 4 |
| |
| HIS2129 | Technology, Society and Environment since 1800 | 3 |
| or | |
| PHI2394 | Scientific Thought and Social Values | 3 |
| |
| Fifth year | 34 |
| |
| Fall: | |
| ADM1100 | Introduction to Business Management | 3 |
| CHG4305 | Advanced Materials in Chemical Engineering | 3 |
| CHG4381 | Introduction to Biochemical Engineering | 3 |
| ELG3331 | Electronics for Mechanical Engineers | 4 |
| |
| Complementary studies elective1 | 3 |
| |
| Winter: | |
| CHG4300 | Thesis and Seminar | 6 |
| or | |
| |
| Technical electives2 | 6 |
| |
| CHG4344 | Plant Design Project | 3 |
| CSI3310 | Operating System Principles | 3 |
| GNG4170 | Engineering Law | 3 |
| SEG3310 | Object-Oriented Analysis, Design and Programming | 3 |
| (1) For a complete list of complementary studies electives, consult the Academic Regulations section. Depending on scheduling, HIS2129 or PHI2394 may be interchanged with a complementary studies elective. | |
| (2) Consult the list of technical electives shown in the regular program. | |
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BASc in Chemical Engineering / BSc with concentration in Biochemistry | 185 |
|
The program in biochemistry and chemical engineering is organized jointly by the departments of Biochemistry and Chemical Engineering and provides its graduates with a strong background for a career in either of these two disciplines or in the rapidly developing field of biotechnology itself.
Biotechnology includes the large-scale isolation and industrial use of enzymes; the industrial application of genetic engineering; the production of industrially or medically valuable substances by cell culture or microbial fermentation; food processing by biochemical techniques; industrial waste treatment and by-product recovery by biochemical or microbial methods, and other areas.
The combined program requires five years of study and leads to two degrees: a BSc with concentration or honours in biochemistry, and a BASc in chemical engineering. Students fulfill the requirements of both departments by careful choice of electives, and by one summer of full-time study between the fourth and fifth years for those students who complete the BSc honours. (The summer term is not required for those completing the BSc with concentration.) Entry into graduate studies in biochemistry or chemical engineering requires an honours BSc or BASc, respectively, with a minimum second-class standing. The BASc in chemical engineering is recognized by the Canadian Society for Chemical Engineering, the Engineering Institute of Canada, the Association of Professional Engineers of Ontario, the Ordre des ingénieurs du Québec, and the Canadian Engineering Accreditation Board of the Canadian Council of Professional Engineers. Admission to the program is limited. Students who complete the required threshold courses for biochemistry with good marks may apply for entry into the Department of Biochemistry option for the combined program, subject to the approval of both departments. Such students will have to take an additional course in second year (CHG 1120 Introduction to Chemical Engineering); therefore, it is strongly recommended that applicants for the combined program take this course in the first year. To remain in the combined program, students must satisfy Faculty regulations that apply to both science programs and engineering programs. After the third year, students have the following alternatives:
a) they may graduate with the BSc honours in biochemistry in their fourth year and then transfer
to the Department of Chemical Engineering for completion of the BASc during one summer and their fifth year;
b) they may complete the BSc with concentration in biochemistry and then transfer to the Department of Chemical Engineering for the additional two years required to complete the BASc.
All students with concentration in biochemistry are eligible to enter the co-operative program in chemical engineering. |
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| |
| First year | 38 |
| |
| Fall: | |
| BIO1120 | Introduction to Organismal Biology | 4 |
| CHM1310 | Principles of Chemistry | 4 |
| MAT1320 | Calculus I | 3 |
| MAT1341 | Introduction to Linear Algebra | 3 |
| PHY1101 | Fundamentals of Physics I | 3 |
| PHY1201 | Physics Laboratory | 3 |
| (This course runs from September to April) | |
| |
| Winter: | |
| BIO1110 | Introduction to Cell Biology | 4 |
| CHG1120 | Chemical Engineering Fundamentals | 4 |
| CHM1320 | Organic Chemistry I | 4 |
| MAT1322 | Calculus II | 3 |
| PHY1102 | Fundamentals of Physics II | 3 |
| |
| Second year | 39 |
| |
| Fall: | |
| CHM2154 | Analytical Chemistry | 3 |
| CHM2120 | Organic Chemistry II | 3 |
| CHM2126 | Laboratory of Organic Chemistry II | 2 |
| CHM2130 | Physical chemistry: Introduction to the molecular properties of matter | 3 |
| GNG1101 | Fundamentals of Engineering Computation | 4 |
| MAT2331 | Ordinary Differential Equations and Numerical Methods | 4 |
| |
| Winter: | |
| BCH2140 | Introduction to Biochemistry | 3 |
| BCH2336 | Biochemistry Laboratory I | 2 |
| BIO2123 | Genetics | 4 |
| CHM2118 | Laboratory of Analytical Chemistry | 2 |
| CHM2131 | Chemical Thermodynamics of Gases and Solutions | 3 |
| ENG1112 | Technical Report Writing | 3 |
| MAT2377 | Probability and Statistics for Engineers | 3 |
| |
| Third year | 36 |
| |
| Fall: | |
| BCH3170 | Molecular Biology | 3 |
| BCH3356 | Molecular Biology Laboratory | 3 |
| BIO3124 | General Microbiology | 3 |
| CHG2312 | Fluid Flow | 3 |
| CHG2317 | Introduction to Chemical Process Analysis and Design | 3 |
| MAT2322 | Calculus III for Engineers | 3 |
| |
| Winter: | |
| BCH3120 | General Intermediary Metabolism | 3 |
| BCH3125 | Protein Structure and Function | 3 |
| BCH3346 | Biochemistry Laboratory II | 3 |
| CHG2314 | Heat Transfer Operations | 3 |
| ECO1192 | Engineering Economics | 3 |
| GNG4170 | Engineering Law | 3 |
| |
| Fourth year | 36 |
| |
| Fall: | |
| CHG3316 | Transport Phenomena | 3 |
| CHG3324 | Fundamentals and Applications of Chemical Engineering Thermodynamics | 3 |
| CHG3331 | Application of Mathematical Methods to Chemical Engineering | 3 |
| CHG3335 | Process Control | 3 |
| CHG3337 | Data Collection and Interpretation | 3 |
| |
| HIS2129 | Technology, Society and Environment since 1800 | 3 |
| or | |
| PHI2394 | Scientific Thought and Social Values | 3 |
| |
| Winter: | |
| CHG3111 | Unit Operations | 3 |
| CHG3112 | Process Synthesis, Design and Economics | 3 |
| CHG3122 | Chemical Engineering Practice | 3 |
| CHG3127 | Chemical Reaction Engineering | 3 |
| CHG3326 | Principles of Phase Equilibria and Chemical Reaction Equilibria | 3 |
| |
| Complementary studies elective2 | 3 |
| |
| Fifth year | 36 |
| |
| Fall: | |
| CHG4305 | Advanced Materials in Chemical Engineering | 3 |
| CHG4316 | Chemical Engineering Laboratory | 6 |
| CHG4343 | Computer-Aided Design in Chemical Engineering | 3 |
| CHG4381 | Introduction to Biochemical Engineering | 3 |
| |
| Technical electives3 | 3 |
| |
| Winter: | |
| CHG4300 | Thesis and Seminar | 6 |
| or | |
| |
| Technical electives3 | 6 |
| |
| CHG4306 | Microelectronics Manufacturing Processes | 3 |
| CHG4307 | Clean Processes and Sustainable Development | 3 |
| CHG4344 | Plant Design Project | 3 |
| |
| Complementary studies elective2 | 3 |
| (1) CHG1120 must be taken in either first or second year (first year is recommended). It is also recommended that GNG1101 be taken in first or second year. | |
| (2) For a complete list of complementary studies electives, consult the Academic Regulations section. Depending on scheduling, HIS2129 or PHI2394 may be interchanged with a complementary studies elective. | |
| (3) Consult the list of technical electives shown in the regular program. | |
| Note: The Department of Biochemistry reserves the right to alter the scheduling of courses between sessions. |
|
| |
BASc in Chemical Engineering / BSc with honours in Biochemistry | 209 |
|
|
| |
| First year | 38 |
| |
| Fall: | |
| BIO1120 | Introduction to Organismal Biology | 4 |
| CHM1310 | Principles of Chemistry | 4 |
| MAT1320 | Calculus I | 3 |
| MAT1341 | Introduction to Linear Algebra | 3 |
| PHY1101 | Fundamentals of Physics I | 3 |
| PHY1201 | Physics Laboratory | 3 |
| (This course runs from September to April) | |
| |
| Winter: | |
| BIO1110 | Introduction to Cell Biology | 4 |
| CHG1120 | Chemical Engineering Fundamentals | 4 |
| CHM1320 | Organic Chemistry I | 4 |
| MAT1322 | Calculus II | 3 |
| PHY1102 | Fundamentals of Physics II | 3 |
| |
| Second year | 39 |
| |
| Fall: | |
| CHM2154 | Analytical Chemistry | 3 |
| CHM2120 | Organic Chemistry II | 3 |
| CHM2126 | Laboratory of Organic Chemistry II | 2 |
| CHM2130 | Physical chemistry: Introduction to the molecular properties of matter | 3 |
| GNG1101 | Fundamentals of Engineering Computation | 4 |
| MAT2331 | Ordinary Differential Equations and Numerical Methods | 4 |
| |
| Winter: | |
| BCH2140 | Introduction to Biochemistry | 3 |
| BCH2336 | Biochemistry Laboratory I | 2 |
| BIO2123 | Genetics | 4 |
| CHM2118 | Laboratory of Analytical Chemistry | 2 |
| CHM2131 | Chemical Thermodynamics of Gases and Solutions | 3 |
| ENG1112 | Technical Report Writing | 3 |
| MAT2377 | Probability and Statistics for Engineers | 3 |
| |
| Third year | 36 |
| |
| Fall: | |
| BCH3170 | Molecular Biology | 3 |
| BCH3356 | Molecular Biology Laboratory | 3 |
| BIO3124 | General Microbiology | 3 |
| CHG2312 | Fluid Flow | 3 |
| CHG2317 | Introduction to Chemical Process Analysis and Design | 3 |
| MAT2322 | Calculus III for Engineers | 3 |
| |
| Winter: | |
| BCH3120 | General Intermediary Metabolism | 3 |
| BCH3125 | Protein Structure and Function | 3 |
| BCH3346 | Biochemistry Laboratory II | 3 |
| CHG2314 | Heat Transfer Operations | 3 |
| ECO1192 | Engineering Economics | 3 |
| GNG4170 | Engineering Law | 3 |
| |
| Fourth year | 59 |
| |
| Fall: | |
| BCH4032 | Séminaire de Biochimie / Biochemistry Seminar | 2 |
| (This course runs from September to April) | |
| BCH4040 | Projet de recherche - biochimie / Honours Research - Biochemistry | 9 |
| (This course runs from September to April) | |
| BCH4122 | Macromolecules | 3 |
| CHG3316 | Transport Phenomena | 3 |
| CHG3324 | Fundamentals and Applications of Chemical Engineering Thermodynamics | 3 |
| CHG3331 | Application of Mathematical Methods to Chemical Engineering | 3 |
| CHG3337 | Data Collection and Interpretation | 3 |
| |
| Winter: | |
| BCH4125 | Cellular Regulation and Control | 3 |
| BCH4172 | Topics in Biotechnology | 3 |
| |
| BPS3101 | Genomics | 3 |
| or | |
| BPS4101 | Human Genome Structure and Function | 3 |
| |
| HIS2129 | Technology, Society and Environment since 1800 | 3 |
| or | |
| PHI2394 | Scientific Thought and Social Values | 3 |
| |
| Summer: | |
| CHG3111 | Unit Operations | 3 |
| CHG3112 | Process Synthesis, Design and Economics | 3 |
| CHG3122 | Chemical Engineering Practice | 3 |
| CHG3127 | Chemical Reaction Engineering | 3 |
| CHG3326 | Principles of Phase Equilibria and Chemical Reaction Equilibria | 3 |
| |
| Complementary studies elective2 | 3 |
| |
| Fifth year | 39 |
| |
| Fall: | |
| CHG3335 | Process Control | 3 |
| CHG4305 | Advanced Materials in Chemical Engineering | 3 |
| CHG4316 | Chemical Engineering Laboratory | 6 |
| CHG4343 | Computer-Aided Design in Chemical Engineering | 3 |
| CHG4381 | Introduction to Biochemical Engineering | 3 |
| |
| Technical elective3 | 3 |
| |
| Winter: | |
| CHG4300 | Thesis and Seminar | 6 |
| or | |
| |
| Technical electives3 | 6 |
| |
| CHG4306 | Microelectronics Manufacturing Processes | 3 |
| CHG4307 | Clean Processes and Sustainable Development | 3 |
| CHG4344 | Plant Design Project | 3 |
| |
| Complementary studies elective2 | 3 |
| (1) CHG1120 must be taken in either first or second year (first year is recommended). It is also recommended that GNG1101 be taken in first or second year. | |
| (2) For a complete list of complementary studies electives, consult the Academic Regulations section. Depending on scheduling, HIS2129 or PHI2394 may be interchanged with a complementary studies elective. | |
| (3) Consult the list of technical electives shown in the regular program. | |
| Note: The Department of Biochemistry reserves the right to alter the scheduling of courses between sessions. |
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Graduate studies in Chemical Engineering | |
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| For further study in a specialization, students whose cumulative grade point average is 6.0 or above should consider graduate studies. Enrolment in one or more graduate courses may be possible in the final year of undergraduate studies for subsequent credit in the graduate studies program. Interested students should direct their enquiries to the graduate student adviser in chemical engineering. |
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