Faculty of Engineering

Any civilization inevitably generates a waste stream. If not properly managed, this waste can lead to pollution of our water, soil, and air, which can endanger human life, harm ecosystems, and reduce our ability to thrive as a society. Environmental engineers are charged with managing these residuals of civilization. This responsibility includes cleaning up existing pollution from our water and soils, developing technological solutions to reduce the presence or risk of pollutants from future human activities, and providing a safe supply of water for domestic, industrial, and agricultural use.

Competency as an environmental engineer requires an understanding of the complex pathways through which pollutants can move, the chemistry of contaminants, the biology of microbes that can consume and transform them, and the various technological and societal solutions we can employ to clean our water, air, and soil and reduce the amount of pollutants emitted into the world. This work is necessarily interdisciplinary, and environmental engineers must learn how to work with planners, industry, environmental advocacy groups, government regulators, and others. They must develop competencies in a range of scientific fields, from chemistry to biology to renewable energy. They also require the basic quantitative proficiencies, judgment, and design skills expected of engineers in other specialties.

Environmental Engineering is uniquely designed to produce graduates who can respond to these needs. The curriculum introduces the best available practices into the planning, design, analysis, and operation of natural and engineered water systems, and the management of our air and earth resources. The environmental engineering curriculum strongly emphasizes water resource and water quality engineering, which deals with flood control, environmental issues in groundwater/surface waters, and the planning, management, design, and operation of water supply, treatment, and distribution systems. It also emphasizes environmental assessment, principles of water management and treatment, remediation of surface water, groundwater and soils, biotechnology, and contaminant transport. Students graduate with social awareness, a breadth of real-world experience, and well developed numerical and communication skills which will suit them to many tasks.

Areas of Study

The Environmental Engineering plan covers diverse study areas such as environmental assessment and modelling, engineering hydrology, pollution treatment and control, and environmental energy systems.

Administration

Managed by the Department of Civil and Environmental Engineering (CEE), Environmental Engineering is an interdisciplinary plan involving resources from the faculties of Engineering, Science, and Environment. Students apply directly to Environmental Engineering.

Academic Curriculum

Legend

CSE is a Complementary Studies Elective course
TE is Technical Elective course

Term 1A (Fall)

CHE 102 Chemistry for Engineers
CIVE 104 Mechanics 1
ENVE 100 Environmental and Geological Engineering Concepts
ENVE 115 Linear Algebra
ENGL 191/SPCOM 191 Communication in the Engineering Profession (List D-Other CSE)
MATH 116 Calculus 1 for Engineering

Term 1B (Spring)

CIVE 105 Mechanics 2
ENVE 121 Computational Methods
ENVE 123 Electrical Circuits and Instrumentation
ENVE 153 Earth Engineering
MATH 118 Calculus 2 for Engineering

Term 2A (Winter)

ENVE 223 Differential Equations and Balance Laws
ENVE 224 Probability and Statistics
ENVE 275 Environmental Chemistry
ENVE 280 Fluid Mechanics
ENVE 298 Seminar
ERS 215 Environmental and Sustainability Assessment 1 (List A-Impact Courses CSE)

Term 2B (Fall)

BIOL 240 Fundamentals of Microbiology
ENVE 225 Environmental Modelling
ENVE 277 Air Quality Engineering
ENVE 279 Energy and the Environment
ENVE 299 Seminar
ENVE 382 Hydrology and Open Channel Flow
WKRPT 200 Work-term Report

Term 3A (Spring)

EARTH 458 Physical Hydrogeology
EARTH 458L Field Methods in Hydrogeology
ENVE 330 Lab Analysis and Field Sampling Techniques
ENVE 375 Physico-Chemical Processes
ENVE 392 Economics and Life Cycle Cost Analysis (List B-Engineering Economics CSE)
ENVE 398 Seminar
GEOE 353 Geotechnical Engineering 1
WKRPT 300 Work-term Report

Term 3B (Winter)

ENVE 335 Decision Making for Environmental Engineers
ENVE 376 Biological Processes
ENVE 383 Advanced Hydrology and Hydraulics
ENVE 391 Law and Ethics for Environmental and Geological Engineers (List D-Other CSE)
ENVE 399 Seminar
TE 1 Approved Technical Elective

Term 4A (Fall)

ENVE 400 Environmental Engineering Design Project 1
ENVE 498 Seminar
TE 2 Approved Technical Elective
TE 3 Approved Technical Elective
TE 4 Approved Technical Elective
CSE 1 Approved Complementary Studies Elective
WKRPT 400 Work-term Report

Term 4B (Winter)

ENVE 401 Environmental Engineering Design Project 2
ENVE 499 Seminar
TE 5 Approved Technical Elective
TE 6 Approved Technical Elective
TE 7 Approved Technical Elective
CSE 2 Approved Complementary Studies Elective

Electives

Exceptions to courses on the Faculty of Engineering CSE lists and the Environmental Engineering TE and Specialization Lists require the approval of the CEE associate chair undergraduate studies. Some courses of interest may require prerequisite knowledge that is not part of the core curriculum in Environmental Engineering. Students may require extra courses or may need to seek enrolment approval from the course instructor if the prerequisites have not been satisfied.

Complementary Studies Electives

Two complementary studies elective (CSE) courses in approved non-technical subjects must be taken. The CSEs are in addition to those courses which are part of the core curriculum and contain complementary studies material, such as ENGL 191/SPCOM 191 (List D), ERS 215 (List A), ENVE 392 (List B), and ENVE 391 (List D). The CSE courses are organized on a Faculty basis and detailed in this Calendar, on the Complementary Studies in the Faculty of Engineering page.

The two CSE courses must be chosen from List C-Humanities and Social Sciences Courses. 

Technical Electives

Students are required to complete seven technical elective (TE) courses with the following restrictions:

1. At least four TEs must be from TE List A (Engineering Design Intensive Technical Electives)
2. The remaining three TEs may be from TE List A or B

The Technical Elective Lists for Environmental Engineering are provided below. Note that the offering of these courses is contingent upon sufficient demand and/or available teaching resources. There may be courses added and changes made to the content, term of offering, or meet times from what is listed below. Special Topics Courses (ENVE 495 and ENVE 497) are offered as resources and faculty availability permit. Further information is available from the CEE Undergraduate Office or CEE website.

Key for TE List A and B:

Term courses are offered: F=fall term, W=winter term, S=spring term 

TE List A - Engineering Design Intensive Technical Electives (Choose at Least Four)

TE List B - Technical Electives (Choose a Maximum of Three)

Specializations

The Faculty of Engineering recognizes specializations with the Environmental Engineering BASc degree. Students who satisfy the specialization requirements (courses and grades) will have the specialization designation shown on their transcript and diploma. Specializations are intended to recognize success in a concentration of electives within the Environmental Engineering degree specification. In other words, specializations focus the selection of electives required for the base degree and do not require extra courses.

The Environmental Engineering plan has three specializations recognized by the Faculty of Engineering:

• Energy Specialization
• Hydrology Specialization
• Pollution Treatment and Control Specialization

Each specialization requires students to select technical electives with a common theme. Students are responsible for meeting the TE requirements of the Environmental Engineering degree when pursuing a specialization. Each specialization requires the successful completion of a minimum number of TEs specified by the specialization with an average of at least 60%. Students must declare a specialization for it to be recognized as part of their degree and appear on the transcript and diploma.

The specialization course requirements are provided below. Exceptions to the listed courses require the approval of the CEE associate chair, undergraduate studies.

Energy Specialization

Hydrology Specialization

The Hydrology Specialization requires a minimum of four TEs from the list below.

Pollution Treatment and Control Specialization

The Pollution Treatment and Control Specialization requires a minimum of four TEs from the list below.

Faculty Options

The Faculty of Engineering recognizes options within the BASc degree. Students who satisfy the option requirements (courses and grades) will have the option designation shown on their transcript and diploma. Options are intended to recognize success in a field of study outside of the basic degree. Consequently, students must usually take extra courses to complete an option.

Options recently completed by students in Environmental Engineering are the Management Sciences Option, Physical Sciences Option, and Statistics Option. Complete details of designated options available to Engineering students are provided in this Calendar in the section entitled Options, Specializations and Electives for Engineering Students.

Accelerated Master's Program in Engineering

The Faculty of Engineering offers an Accelerated Master's program. See Accelerated Master's Programs in Engineering for more details.