Management of water, soil, and air systems are three of the important services provided by engineers. This is an historic responsibility that includes, for example, the provision of a safe supply of potable water for domestic use; reliable delivery to support agricultural production or industrial activity; and control of floodwaters to ensure the safety of developed land. For soil and other earth materials it includes the control of the degradation that can result from human activity, and the development of clean-up strategies for soils that have become contaminated. For air systems, the engineer's responsibility includes the reduction and management of contamination.
The requirements of such work are undergoing dramatic changes. There is awareness that, as an example, in order to protect water systems for future use, projects can no longer be conducted in isolation. It is widely recognized that it is necessary to ensure the sustainability of all water-related activity, which means that designs must work within the natural capability of the surrounding aquatic systems. This requires broadening the scope of traditional approaches. For example, solid waste management is no longer just waste disposal – it is waste reduction, energy recover, and disposal of the residual with minimal impact on the groundwater system. Resource development, urbanization and agricultural practices can significantly change both the quality and quantity of water in a watershed, affecting the quality of drinking water derived from it. Thus, managing a watershed has become more than just monitoring pollutant levels or estimating flood levels – it involves comprehensive planning, including control of land use, reduction of pollutant discharges, remediation of historical disposal practices, and the use of appropriate treatment processes.
Environmental Engineering is a unique program designed to produce graduates who can respond to these needs. The program introduces the best available practices into the planning, design, and operation of natural and engineered water systems, and the management of our air and earth resources. The curriculum has much in common with the Civil Engineering curriculum, building particularly on its sustainable development philosophy. The first year of both programs is virtually identical, allowing students to transfer between them. In other years, the Environmental Engineering program emphasizes the principles of water management and treatment, remediation of surface water, groundwater and soils, biotechnology, and contaminant transport.
Environmental issues are interdisciplinary in nature. Thus, students receive background in the principles of public and private enterprise, of responsible risk management, and of environmental impact assessment. The curriculum includes courses from other departments in Engineering as well as from the faculties of Environmental Studies and Science.
The program is aimed at preparing professionals to work in consulting firms, treatment plants, manufacturing plants, regulatory agencies, and government offices. Graduates are familiar with treatment process design, environmental assessment, and remediation techniques. They have access to a facilities with a broad range of tools such as remote sensing, geographic information systems, and data acquisition systems, as well as mathematical models, statistical models, and optimization techniques in a decision-making framework. They have strong numerical skills, well-developed communication skills, and a social awareness that will suit them to many tasks. Graduates have a breadth that also prepares them for a variety of careers in fields beyond Environmental Engineering.
Areas of Specialization
The program has three study areas: waste and water treatment; migration pathways of chemicals in the environment; and environmental assessment and modeling.
Available Options
Management Sciences
Society, Technology and Values
Software
Program Administration
Managed by the Department of Civil Engineering, Environmental Engineering is an interdisciplinary program involving resources from the Faculties of Engineering, Science, and Environmental Studies. The program is administered by the Environmental Engineering Board that consists of the Dean of Engineering, faculty members from Civil Engineering and representatives from the Department of Systems Design Engineering, Earth Sciences, and from the Faculty of Environmental Studies. Students apply directly to the Environmental Engineering Program.
ACADEMIC PROGRAM
Term 1A (Fall)
CHE 102 Chemistry for Engineers
ENVE 100 Environmental Engineering Concepts 1
MATH 115 Linear Algebra for Engineering
MATH 116 Calculus 1 for Engineering
PHYS 115 Mechanics
Term 1B (Spring)
CIVE 121 Digital Computation
ENVE 127 Statics and Solid Mechanics
ENVE 153 Earth Engineering
GENE 123 Electrical Engineering
MATH 118 Calculus 2
CSE 1 Approved Complementary Studies Elective
WKRPT 100 Work-term Report
Term 2A (Winter)
ENVE 221 Advanced Calculus
ENVE 224 Probability and Statistics
ENVE 275 Environmental Chemistry
ERS 241 Introduction to Environmental Assessment (CSE 2)
CSE 3 Approved Complementary Studies Elective
Term 2B (Fall)
ENVE 214 Fluid Mechanics and Thermal Sciences
ENVE 223 Differential Equations
ENVE 276 Environmental Biology and Biotechnology
ENVE 292 Economics for Environmental Engineering (CSE 4)
BIOL 250 Ecology
WKRPT 200 Work-term Report
Term 3A (Spring)
CIVE 353 Geotechnical Engineering 1
ENVE 320 Environmental Resource Management
ENVE 321 Advanced Mathematics
ENVE 330 Lab Analysis and Field Sampling Techniques
One Technical Elective from List A
OR
CSE 5 Approved Complementary Studies Elective
PLUS
WKRPT 300 Work-term Report
Term 3B (Winter)
CIVE 381 Hydraulics
ENVE 375 Water Quality Engineering
ENVE 391 Environment Regulations and Legal Issues (CSE 6)
If a Technical Elective is chosen in 3A then the student must take an
Approved Complementary Studies Elective (CSE 5) and one
Technical Elective from List C. If a CSE is chosen in 3A then the
student must take 2 Technical Electives from List C.
Term 4A (Fall)
CIVE 486 Hydrology
ENVE 472 Wastewater Treatment
ENVE 430 Environmental Engineering Project 1
Two Technical Electives from List B
WKRPT 400 Work-term Report
Term 4B (Winter)
ENVE 431 Environmental Engineering Project 2
Four Technical Electives from List C
Technical Electives
Elective courses may be selected from the following list in accordance with the academic program for the term in consultation with the Faculty Advisor. Other courses may be taken from the offerings of other departments subject to the approval of the Faculty Advisor.
List A (Spring) |
CHE 360 |
Bioprocess Engineering |
EARTH 458 |
Physical Hydrogeology † |
|
EARTH 458L |
Field Methods in Hydrogeology |
SYDE 311 |
Engineering Optimization |
|
List B (Fall) |
|
Environmental Toxicology 1 |
BIOL 453 |
Wetlands |
|
Introduction to Process Control |
|
Groundwater Modelling |
|
Physical Hydrogeology † |
|
EARTH 458L |
Field Methods in Hydrogeology |
|
Environmental Remote Sensing |
|
Finite Element Methods |
|
Conflict Analysis |
|
Modelling of Continuum Systems |
|
Image Processing |
† Earth 458 and 458L count as one technical elective. |
|
List C (Winter) |
|
Bioprocess Engineering |
|
Air Pollution Control |
|
Industrial Wastewater Pollution Control |
|
Geotechnical Engineering 2 |
|
Finite Element Analysis |
|
Geotechnical Engineering 3 |
|
Design of Urban Water Systems |
|
Chemical Hydrogeology |
|
Contaminant Transport |
|
Engineering for Solid Waste Management |
|
Remote Sensing Project |
|
Air Pollution 1 |
All undergraduate course descriptions including Environmental Engineering and Chemical Engineering can be found in the Course Descriptions chapter of this Calendar.