Courses

CHE475H1 - Biocomposites: Mechanics and Bioinspiration

Credit Value: 0.50
Hours: 38.4L/12.8T

An overview on structure, processing and application of natural and biological materials, biomaterials for biomedical applications, and fibre-reinforced eco-composites based on renewable resources will be provided. Fundamental principles related to linear elasticity, linear viscoelasticity, dynamic mechanical response, composite reinforcement mechanics, and time-temperature correspondence will be introduced. Novel concepts in comparative biomechanics, biomimetic and bio-inspired material design, and materials' ecological and environmental impact will be discussed. In addition, key material processing methods and testing and characterization techniques will be presented. Structure-property relationships for materials broadly ranging from natural materials, including wood, bone, cell, and soft tissue, to synthetic composite materials for industrial and biomedical applications will be covered.

Total AUs: 42.7 (Fall), 42.7 (Winter), 85.4 (Full Year)

CHE488H1 - Entrepreneurship and Business for Engineers

Credit Value: 0.50
Hours: 38.4L/25.6T

A complete introduction to small business formation, management and wealth creation. Topics include: the nature of the Entrepreneur and the Canadian business environment; business idea search and Business Plan construction; Buying a business, franchising, taking over a family business; Market research and sources of data; Marketing strategies promotion, pricing, advertising, electronic channels and costing; The sales process and management, distribution channels and global marketing; Accounting, financing and analysis, sources of funding, and financial controls; The people dimension: management styles, recruiting and hiring, legal issues in employment and Human Resources; Legal forms of organization and business formation, taxation, intellectual property protection; the e-Business world and how businesses participate; Managing the business: location and equipping the business, suppliers and purchasing, credit, ethical dealing; Exiting the business and succession, selling out. A full Business Plan will be developed by each student and the top submissions will be entered into a Business Plan competition with significant cash prices for the winners. Examples will be drawn from real business situations including practicing entrepreneurs making presentations and class visits during the term. (Identical courses are offered: ECE488H1, MIE488H1, MSE488H1 and CIV488H1.)

*Complementary Studies Elective

Exclusion: TEP234H1, TEP432H1
Total AUs: 48.8 (Fall), 48.8 (Winter), 97.6 (Full Year)

CHE499Y1 - Thesis

Credit Value: 1.00
Hours: 89.6P

The course consists of a research project conducted under the supervision of a senior staff member. The project may have an experimental, theoretical or design emphasis. Each thesis will contain a minimum 60% combined Engineering Science and Engineering Design (with a minimum of 10% in each component). This course is open to students with permission of the Department and research project supervisor.

Total AUs: 96.9 (Fall), 96.9 (Winter), 193.8 (Full Year)

CHE504H1 - Chemical Engineering and Applied Chemistry – Laboratory V

Credit Value: 0.50
Hours: 76.8P

This laboratory course involves experimental investigation in the application of physical chemistry, organic chemistry, inorganic chemistry, chemical pilot scale-up, chemical separation, chemical purification, data acquisition, etc. in chemical production.

The course involves the operation of pilot-scale equipment to investigate common chemical process problems. Experimental investigation Students need to apply and integrate core engineering concepts/principles including fluid statics/dynamics and mechanical systems, thermodynamics and phase equilibria, thermochemistry and kinetics, and separation techniques to solve common unit operation/chemical process issues. In addition, common process design software including Aspen Plus, Computational Fluid Dynamics, Distributed Control Systems such as Delta-V, and Computer Aided Design are used for problem solving and scale-up design process. Students will work as teams to complete projects involving the use of bench and pilot scale equipment, and simulation programs. Course projects will continue developing student’s experimental and design skills; communication skills; critical thinking, problem-solving, and analysis skills.

Prerequisite: If an Undergraduate Student of Chemical Engineering and Applied Chemistry: CHE204, CHE205, CHE304, CHE305 If a Graduate Student of Chemical Engineering and Applied Chemistry: no prerequisite
Total AUs: 36.6 (Fall), 36.6 (Winter), 73.2 (Full Year)

CHE507H1 - Data-based Modelling for Prediction and Control

Credit Value: 0.50
Hours: 38.4L/12.8T

This course will teach students how to build mathematical models of dynamic systems and how to use these models for prediction and control purposes. The course will deal primarily with a system identification approach to modelling (using observations from the system to build a model). Both continuous time and discrete time representations will be treated along with deterministic and stochastic models. This course will make extensive use of interactive learning by having students use computer based tools available in the Matlab software package (e.g. the System Identification Toolbox and the Model Predictive Control Toolbox).

Prerequisite: CHE322H1
Total AUs: 42.7 (Fall), 42.7 (Winter), 85.4 (Full Year)

CHE561H1 - Risk Based Safety Management

Credit Value: 0.50
Hours: 38.4L/12.8T

This course provides an introduction to Process Safety Management. The historical drivers to improve safety performance are reviewed and the difference between safety management and occupational health and safety is discussed. National and international standards for PSM are reviewed. Risk analysis is introduced along with techniques for process hazard analysis and quantification. Consequence and frequency modelling is introduced. Rsik based decision making is introduced, and the course concludes with a discussio of the key management systems required for a successful PSM system.

Total AUs: 42.7 (Fall), 42.7 (Winter), 85.4 (Full Year)

CHE562H1 - Applied Chemistry IV - Applied Polymer Chemistry, Science and Engineering

Credit Value: 0.50
Hours: 38.4L

This course serves as an introduction to concepts in polymer chemistry, polymer science and polymer engineering. This includes a discussion of the mechanisms of step growth, chain growth and ring-opening polymerizations with a focus on industrially relevant polymers and processes. The description of polymers in solution as well as the solid state will be explored. Several modern polymer characterization techniques are introduced including gel permeation chromatography, differential scanning calorimetry, thermal gravimetric analysis and others.

Exclusion: CHM426H1
Recommended Preparation: CHE213H1, CHE220H1 or equivalents
Total AUs: 36.6 (Fall), 36.6 (Winter), 73.2 (Full Year)

CHE564H1 - Pulp and Paper Processes

Credit Value: 0.50
Hours: 38.4L/12.8T

The processes of pulping, bleaching and papermaking are used to illustrate and integrate chemical engineering principles. Chemical reactions, phase changes and heat, mass and momentum transfer are discussed. Processes are examined on four scales: molecular, diffusional, unit operations and mill. In the tutorial each student makes several brief presentations on selected topics and entertains discussion.

Total AUs: 42.7 (Fall), 42.7 (Winter), 85.4 (Full Year)

CHE565H1 - Aqueous Process Engineering

Credit Value: 0.50
Hours: 38.4L/12.8T

Application of aqueous chemical processing to mineral, environmental and industrial engineering. The course involves an introduction to the theory of electrolyte solutions, mineral-water interfaces, dissolution and crystallization processes, metal ion separations, and electrochemical processes in aqueous reactive systems. Applications and practice of (1) metal recovery from primary (i.e. ores) and secondary (i.e. recycled) sources by hydrometallurgical means, (2) treatment of aqueous waste streams for environmental protection, and (3) production of high-value-added inorganic materials.

Total AUs: 42.7 (Fall), 42.7 (Winter), 85.4 (Full Year)

CHE566H1 - Elements of Nuclear Engineering

Credit Value: 0.50
Hours: 38.4L/25.6T

A first course in nuclear engineering intended to introduce students to all aspects of this interdisciplinary field. Topics covered include nuclear technology, atomic and nuclear physics, thermonuclear fusion, nuclear fission, nuclear reactor theory, nuclear power plants, radiation protection and shielding, environment and nuclear safety, and the nuclear fuel cycle.

Total AUs: 48.8 (Fall), 48.8 (Winter), 97.6 (Full Year)

CHE568H1 - Nuclear Engineering

Credit Value: 0.50
Hours: 38.4L/12.8T

Fundamental and applied aspects of nuclear engineering. The structure of the nucleus; nuclear stability and radioactive decay; the interaction of radiation with matter including radiological health hazards; the interaction of neutrons including cross-sections, flux, moderation, fission, neutron diffusion and criticality. Poison buildup and their effects on criticality. Nuclear engineering of reactors, reactor accidents, and safety issues.

Exclusion: MIE414H1
Total AUs: 42.7 (Fall), 42.7 (Winter), 85.4 (Full Year)

CIV100H1 - Mechanics

Credit Value: 0.50
Hours: 38.4L/25.6T

The principles of statics are applied to composition and resolution of forces, moments and couples. The equilibrium states of structures are examined. Throughout, the free body diagram concept is emphasized. Vector algebra is used where it is most useful, and stress blocks are introduced. Shear force diagrams, bending moment diagrams and stress-strain relationships for materials are discussed. Stress and deformation in axially loaded members and flexural members (beams) are also covered.

Exclusion: APS160H1
Total AUs: 48.8 (Fall), 48.8 (Winter), 97.6 (Full Year)

CIV102H1 - Structures and Materials - An Introduction to Engineering Design

Credit Value: 0.50
Hours: 38.4L/12.8T/12.8P

An introduction to the art and science of designing structures. Topics include: 1) material bodies that sustain or resist force, work, energy, stress and strain; 2) the properties of engineering materials (strength, stiffness, ductility); 3) simple structural elements; 4) engineering beam theory; 5) stability of columns; 6) the practical problems which constrain the design of structures such as bridges, towers, pressure vessels, dams, ships, aircraft, bicycles, birds and trees; and 7) design methods aimed at producing safe, functional, efficient and elegant structures.

Corequisite: PHY180H1
Exclusion: CIV100H1
Total AUs: 48.8 (Fall), 48.8 (Winter), 97.6 (Full Year)

CIV185H1 - Earth Systems Science

Credit Value: 0.50
Hours: 38.4L/12.8T/25.6P

This course introduces students to the basic earth sciences with an emphasis on understanding the impact of humans on the natural earth systems. Beginning with a study of the lithosphere, principles of physical geology will be examined including the evolution and internal structure of the earth, dynamic processes that affect the earth, formation of minerals and rocks and soil, ore bodies and fossil- energy sources. Next, the biosphere will be studied, including the basic concepts of ecology including systems ecology and biogeochemical cycles. The influence of humans and the built environment on these natural systems will also be examined with a view to identifying more sustainable engineering practices. Finally, students will study the oceans and the atmosphere and the physical, chemical and thermodynamic processes involved in climate change.

Total AUs: 54.9 (Fall), 54.9 (Winter), 109.8 (Full Year)

CIV191H1 - Introduction to Civil Engineering

Credit Value: 0.15
Hours: 12.8L

This is a seminar series that will preview the core fields in Engineering. Each seminar will highlight one of the major areas of Engineering. The format will vary and may include application examples, challenges, case studies, career opportunities, etc. The purpose of the seminar series is to provide first year students with some understanding of the various options within the Faculty to enable them to make educated choices for second year. This course will be offered on a credit/no credit basis.

Total AUs: 12.2 (Fall), 12.2 (Winter), 24.4 (Full Year)

CIV201H1 - Introduction to Civil Engineering

Credit Value: 0.20

A field-based course introducing students to current and historical civil engineering works in the urban and natural environments, highlighting the role of the Civil Engineer in developing sustainable solutions. It will run the Tuesday through Thursday immediately following Labour Day, with follow-up assignments coordinated with the course CIV282 Engineering Communications I. Students must have their own personal protective equipment (PPE). One night will be spent at the University of Toronto Survey Camp near Minden, Ontario.

Total AUs: 19.2 (Fall), 19.2 (Winter), 38.4 (Full Year)

CIV209H1 - Civil Engineering Materials

Credit Value: 0.50
Hours: 38.4L/25.6T/25.6P

Deals with the basic principles necessary for the use and selection of materials used in Civil Engineering and points out the significance of these in practice. Fundamentals which provide a common basis for the properties of various materials are stressed. The laboratory time is devoted to demonstrations illustrating the fundamentals covered in lectures.

Prerequisite: APS104H1 or MSE101H1
Total AUs: 61 (Fall), 61 (Winter), 122 (Full Year)

CIV214H1 - Structural Analysis I

Credit Value: 0.50
Hours: 38.4L/25.6T

This course provides an introduction to the nature of loads and restraints and types of structural elements, and then reviews the analysis of statically determinate structures. Shear and moment diagrams for beams and frames are considered, along with influence lines, cantilever structures, three-pin arches, cables and fatigue. Virtual work principles are viewed and applied to various structural systems. An introduction to the analysis of indeterminate structures is made, and the Portal method is applied to the analysis of building frames under lateral loads. Displacement methods of an analysis including moment distribution are also studied.

Prerequisite: MAT188H1, CME210H1
Total AUs: 48.8 (Fall), 48.8 (Winter), 97.6 (Full Year)

CIV220H1 - Urban Engineering Ecology

Credit Value: 0.50
Hours: 38.4L/12.8T

Core Course in the Environmental Engineering Minor Basic concepts of ecology within the context of urban environments. Response of organisms, populations, dynamic predator-prey and competition processes, and ecosystems to human activities. Thermodynamic basis for food chains, energy flow, biodiversity and ecosystem stability. Biogeochemical cycles, habitat fragmentation and bioaccumulation. Introduction to industrial ecology and life cycle assessment principles. Urban metabolism and material flow analysis of cities. Response of receiving waters to pollution and introduction to waste water treatment. Emphasis is on identifying the environment/engineering interface and minimizing environmental impacts.

Prerequisite: CHE112H1
Total AUs: 42.7 (Fall), 42.7 (Winter), 85.4 (Full Year)

CIV235H1 - Civil Engineering Graphics

Credit Value: 0.50
Hours: 23.6L/52P

Fluency in graphical communication skills as part of the civil engineering design process is emphasized. Drawings are prepared making use of freehand sketching, drafting equipment and commercially available computer drafting programs. Topics in descriptive geometry are covered to develop spatial visualization skills. Drawing procedures and standards relevant to Civil Engineering projects to be covered include layout and development of multiple orthographic views, sectional views, dimensioning, and pictorial views. Class projects, assignments, and examples demonstrate how graphical skills fit into the overall design process.

Total AUs: 36.6 (Fall), 36.6 (Winter), 73.2 (Full Year)

CIV250H1 - Hydraulics and Hydrology

Credit Value: 0.50
Hours: 38.4L/12.8T/19.2P

The hydrologic processes of precipitation and snowmelt, evapotranspiration, ground water movement, and surface and subsurface runoff are examined. Water resources sustainability issues are discussed, including water usage and water shortages, climate change impacts, land use impacts, and source water protection. Conceptual models of the hydrologic cycle and basics of hydrologic modelling are developed, including precipitation estimation, infiltration and abstraction models, runoff hydrographs, the unit hydrograph method and the Rational method. Methods for statistical analysis of hydrologic data, concepts of risk and design, and hydrological consequences of climate change for design are introduced. Principles of open channel hydraulics are introduced. Energy and momentum principles are studied with application to channel transitions, critical flow, choked flow, and hydraulic jumps.

Prerequisite: CME270H1
Total AUs: 51.9 (Fall), 51.9 (Winter), 103.8 (Full Year)

CIV280H1 - Management of Construction

Credit Value: 0.50
Hours: 38.4L/25.6T

An introduction to the management of construction projects including: the nature of the industry, project delivery alternatives, legal and ethical considerations, the Safety Act and construction regulations, labour relations, construction contracts, risk distribution, project planning and scheduling, estimating and bidding, controlling of time, cost and quality, accounting leading to financial statements, dispute resolution, as well as new and evolving concepts in managing construction.

Total AUs: 48.8 (Fall), 48.8 (Winter), 97.6 (Full Year)

CIV282H1 - Engineering Communications I

Credit Value: 0.20
Hours: 12.8L/12.8T

This course develops students' communications skills focusing on the specific skills required for work in foundational civil engineering. Target communication areas include: Oral Presentation; Logical Argument; Document Development; Sentence and Discourse Control; and Visual Design. The course will build capacity in support of specific assignments delivered in other courses in the same term.

Total AUs: 18.3 (Fall), 18.3 (Winter), 36.6 (Full Year)

CIV300H1 - Terrestrial Energy Systems

Credit Value: 0.50
Hours: 38.4L/25.6T

Core Course in the Sustainable Energy Minor Various earth systems for energy transformation, storage and transport are explored. Geological, hydrological, biological, cosmological and oceanographic energy systems are considered in the context of the Earth as a dynamic system, including the variation of solar energy received by the planet and the redistribution of this energy through various radiative, latent and sensible heat transfer mechanisms. It considers the energy redistribution role of large scale atmospheric systems, of warm and cold ocean currents, the role of the polar regions, and the functioning of various hydrological systems. The contribution and influence of tectonic systems on the surface systems is briefly introduced, as well the important role of energy storage processes in physical and biological systems, including the accumulation of fossil fuel reserves.

Exclusion: ENV346H1
Total AUs: 48.8 (Fall), 48.8 (Winter), 97.6 (Full Year)

CIV301H1 - Design of Hydro and Wind Electric Plants

Credit Value: 0.50
Hours: 38.4L/25.6T

Introduction to the applications of turbo-machinery. Description of typical wind and hydroelectric plants; different types of turbo-machines. Fundamental fluid mechanics equations, efficiency coefficients, velocity triangles, characteristic curves, similarity laws, specific speed, vibration, cavitation of hydraulic turbines, pump/turbines; variable speed machines. Estimation of main dimensions of machine units, machine house, waterways, electrical and civil structure; transients and stability. Layout of electric and storage plants. Major and auxiliary equipments and systems. Small and mini plants. Case studies.

Exclusion: EDV301H1
Total AUs: 48.8 (Fall), 48.8 (Winter), 97.6 (Full Year)

CIV312H1 - Steel and Timber Design

Credit Value: 0.50
Hours: 38.4L/25.6T

An introduction to structural engineering design. Topics discussed include safety and reliability, load and resistance, probability of failure, performance factors, and material properties. A study of basic steel design examines tension members, compression members, beams, framing concepts and connections. Plasticity and composite action in steel structural systems are also discussed. Timber design aspects include beams, compression members and connections.

Prerequisite: CIV214H1, CIV235H1
Total AUs: 48.8 (Fall), 48.8 (Winter), 97.6 (Full Year)

CIV313H1 - Reinforced Concrete I

Credit Value: 0.50
Hours: 38.4L/25.6T

This course provides an introduction to the design of reinforced concrete structures. Concrete technology, properties of concrete and reinforcing steel, construction practice, and general code requirements are discussed. Analysis and design of members under axial load, flexure, shear, and restraint force are examined in detail. Other aspects of design covered include control of cracks, minimum and maximum reinforcement ratios, fire resistance, durability, distress and failure. A major design project, done in teams of two and accounting for 15% of the final mark, requires students to formulate a complete design for a structural system such as a pedestrian bridge or floor system. Project requirements include consideration of alternative designs in terms of structural efficiency and total costs.

Prerequisite: CIV312H1
Total AUs: 48.8 (Fall), 48.8 (Winter), 97.6 (Full Year)

CIV324H1 - Geotechnical Engineering II

Credit Value: 0.50
Hours: 38.4L/12.8T/12.8P

The second geotechnical engineering course expands the theoretical background developed in CME321 by introducing more practical topics and extending the theory to a few common examples of design. It discusses some applications of soil mechanics, introduces common geotechnical structures, classification of soils, compaction, engineering of water in ground, Internal erosion and filter criteria, stresses in soil, shear strength of soil, design of retaining structures, settlements, and design of shallow footings. Laboratories are an essential part of this course and a number of labs will be scheduled for students.

Prerequisite: CME321H1
Total AUs: 48.8 (Fall), 48.8 (Winter), 97.6 (Full Year)

CIV331H1 - Transport I - Introduction to Urban Transportation Systems

Credit Value: 0.50
Hours: 38.4L/12.8T

This course introduces the fundamentals of transportation systems and the application of engineering, mathematical and economic concepts and principles to address a variety of transportation issues in Canada. Several major aspects of transportation engineering will be addressed, including transportation planning, public transit, traffic engineering, geometric design, pavement design and the economic, social and environmental impacts of transportation. The course focuses on urban transportation engineering problems.

Total AUs: 42.7 (Fall), 42.7 (Winter), 85.4 (Full Year)

CIV332H1 - Transport II - Performance

Credit Value: 0.50
Hours: 38.4L/12.8T

This course focuses on the fundamental techniques of transportation systems performance analysis with emphasis on congested traffic networks. Topics include transportation demand, supply and equilibrium, traffic assignment, network equilibrium, and system optimality, traffic flow theory, shockwaves, highway capacity analysis, introduction to deterministic and stochastic queuing analyses, intersection signal control types and related timing methods, and traffic simulation. The course also provides an introduction to basic elements of Intelligent Transportation Systems (ITS).

Total AUs: 42.7 (Fall), 42.7 (Winter), 85.4 (Full Year)