Chemical Engineering - MEng
Master
In Toronto (Canada)
Description
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Type
Master
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Location
Toronto (Canada)
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Duration
Flexible
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Start date
Different dates available
Explore diverse research fields such as wastewater and food treatment, polymer and process engineering, metallurgy and nanotechnology in this dynamic program. Students benefit from full-scale equipment and the latest computer technology for process modelling, simulation and control. With the support of expert faculty and direct connections with industry and hospitals, our in-demand graduates are prepared to solve some of society’s most pressing challenges.
Facilities
Location
Start date
Start date
About this course
Completion of a four-year undergraduate degree in chemical engineering or a related engineering or applied science discipline from an accredited institution
Minimum grade point average (GPA) or equivalent of 3.00/4.33 (B) in the last two years of study
Statement of interest
Resumé/CV
Transcripts
Two letters of recommendation
English language proficiency requirement
Reviews
Subjects
- Chemical Engineering
- Simulation
- Project
- Technology
- Process Engineering
- Engineering
- Designed
- Opportunities
- Postgraduate
- Successful
- Program
- Director
Course programme
The Master of Engineering (MEng) postgraduate program requires the successful completion of eight one-term courses and a major project, and is available in part-time or full-time study. You may substitute the major project with two electives, if approved by the faculty advisor and program director. This program is designed to provide opportunities for further professional development. No undergraduate credits may be taken towards the degree. At least four of the required eight courses must be taken at Ryerson. The part-time curriculum is structured to facilitate completion in three calendar years (36 months) or nine academic semesters. The full-time program will normally take five to six academic semesters. Your faculty advisor must approve your graduate course selection and the proposed project plan, which you will present in writing. Course selections are confirmed through a Program of Study agreement between you and your advisor, with the approval of the director. The oral presentation of the project report, and results, will be arranged in a seminar format. The Examination Committee will assess and grade your project report.
Electives
Group I
- Prob, Stat and Stochastic Proc
- Statistics for Engineering
- Model and Simulation- Chem Eng
- Advanced Process Control
- Applied Optimal Control
- Advanced Modeling Techniques
- Advanced Numerical Methods
- Advanced Transport Phenomena
- Advanced Fluid Dynamics
- Rheology
- Ind Catalysis and Biocatalysis
- Applied Thermodynamics
- Advanced Reactor Engineering
- Electrochemical Engineering
- Polymer Science
- Polymerization Reaction Engr
- Industrial Biotechnology
- Advances in Biomaterials
- Advances in Porous Materials
- Nanobiotechnology
- Advanced Topics in Tissue Engineering
- Dsgn/Oper Sm Wtr Treat Plants
- Adv Water Treatment Tech
- Advanced Food Process Engineering
- Directed St: Chem Eng (MASc)
- Directed St: Chem Eng (PhD)
- Process and Engr Optimization
- Fluidization Engineering
- Membrane Technology
- Plastic Technology
- Air Pollution and Control
Chemical Engineering - MEng