Nine Engineering professors and alumni inducted into the Canadian Academy of Engineering

Nine Engineering professors and alumni inducted into the Canadian Academy of Engineering

Professor Robert Andrews’ work has lead him to solve real-world problems for drinking water safety.

Nine members of the U of T Engineering community have been inducted as fellows of the Canadian Academy of Engineering (CAE). Professors Robert Andrews (CivE), Sanjeev Chandra (MIE), Tom Chau (IBBME), Heather MacLean (CivE) and Wei Yu (ECE), along with alumni Perry Adebar (CivE MASc 8T7, PhD 9T0), Mark Hundert (IndE 7T1), Christopher Pickles (MMS 7T4, MASc 7T5, PhD 7T7) and John Young (MMS 7T1, MIE MASc 7T4) are among the CAE’s 50 new fellows. The CAE is a national institution through which Canada’s most distinguished and experienced engineers provide strategic advice on matters of critical importance to Canada. The new CAE fellows were inducted on June 26 in Ottawa, as part of the Academy’s Annual General Meeting and Symposium.

“The Academy’s recognition of so many faculty and alumni attests to the tremendous contributions U of T Engineers are making in Canada and around the world,” said Dean Cristina Amon. “It also demonstrates their impact in all aspects of the engineering profession — from engineering education to fundamental research to technology transfer, commercialization and consulting.”

Robert Andrews holds the NSERC Industrial Research Chair in Drinking Water Research, working with industry partners who serve over four million people in Southern Ontario. His collaborations with municipalities have allowed him to solve real-world problems that have a direct impact on the safety of Canada’s drinking water supply. An expert in drinking water treatment, Andrews is a member of several decision-making committees and advisory councils in Canada and the United States. His work has been recognized with prestigious awards from the Engineering Institute of Canada, the Canadian Society for Civil Engineering, and the American Water Works Association, among others.

Sanjeev Chandra is co-founder of the University of Toronto’s Centre for Coating Technologies, one of the world’s leading research centres in the area of thermal spray coatings. He has collaborated with research groups and industrial partners around the world in the development of cutting-edge technology in this area. Chandra’s work has been applied in the fields of spray coating and forming, spray cooling, ink jet printing, agricultural spraying and forensic science. He is a fellow of the American Association for the Advancement of Science, the American Society of Mechanical Engineers, and the Canadian Society for Mechanical Engineering, and received the NSERC Brockhouse Prize.

Through his research at Holland Bloorview and U of T, Tom Chau has developed assistive technologies which give children and youth with severe physical limitations the ability to communicate independently. Chau created the award-winning Virtual Music Instrument, which allows individuals with disabilities to express themselves through music. Additionally, he has pioneered optical brain-computer interfaces which allow nonverbal individuals to communicate through thought alone. Chau is a fellow of the American Institute for Medical and Biological Engineering and the recipient of several awards. In 2011 he was named one of 25 Transformational Canadians by The Globe and Mail.

Heather MacLean is an internationally recognized leader in sustainable systems analysis, including life cycle assessment and its application to energy systems and vehicles. Her work has led to sustainability assessment and life cycle assessment being viewed as critical tools by industry, government and other organizations, and has guided regulations such as California’s Low Carbon Fuel Standard. MacLean is an advisor to the World Bank/World Resources Institute for Sustainable Transportation. She is a fellow of the Engineering Institute of Canada and recipient of the Canada Mortgage and Housing Corporation Excellence in Education Award for Promotion of Sustainable Practices.

Wei Yu has made highly influential contributions to the field of information theory and communication engineering. His research addresses fundamental limits of information transmission in communication networks. Yu proposed dynamic spectrum management methods that have been used in millions of digital subscriber lines worldwide and also contributed significantly to the capacity analysis and optimization techniques for multiuser multiple-input multiple-output (MIMO) wireless communication channels, which are widely used in cellular networks. Professor Yu is an IEEE fellow, recipient of the NSERC E.W.R. Steacie Memorial Fellowship, and a Thompson Reuters Highly Cited Researcher.

Perry Adebar has made important contributions to the profession and practice of engineering in Canada. An award-winning educator, he is known for presenting a strong connection between theory and engineering practice, and his views are highly respected by industry. He is head of UBC Civil Engineering, and was previously associate dean of Applied Science at UBC. His research has had a direct impact on the seismic design of high-rise concrete buildings in Canada. Professor Adebar has provided engineering advice to several consulting engineering firms. He is a director of the Structural Engineers of B.C. and a member of the Canada TF-1 HUSAR Team.

Mark Hundert is a pioneer in the application of industrial engineering and operations research practices in order to improve the delivery of health care in Canada. He has helped to introduce principles and methodologies to improve the efficiency and effectiveness of our hospitals and other health care organizations. Among his many contributions in this field, Hundert spearheaded the development of a national database benchmarking the efficiency and quality of care in Canadian hospitals, which has been an essential tool in identifying and addressing areas needing improvement in the Canadian health care system. He received the Ontario Professional Engineers Management Medal in 2008.

A leading authority on microwave heating for metallurgical applications, Christopher Pickles has been a pioneer in the development of microwaves for processing ores, precious metal residues, and waste materials. Other major contributions include the use of extended arc plasma reactors for the treatment of electric furnace dusts and generation of ferro-alloys. Professor Pickles has presented short courses for industry, mentored close to 70 researchers, published over 170 papers, coedited five conference volumes and coauthored a textbook on Chemical Metallurgy. He is a fellow of the Canadian Institute of Mining, Metallurgy and Petroleum and has won national awards.

John Young has been eminently successful in the generation and application of new knowledge associated with primary steelmaking operations. He has provided exceptional engineering leadership in simulation modelling and commissioning of numerous steelmaking plants within Canada and abroad. He has coauthored a textbook entitled “Metallurgical Plant Design” and made significant contributions to the training of engineers in industry, as well as engineering students at both McGill and U of T, where he serves as an adjunct lecturer and instructor for MSE 450: Plant Design for Materials Process Industries. Throughout his career, Young has been an excellent ambassador for the engineering profession. He has received a number of high profile awards from AIME’s Iron and Steel Society.

Originally appeared on U of T Engineering News by Carolyn Farell | Posted on June 27th, 2017

 

Ontario Professional Engineers Foundation for Education honours top undergraduate students

Alumna Marisa Sterling (far right), faculty and members of the Ontario Professional Engineers Foundation for Education pose with undergraduate scholarship recipients in the Bahen Centre for Information Technology. (Photo: Jamie Hunter)
Alumna Marisa Sterling (far right), faculty and members of the Ontario Professional Engineers Foundation for Education pose with undergraduate scholarship recipients in the Bahen Centre for Information Technology. (Photo: Jamie Hunter)

Alumna Marisa Sterling (far right), faculty and members of the Ontario Professional Engineers Foundation for Education pose with undergraduate scholarship recipients in the Bahen Centre for Information Technology. (Photo: Jamie Hunter)

Ten of U of T Engineering’s top undergraduate students were recognized by the Ontario Professional Engineers Foundation for Education (OPEFE) for high academic achievement and co-curricular contributions.

Two entrance scholarships and eight in-course scholarships totalling $15,000 were presented to students at a reception held in the Bahen Centre for Information Technology on March 23.

“It’s an honour for me to present these scholarships to such a remarkable group of students,” said Marisa Sterling, P.Eng. (ChemE 9T1), president of the OPEFE. “It’s important that we give back to the next generation so we can keep evolving the profession — we’re only as strong as those whom we surround ourselves with.”

Professional Engineers Ontario (PEO) established OPEFE in 1959 and it remains one of U of T Engineering’s longest-running partnerships. OPEFE’s scholarships are funded by contributions from professional engineers across the province from organizations such as PEO and the Ontario Society of Professional Engineers.

OPEFE 2017 scholarship recipients

Marina Reny portraitMarina Reny (Year 4 MinE + PEY)

This past year, Marina Reny captained the University of Toronto Mining Games team, leading the team to a second-place overall finish at the 27th Annual Canadian Mining Games. She is also currently serving as the president of the Mineral Engineering Club. During her Professional Experience Year (PEY) internship, Reny worked in the Mine Operations Department at the Kearl Oil Sands Project in Northern Alberta. After graduation, she will be pursuing a career in mining, where she will work towards building a more sustainable industry.

Arnav Goel portraitArnav Goel (Year 2 CompE)

Arnav Goel is interested in the field of machine learning and data science. He is involved in a number of student clubs, including the University of Toronto Robotics Association (UTRA) and Blue Sky Solar Racing, where he works with the software team to optimize algorithms. Goel is also a web developer for the Institute of Electrical and Electronics Engineers’ U of T student branch.

Richard Yuze Li portraitRichard Yuze Li (Year 3 IndE)

Richard Yuze Li is passionate about data science and operation research. Last summer, he worked as a software engineer intern for the Royal Bank of Canada. Li has been actively involved in sports and creating job opportunities for the student community. He is currently part of the You’re Next Career Network, the largest student-run career organization in Canada. This summer, he will be conducting research in data science at the Chinese Academy of Sciences.

 

Calvin Rieder portraitCalvin Rieder (Year 2 MechE)

Calvin Rieder is interested in the areas of energy and water systems. Over the past several years, he has worked on designing solutions that combine environmental engineering with social justice to increase access to clean water where it is most acutely needed. He has been heavily involved in the U of T Human Powered Vehicle Design Team, contributing to the design and construction of two speedbikes. Rieder is also passionate about music and is a tenor in the Skule™ Choir.

Tobias Rozario portraitTobias Rozario (Year 1 ElecE)

Tobias Rozario is interested in energy and electronics specializations within the field of electrical and computer engineering. He recently obtained a summer internship for a startup company named Basilisk. He will help them develop a quiz-building app for students. Outside of class, Rozario trains in the art of tae kwon do, and is aiming to obtain his first-degree black belt this summer.

Enakshi Shah portraitEnakshi Shah (Year 4 ChemE + PEY)

Enakshi Shah is working towards completing a BASc in chemical engineering with a minor in sustainability and a certificate in business. She is passionate about programming, and is currently completing a software development internship at Nascent Digital, a digital consulting firm. She also enjoys learning about the intersection of policy and sustainable urban development, and how technology is shaping that landscape. Shah is active in helping Canada achieve its emissions reduction goals. In particular, she wants to engage young minds and develop opportunities for collaboration between students and environmental non-governmental organizations.

Marguerite Tuer-Sipos portraitMarguerite Tuer-Sipos (Year 3 MSE +PEY)

This past summer, Marguerite Tuer-Sipos participated in an international research exchange at Lund University in Sweden, where she investigated the biomaterial properties of titanium oxide for immobilizing enzymes. She will begin a PEY internship at Peel Plastics in May. Outside of academics, Tuer-Sipos enjoyed working in a TA-mentor role for first-year Materials Engineering students.

Jeremy Wang portraitJeremy Wang (Year 4 EngSci + PEY)

Jeremy Wang’s mission is to leverage aerospace and leadership development to empower society. Through the PEY internship program, he presently serves as the chief technology officer of The Sky Guys, Canada’s leader in unmanned aerial services, training and technology for industry and defense. Wang is also a part-time leadership facilitator with the U of T Institute for Leadership Education in Engineering, and was selected as one of The Next 36 in 2016. Read more about Wang’s PEY experience at U of T Engineering News.

Lingxiao Zeng portraitLingxiao Zeng (Year 3 CompE + PEY)

Lingxiao Zeng’s primary interest is software programming but she is also minoring in engineering business. This summer, she will be travelling to San Jose for a 12-month PEY internship at Intel. Zeng is involved in several student clubs, serving as vice-president of the Association of Chinese Engineers and is the co-founder of Freer, which provides volunteer opportunities in South America.

First-year engineering student Madelaine Elizabeth Shiell received an entrance scholarship but was not in attendance at the event.


This story originally appeared on U of T Engineering News.

Six engineering innovations get a boost from NSERC Strategic Partnership Grants

This story originally posted on Engineering News.

New funding from the Natural Sciences and Engineering Research Council (NSERC) will advance U of T Engineering research in sustainable energy, telecommunications and more.

On March 1, NSERC announced six Strategic Partnership Grants to help U of T engineers address some of the greatest challenges facing Canada and the world. The projects include new technologies to extract valuable minerals from hazardous mine tailings and systems to enable cities to repurpose stormwater more effectively. In total, the program invested more than $3.2 million in U of T Engineering and more than $5.3 million across the entire University.

The six funded projects are:

Elodie Passeport

Elodie Passeport (ChemE, CivE) — Smarter stormwater management

Heavy rainstorms like those that hit Toronto in July 2013 do more than damage basements — they also wash street-level pollution into local rivers and lakes. Nature deals with this problem through wetlands, which swell or shrink with the rains and which contain microorganisms that break down harmful substances. Bioretention cells are artificial structures designed to mimic this process in urban areas, yet for unknown reasons, some work better than others. Passeport and her team aim to pin down the hydrological, chemical, and physical processes that determine the performance of bioretention cells in order to optimize their design. Better stormwater management could prevent pollution from reaching the environment.

 

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Mansoor Barati (MSE) — Reclaiming hazardous waste

The area around Sudbury, Ont. is surrounded by 50- to 100-million tonnes of liquid tailings left over from mining operations. This waste material poses environmental risks if left untreated. Yet it still contains useful elements such as nickel, iron and sulfur which continue to be in demand in manufacturing and other sectors. Barati and his team are developing a process that recovers these elements from the tailings and generates electricity at the same time. The process would provide a permanent solution for the waste as well as economic benefits to the mine and surrounding community.

 

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Aimy Bazylak (MIE) — Hydrogen for clean, on-demand power

Environmentally friendly fuel cell vehicles run on hydrogen instead of gasoline, producing no emissions other than water and heat. Unfortunately, most hydrogen currently comes from natural gas, but it can also be extracted from water using electricity produced from renewable energy, such as the wind and sun. Polymer electrolyte membrane (PEM) electolyzers are a technology that essentially operate like reverse fuel cells, extracting hydrogen and oxygen from water. Moreover, they can enable us to efficiently deal with the huge peaks and troughs of intermittent electricity generated from variable renewable sources, such as wind, solar and tidal power. This project aims to use the team’s existing expertise in PEM-based fuel cells to advance PEM electrolyzers for clean hydrogen generation.

 

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Sean Hum (ECE) — Advanced Electromagnetic Surfaces for Next-Generation Communications Systems

The number of smartphones and connected tablets in the world is well into the billions and growing fast. Yet the wireless communications systems on which these devices depend use radio signals, and there are only so many frequencies to go around. Hum and his team develop advanced electromagnetic surfaces that can be used to redesign antennas, enabling more sophisticated control over radio signals. Used in satellites, these surfaces could dramatically improve communication capacity while reducing the size and weight of antennas. These surfaces can also be used in buildings, where they could improve reception and eliminate “dead zones.” By enabling more data to be transmitted wirelessly using the same bandwidth, the inventions will usher in the next generation of electronic communication.

 

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Ted Sargent (ECE) — Better lasers for transmitting digital information

Every time you upload a document, photo or video to the cloud your file is sent to a large collection of servers known as a datacentre. Within these datacentres, information is transmitted both electronically and optically. However, the devices that translate data between these two modes are inefficient, generating large amounts of waste heat and making datacentres enormous energy hogs. Using nano-sized particles called quantum dots, Sargent and his team are developing entirely new type of laser that is capable of being deposited directly on a silicon chip. The device will turn electrical impulses into light bursts in a much more efficient way, drastically reducing the amount of energy required to transmit data and the cost of cloud computing.

 

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Costas Sarris (ECE) — Redesigning train signalling for improved safety

Communications-Based Train Control (CBTC) is aimed at replacing conventional rail signalling with train control enabled by wireless communication between the train and a network of access points. In a cellular communication system, a network outage may cause a dropped call, but in a CBTC network it directly compromises the safety of train passengers. Therefore, these safety-critical systems must meet high standards of reliability, beyond those of typical communication networks. Sarris and his team, along withThales Canada, are developing a new paradigm for the design of CBTC systems with enhanced robustness and reliability. These systems can effectively serve the increasing need for rail transportation safety and efficiency shared by a growing number of Canadians, especially urban commuters in large metropolitan areas.