Faculty

Cristina H. Amon, ScD, P.Eng., FAAAS, FASEE, FASME, FCAE, FCSME, FEIC, FIEEE, FRSC, NAE

Professor, Mechanical Engineering
Dean, Faculty of Applied Science and Engineering
Alumni Chair in Bioengineering

Research: Fluid dynamics; nano scale thermal transport; energy systems; electronics cooling; hemodynamics and transport in biological systems; engineering design and education.

Laboratory: Advanced Thermal/fluid Optimization, Modelling and Simulation (ATOMS) Lab

Email: dean@ecf.utoronto.ca | Tel: 416-978-3131 | Office: BA 2007

Research Areas

  1. Thermal and Fluid Sciences Engineering
  2. Biomedical Engineering
  3. Energy and Environmental Engineering

Biosketch

Cristina Amon has been the Dean of the University of Toronto's Faculty of Applied Science & Engineering and Alumni Professor of Bioengineering in Mechanical & Industrial Engineering since 2006. She received her Mechanical Engineering diploma from Simón Bolívar University, and her MS and ScD degrees in 1988 at the Massachusetts Institute of Technology (MIT). Prior to her leadership at the University of Toronto, she was the Raymond J. Lane Distinguished Professor and Director of the Institute for Complex Engineered Systems at Carnegie Mellon University.

A pioneer in the development of Computational Fluid Dynamics for formulating thermal design solutions subject to multidisciplinary competing constraints, she conducts research in nanoscale thermal transport in semiconductors, energy systems and bioengineered devices.

Dean Amon serves on the BoD of MKS Instruments Inc., a leading global provider for advanced manufacturing of semiconductor devices, energy generation and electro-optical products. She is chair of the research committee of NCDEAS (National Council of Deans of Engineering and Applied Science), past chair of the Global Engineering Deans Council, and has served on advisory boards for several institutions including Stanford, UCLA, UIUC and Waterloo.

Cristina Amon has received numerous professional and leadership awards, including the ASME Gustus Larson Memorial Award, ASEE Westinghouse Medal, ASME Heat Transfer Memorial Award, and the Society of Women Engineers' Achievement Award. In 2012 she was recognized as one of Canada's most Influential Women. She was inducted to four academies: Canadian Academy of Engineering, Spanish Royal Academy, Royal Society of Canada and the U.S. National Academy of Engineering. She is an elected fellow of all major professional societies in her field and has authored over 350 refereed articles in education and research literature.
Nasser Ashgriz, PhD, JD, P.Eng., FAAAS

Professor, Mechanical Engineering

Research: Fluid and thermal systems, spray and multiphase flows; energy, combustion, and nuclear engineering; microfluidics, micro-droplet jetting; bio-fluid engineering and vestibular systems.

Laboratory: Multiphase Flow and Spray Systems Laboratory (MUSSL)

Email: ashgriz@mie.utoronto.ca | Tel: 416-946-3408 | Office: MC229

Research Areas

  1. Energy and Environmental Engineering
  2. Thermal and Fluid Sciences Engineering

Biosketch

Dr. Nasser Ashgriz is a professor of Mechanical & Industrial Engineering at the University of Toronto. Prior to U of T, he was a Professor of Mechanical and Aerospace Engineering at the State University of New York at Buffalo, Buffalo, New York. He obtained his BS (1979), MS (1981), and PhD (1984) degrees in Mechanical Engineering from Carnegie-Mellon University, Pittsburgh, PA, where he was the recipient of two Bennet Prize awards (1981, 1983) in recognition of outstanding scholarly work in Mechanical Engineering.

He has been a visiting scientist at several national laboratories including NASA Lewis Research Center and Phillips Laboratory at Edwards Air Force Base. He has received several awards including the Ralph Teetor Award from Society of Automotive Engineers (1988), The Best Picture Award, from the American Physical Society (1988), the Best Paper Award, from the Combustion Institute (1992), and TOKTEN Award from the United Nations Development Program (1995). He is also the holder of a patent on MultiOrifice Impulsed Spray Generator, Patent No. 4,667,877. Dr. Ashgriz has been a member and has held offices in various professional societies (e.g., ASME K-11 Committee, "Heat Transfer in Fire and Combustion Systems," ASME Winter Annual Meeting, American Physical Society, the Combustion Institute, and the Institute for Liquid Atomization and Spray Systems).
Aimy Bazylak, PhD, P.Eng., FCSME

Associate Professor, Mechanical Engineering
Canada Research Chair in Thermofluidics for Clean Energy
Director, Institute for Sustainable Energy (ISE)

Research: Multiphase flow through porous media; microfluidics; thermofluids; clean energy applications; polymer electrolyte membrane fuel cells (PEMFCs); PEM electrolyzers, microfluidic fuel cells; carbon sequestration.

Laboratory: Thermofluids for Energy and Advanced Materials (TEAM) Laboratory
Computational Science & Engineering Discussion Group: https://arrow.utias.utoronto.ca/ccse/

Email: abazylak@mie.utoronto.ca | Tel: 416-946-5031 | Office: MC227

Research Areas

  1. Energy and Environmental Engineering
  2. Thermal and Fluid Sciences Engineering

Biosketch

Aimy Bazylak received her Bachelor’s degree in Engineering Physics from the University of Saskatchewan, and her MASc and PhD in Mechanical Engineering from the University of Victoria, where she specialized in numerical and experimental investigations of microfluidic and polymer electrolyte membrane fuel cells (PEMFCs). Professor Bazylak is the principal investigator of the TEAM Lab, where she leads a talented team of postgraduate researchers. She is the Director of the Institute for Sustainable Energy (ISE) and also the Associate Director for the NSERC CREATE Program in Distributed Generation for Remote Communities (DGRC).

Her research interests include transport phenomena in PEMFCs, PEM electrolyzers, microfluidic fuel cells, multiphase flow in porous media, clean energy technologies, and energy sustainability. In 2011, Prof. Bazylak received the I.W. Smith Award from the Canadian Society for Mechanical Engineering, and in 2012 she received an Early Researcher Award from the Government of Ontario.
Markus Bussmann, PhD, P.Eng., FCSME

Professor, Mechanical Engineering
Chair, Department of Mechanical & Industrial Engineering

Research: CFD and thermofluids modelling; interfacial and multiphase flows; wetting and contact lines; heat transfer and phase change. Industrial applications include boiler fouling and ash deposition; industrial melting and dissolution processes; oil/water/solids separation.

Laboratory: Modeling Materials Processing Laboratory

Email: bussmann@mie.utoronto.ca | Tel: 416-978-7198 | Office: MC136

Research Areas

  1. Thermal and Fluid Sciences Engineering
  2. Energy and Environmental Engineering

Biosketch

Markus Bussmann is Chair and Professor in Mechanical & Industrial Engineering (MIE) at the University of Toronto. Professor Bussmann holds BASc (1987) and MASc (1990) degrees from the University of Waterloo, and a PhD (2000) from the University of Toronto. He then spent 2½ years as a postdoc and staff member at the Los Alamos National Laboratory, joined U of T in 2002, and served as Graduate Coordinator of MIE from 2009-2013. He has also served as Vice-Dean of Graduate Studies for the Faculty of Applied Science & Engineering.

Professor Bussmann’s research interests focus on the development and application of models for interfacial flow, heat transfer, and phase change associated with various materials processes, often in collaboration with other researchers. Applications include the control of boiler fouling, melting and dissolution processes in molten metals, fluid/fluid/particle separation and coating processes, and heat exchanger design. Professor Bussmann was named a fellow of the Canadian Society for Mechanical Engineering in 2011.
Sanjeev Chandra, PhD, P.Eng., FAAAS, FASME

Professor, Mechanical Engineering

Research: Heat transfer; fluid mechanics; thermal spray coating; spray painting; heat exchangers; heat pipes; impact of liquid drops; ink jet printing; waste heat recovery, electronic cooling.

Laboratory: Centre for Advanced Coating Technologies (CACT)

Email: chandra@mie.utoronto.ca | Tel: 416-978-5742 | Office: BA8254

Research Areas

  1. Thermal and Fluid Sciences Engineering
  2. Energy and Environmental Engineering

Biosketch

Sanjeev Chandra is a Professor in the Department of Mechanical & Industrial Engineering (MIE) at the University of Toronto, which he joined in 1990. He received his BTech from the Indian Institute of Technology, Kanpur (1981) his MS from Vanderbilt University (1983) and PhD from Cornell University (1990). He has served as the Acting Chair, Associate Chair (undergraduate studies), Associate Chair (graduate studies) and Vice-Chair of the MIE Department, and Acting Vice-Dean (undergraduate studies) of the Faculty of Applied Science & Engineering.

Professor Chandra is known internationally for his research on the dynamics of droplets and sprays. His research spans the areas of combustion, fluid mechanics, heat transfer and materials science and has also been applied in spray coating, spray cooling, fuel combustion and waste heat recovery. Prof. Chandra has published over 200 papers in referred journals and international conference proceedings. He teaches courses in thermodynamics and heat transfer and has served as visiting professor at the University of Limoges (France) Korea University (S. Korea), University of Bremen (Germany) and the University of Darmstadt (Germany).

In 2015 Professor Chandra was awarded the Jules Stachiewicz medal for Heat Transfer by the Canadian Society for Mechanical Engineering. In 2010 he was awarded the The Brockhouse Canada Prize for Interdisciplinary Research, awarded by the Natural Sciences and Engineering Research Council of Canada to recognize outstanding collaborative research. He is a Fellow of the American Society of Mechanical Engineers (ASME) and the American Association for the Advancement of Science (AAAS).
Iain G. Currie, PhD, P.Eng., FCSME

Professor Emeritus, Mechanical Engineering

Email: currie@mie.utoronto.ca | Tel: 416-946-0343 | Office: MC308

Research Areas

  1. Thermal and Fluid Sciences Engineering

Biosketch

Iain G. Currie holds a Bachelors degree in Mechanical Engineering from the University of Strathclyde, a Masters degree from the University of British Columbia, and a PhD from the California Institute of Technology. He has taught fluid mechanics at the undergraduate and graduate levels at the University of Toronto since he joined the academic staff in 1966. During the period 1993 to 1998 he served as the Chair of the Department. This period includes the merger of the Department of Mechanical Engineering and the Department of Industrial Engineering in 1996 to form the present Department of Mechanical and Industrial Engineering.

Dr. Currie’s research involves fluid structure interactions, and recently he has become involved in studying low Reynolds number flows involving both Newtonian and non-Newtonian fluids. He is the founder and Director of the Flow Measurements Laboratory, a facility which utilizes LDA and PIV flow measurement techniques. He is the author of the well known graduate text entitled Fundamental Mechanics of Fluids, the 4th edition of which was published by CRC Press in 2012.

Associate Professor, Mechanical Engineering
Wallace G. Chalmers Chair of Engineering Design

Research: Fluid flow and transport at small length scales; organized soft materials; microsystems design; micro and nanofabrication; fluidic microprocessors; high-throughput screening; small blood vessel structure and function.

Laboratory: Guenther Lab – Fluidic Microprocessors for Life & Material Sciences

Email: guenther@mie.utoronto.ca | Tel: 416-978-1282 | Office: MC416

Research Areas

  1. Thermal and Fluid Sciences Engineering
  2. Biomedical Engineering
  3. Advanced Manufacturing and Materials Engineering

Biosketch

The Guenther Research Group draws from the areas of fluid mechanics, colloidal material synthesis, as well as micro/nanofabrication. We investigate fundamentals of transport processes associated with micro/nanoscale flows and aim at translating these fundamentals into unique and powerful technical solutions. We are particularly interested in realizing dynamically changing microenvironments for applications in materials science and biomedicine. Current applications include the controlled preparation of colloidal nanostructures in microreactors, high-throughput platforms for functional tests of small blood vessels with relevance to biopharmaceutical drug discovery, and microfluidic strategies for probing cellular decision processes.
Xinyu Liu, PhD, P.Eng.

Associate Professor, Mechanical Engineering

Research: Microfluidics and lab-on-a-chip technologies; micro and nano biosensors; bioMEMS; robotics and automation at the micro and nanoscales; point-of-care diagnostics; environmental pollution testing; C. elegans biology; and large-scale gene screening.

Email: xyliu@mie.utoronto.ca | Tel: TBD | Office: MC312

Research Areas

  1. Biomedical Engineering
  2. Thermal and Fluid Sciences Engineering
  3. Robotics, Mechatronics and Instrumentation

Biosketch

Xinyu Liu is an Associate Professor in the Department of Mechanical and Industrial Engineering. Prior to joining the University of Toronto, he was an Associate Professor and the Canada Research Chair in Microfluidics and BioMEMS (tier II) in the Department of Mechanical Engineering at McGill University. He obtained his B.Eng. and M.Eng. from Harbin Institute of Technology in 2002 and 2004, respectively, and his Ph.D. from the University of Toronto in 2009, all in Mechanical Engineering. He then completed an NSERC Postdoctoral Fellowship in the Department of Chemistry and Chemical Biology at Harvard University in 2009–2011.

Xinyu’s research interests are at the interfaces of microfluidics, bioMEMS (bio-microelectromechanical systems), and robotics. His research group is developing integrated micro/nanodevices and systems to target a variety of exciting applications in biology, medicine, and environment. Applications of their recent technologies include point-of-care diagnostics, large-scale gene screening, neural basis of behaviour, high-throughput drug screening, and environmental pollution monitoring.

He received the 2012 Rising Star in Global Health Award from Grand Challenge Canada, the 2012 Douglas R. Colton Metal for Research Excellence from CMC Microsystems, the 2013 Award of Excellence for Basic Science Research from the McGill Surgery Department, the 2017 Christophe Pierre Award for Research Excellence (Early Career) from McGill Faculty of Engineering, and seven Best Paper Awards at major engineering and biomedical conferences.

Xinyu is an Associate Editor of IEEE Transactions on Automation Science and Engineering, IEEE Robotics & Automation Letters, and the International Journal of Advanced Robotic Systems. He also served on editorial boards of the three major international conferences (ICRA, IROS, and CASE) of the IEEE Robotics and Automation Society (RAS), and serves on the Steering Committee of the International Conference on Manipulation, Automation and Robotics at the Small Scales (MARSS).
Andreas Mandelis, PhD, LEL, FRSC, FCAE, FAAAS, FASME, FAPS, FSPIE

Professor, Mechanical Engineering
Canada Research Chair (Tier 1) in Diffusion-Wave Sciences and Technologies
Director, CADIFT

Research: Thermal and optoelectronic non-destructive techniques (thermophysics and photovoltaics); biothermophotonic and biophotoacoustic imaging science and instrumentation; cancer, dental caries, bone and blood glucose diagnostics.

Laboratory: Center for Advanced Diffusion-Wave and Photoacoustic Technologies (CADIPT)

Email: mandelis@mie.utoronto.ca | Tel: 416-978-5106 | Office: MC334

Research Areas

  1. Biomedical Engineering
  2. Energy and Environmental Engineering
  3. Advanced Manufacturing and Materials Engineering
  4. Thermal and Fluid Sciences Engineering

Biosketch

Professor Andreas Mandelis is a Full Professor of Mechanical & Industrial Engineering; Electrical & Computer Engineering; and the Institute of Biomaterials & Biomedical Engineering, University of Toronto. Dr. Mandelis’ fundamental research interests are focused on studies of physical processes in condensed and biological matter as they impact instrumentation science and signal generation. Examples are thermophysics, non-radiative and radiative physics of electronic, optical and biomedical materials, photoacoustic, photothermal and diffusion-wave phenomena in manufactured, electronic, biological and photonic media. Current interests include building theoretical and experimental system foundations of biothermophotonic and biophotoacoustic transport phenomena and frequency-domain instrumentation for imaging in hard (dental, bone) and soft tissues, novel biosensors and high-performance diagnostic imaging techniques. Culminating in his work on the foundations of the field of photoacoustic and diffusion waves in matter, his applied research interests span all aspects of instrumentation and measurement development for photoacoustic, photothermal, and diffusion-wave high-precision, high-dynamic-range analytical techniques leading to advanced non-destructive (non-invasive) inspection and monitoring technologies. Current application examples are in the fields of alternative energy conversion devices (e.g. solar cells, nano-optoelectronic devices), industrial manufactured products (steels, metal composites) and biomedical and dental diagnostics with major focus on advanced dynamic imaging instrumentation.

Professor Mandelis is the Canada Research Chair (Tier 1) in Diffusion-Wave Sciences and Technologies and a Fellow in the Academy of Sciences of The Royal Society of Canada. He has been selected for the Alexander von Humboldt Professor Award twice (in 2003 and 2012). He is the 2007 (inaugural) recipient of the Ontario Premier’s Discovery Award in Science and Engineering. He received the ASME 2009 Yeram Touloukian Award (and Medal) in Thermophysics, the Senior Prize of the International Photoacoustic and Photothermal Association, and the Canadian Association of Physicists (CAP) Medal for Outstanding Achievement in Industrial and Applied Physics. In 2010 he was awarded a Killam Research Fellowship from the Canada Council for the Arts. He is the recipient of the American Physical Society’s (APS) 2012 Joseph F. Keithley Award for Advances in Measurement Science and of the CAP-INO Medal for Outstanding Achievement in Applied Photonics. In 2013 he was selected as one of 10 recipients of the 2013 University of Toronto Inventors of the Year Award. He is a Fellow of the Canadian Academy of Engineering, the APS, the SPIE, the AAAS and the ASME.
Javad Mostaghimi, PhD, P.Eng., FAAAS, FIUPAC, FASME, FASM, FCSME, FCAE, FEIC, FRSC

Professor, Mechanical Engineering
Distinguished Professor in Plasma Engineering
Director, Centre for Advanced Coatings Technologies (CACT)

Research: Advanced coatings, thermal plasmas; thermal spray coatings; arcs; radio-frequency inductively coupled plasmas; computational fluid dynamics and heat transfer.

Laboratory: Centre for Advanced Coating Technologies (CACT)

Email: mostag@mie.utoronto.ca | Tel: 416-978-5604 | Office: BA8260

Research Areas

  1. Advanced Manufacturing and Materials Engineering
  2. Thermal and Fluid Sciences Engineering

Biosketch

Dr. Javad Mostaghimi is the Distinguished Professor in Plasma Engineering in the Department of Mechanical & Industrial Engineering at the University of Toronto and the director of Centre for Advanced Coating Technologies (CACT). He received a BSc degree from Sharif University, Iran, in 1974, and MSc and PhD degrees in Mechanical Engineering from the University of Minnesota, Minneapolis, in 1978 and 1982, respectively. Before joining University of Toronto in 1990, he held positions at Pratt & Whitney Canada, Longueil, Quebec, and the Department of Chemical Engineering, University of Sherbrooke, Sherbrooke, Quebec.

His main research interests are the study of thermal spray coatings, transport phenomena and electromagnetics in thermal plasma sources; in particular, study of the flow, temperature, and electromagnetic fields within arcs and RF inductively coupled plasmas . Professor Mostaghimi has done extensive simulation of the dynamics of droplet impact and solidification in thermal spray processes and automotive spray painting.

Professor Mostaghimi is a fellow of the following professional societies: ASME, ASM, CSME, EIC, CAE, AAAS, and IUPAC. He is a recipient of the 75th Anniversary Medal of the ASME Heat Transfer Division, the recipient of the 2013 Robert W. Angus Medal of the CSME, 2012 Heat Transfer Memorial Award of the ASME, 2011 Jules Stachiewicz Medal of the CSME, 2010 NSERC Brockhouse Canada Prize and the 2009 Engineering Medal in R & D from the Professional Engineers of Ontario.

He is a member of the editorial board of Plasma Chemistry and Plasma Processing and a member of the International Review Board of the Journal of Thermal Spray.
Chul B. Park, PhD, P.Eng., FRSC, FCAE, FKAST, FNAEK, FAAAS, FASME, FCSME, FEIC, FSPE

Professor, Mechanical Engineering
University of Toronto Distinguished Professor of Microcellular Engineered Plastics

Research: plastic foaming technology; fundamental understanding of foaming phenomena; computational modelling of foaming; super high R value foams; sound insulation foams, biodegradable foams; environmentally safeblowing agents.

Laboratory: Microcellular Plastics Manufacturing Laboratory (MPML)

Email: park@mie.utoronto.ca | Tel: 416-978-3053 | Office: RS210A

Research Areas

  1. Thermal and Fluid Sciences Engineering
  2. Advanced Manufacturing and Materials Engineering

Biosketch

Chul B. Park is a world leader in the development of innovative, cost-effective technologies for the foamed plastics. Dr. Park has been extensively involved in industrial projects both in consulting and research contracts on various foam processes including microcellular processing, inert gas-injection processing, rotational foam molding, wood-fiber composites, and open-cell foams.

Since 1993, he directed the Microcellular Plastics Manufacturing Laboratory at the University of Toronto and has been involved in pioneering work on the concepts of microcellular foaming. The laboratory is recognized as the leading facility in the world for research and development of microcellular plastic foams.

Dr. Park’s innovative research in this area indicates that the successful production of microcellular automotive parts could have a major impact on industry. Metallic components, for example, could be replaced with plastic ones, resulting in crucial weight reduction; the introduction of microcellular foams could further reduce part weights, as well as production and operational costs. These weight reductions could also contribute to improved fuel economy and reduced CO2 emissions.

For over a decade, he has led the Consortium for cellular and Microcellular Plastics (CCMCP) with 20+ industrial sponsors from Canada and around the world. The Consortium has developed state-of-the-art technologies for manufacturing process and production in plastic foaming, which have been widely adopted by a large number of companies in their production.

In recognition of his outstanding research achievements, he has received numerous honors and awards in his career. The recent awards include: the NSERC Strategic Network Grant ($5M) in 2010, the Julian C Smith Award from the Engineering Institute of Canada in 2010, Fellow of the Royal Society of Canada in 2010, Fellow of the American Association for the Advancement of Science in 2012, the C.N. Downing Award from the Canadian Society for Mechanical Engineering in 2012, the M. Eugene Merchant Manufacturing Medal from the American Society of Mechanical Engineers / Society of Manufacturing Engineers in 2012, and Fellow of the Korean Academy of Science of Technology in 2012.
David Sinton, PhD, P.Eng., FCSME, FASME, FEIC

Professor, Mechanical Engineering
Canada Research Chair in Microfluidics and Energy, E.W.R. Steacie Memorial Fellow

Research: Research: Energy; fluid mechanics; microfluidics, nanofluidics, and optofluidics; bioenergy; carbon management; enhanced oil recovery; diagnostics and fertility.

Laboratory: Sinton Lab - Fluidics & Energy

Email: sinton@mie.utoronto.ca | Tel: 416-978-1623 | Office: MC226

Research Areas

  1. Energy and Environmental Engineering
  2. Thermal and Fluid Sciences Engineering

Biosketch

David Sinton is a Professor and Canada Research Chair (Tier 1) in Microfluidics and Energy at the University of Toronto. He is currently an NSERC E.W.R. Steacie Memorial Fellow, before which he was the Associate Chair of Research in Mechanical & Industrial Engineering, as well as the Interim Vice-Dean of research in the Faculty of Applied Science. He is a co-founder and the CTO of Interface Fluidics Ltd, a start-up focused on improving the environmental and economic performance of current energy operations. Prior to joining the University of Toronto, Dr. Sinton was an Associate Professor and Canada Research Chair (Tier 2) at the University of Victoria, and a Visiting Associate Professor at Cornell University. He received a BASc from University of Toronto, MEng from McGill University and PhD from University of Toronto. Dr. Sinton’s research interests are in fluidics and energy. This research involves the study and application of small scale fluid mechanics (microfluidics, nanofluidics, and optofluidics) for use in energy systems and analysis. He became a Fellow of the Canadian Society for Mechanical Engineering in 2012, a Fellow of the American Society of Mechanical Engineers in 2013, a Fellow of the Engineering Institute of Canada in 2015, the University of Toronto McLean Senior Fellow in 2013, and an NSERC E.W.R. Steacie Memorial Fellow in 2016.
Pierre E. Sullivan, PhD, P.Eng., FCSME

Professor, Mechanical Engineering

Research: Turbulent flows; analytical models based on organized structures in steady and nonsteady flows; turbulent flow in spark ignition engines with laser doppler velocimetry; fibre slurries in high turbulence environments; development of improved PIV and PTV algorithms.

Laboratory: Turbulence Research Lab

Email: sullivan@mie.utoronto.ca | Tel: 416-978-3110 | Office: MC225

Research Areas

  1. Thermal and Fluid Sciences Engineering
  2. Applied Mechanics and Design
  3. Biomedical Engineering
  4. Energy and Environmental Engineering

Biosketch

Professor Pierre Sullivan's research interests span flow phenomena, energy conservation and micro-scale electrohydrodynamics. His work has examined novel physical insight into the area of micro-scale jets and electrowetting on dielectric droplet motion. In aerodynamic control, was initiated with acoustic control leading to the current work installing synthetic jets directly onto the wing. This work is focused on low-speed (1-5 kW) wind turbines and micro-air vehicles. This work has included difficult near-wall measurements, flow visualization and careful analysis to describe the actions of the two control mechanisms.

Most interestingly, his group has found a dependence on Reynolds number that allowed the identification of fundamental frequencies important to the shear layer vortices. This improves control schemes for the devices. In addition to this, through a number of collaborations he has embarked on an experimental and numerical study of bileaflet mechanical heart valves. He has developed a unique well-validated particle image velocimetry dataset that is much larger than any previously available and has made this available as an open dataset. This work has recently been modeled with Large Eddy Simulation to fully characterize difficult to measure turbulent stresses and statistics.

Professor Sullivan was named fellow of the Canadian Society for Mechanical Engineering (CSME) in 2012. He completed his BSME and MSME from Clarkson University in 1988 and 1991 respectively, and PhD in Mechanical Engineering from Queen's University in 1995.
Murray J. Thomson, PhD, P.Eng. FEIC, FCSME, FCAE

Professor, Mechanical Engineering
Director, NSERC CREATE Program in Clean Combustion Engines

Research: Alternative energy; combustion experiments and modelling; biofuel flames and engines; air pollution formation and control; spectroscopy and optical sensors.

Laboratory: Combustion Research Laboratory (CRL)

Email: murray.thomson@utoronto.ca | Tel: 416-573-1022 | Office: MC335

Research Areas

  1. Energy and Environmental Engineering
  2. Thermal and Fluid Sciences Engineering

Biosketch

Dr. Murray Thomson is a Professor in the Department of Mechanical & Industrial Engineering at the University of Toronto where he is the Director of the Combustion Research Laboratory. He is also cross-appointed with the Department of Chemical Engineering & Applied Chemistry. He received a BEng from McGill University (1986) and PhD from University of California, Berkeley (1994).

Professor Thomson is the Director of the NSERC CREATE Program in Clean Combustion Engines. He is on the organizing committee of the biennial International Sooting Flame Workshop, and the Board of Directors of the Canadian Section of the Combustion Institute. He is a member of the Research Management Committee and a Theme Leader of the BiofuelNet Canada NSERC National Centre of Excellence.

Professor Thomson’s research is in the area of combustion with a focus on pollutant formation, biofuels, combustion modeling and optical sensors. He has supervised the thesis research of 61 graduate students and published 62 journal publications. He has developed 4 sensors that had patent applications and were commercialised with Canadian partner companies (Tenova, Unisearch and Resonance). He is a Fellow of the Engineering Institute of Canada (EIC) and the Canadian Society for Mechanical Engineering (CSME).
Marianne Touchie, PhD, P.Eng.

Assistant Professor, Mechanical Engineering

Research: Building science; building energy use; indoor environmental quality; thermal comfort; energy modeling; building environmental monitoring; building retrofits; occupant behavior; heat pump technology; low-energy buildings.

Laboratory: Building Energy and Indoor Environment (BEIE) Lab

Email: touchie@mie.utoronto.ca | Tel: 416-978-5919 | Office: GB314B

Research Areas

  1. Energy and Environmental Engineering
  2. Thermal and Fluid Sciences Engineering

Biosketch

Marianne Touchie joined the University of Toronto as an Assistant Professor in July 2016 and is cross-appointed in the Departments of Civil Engineering and Mechanical & Industrial Engineering. She completed her BASc (2009) and PhD (2014) in the Department of Civil Engineering at the University of Toronto. Upon completion of her PhD, Dr. Touchhie became the Building Research Manager at the Toronto Atmospheric Fund and was also a Postdoctoral Fellow at the University of Toronto. Dr. Touchie’s research focuses on improving the energy performance and indoor environmental quality of existing buildings to make them more comfortable, healthy and sustainable through comprehensive retrofits. This work includes monitoring and characterizing building energy performance and environmental parameters such as temperature, mean radiant temperature, relative humidity, air velocity and leakage, lighting levels and contaminant concentrations to determine the influence of potential retrofit approaches, both active and passive. Much of her research has been in the multi-unit residential sector and particularly social housing buildings. Dr. Touchie is also the Academic Director and Chair of the Building Science Specialist of Ontario (BSSO) Committee for the Ontario Building Envelope Council (OBEC) and the Vice-Chair for the ASHRAE Technical Committee 2.1 Physiology and Human Environment.
James S. Wallace, PhD, P.Eng., FSAE, FCSME, FEIC

Professor, Mechanical Engineering

Research: Energy Studies; environmental engineering; alternative fuels; reducing engine exhaust emissions; energy system studies; clean energy technologies and the integration of energy conversion devices into total energy systems; investigations of hydrogen-fueled engines.

Laboratory: Engine Research and Development Laboratory (ERDL)

Email: wallace@mie.utoronto.ca | Tel: 416-978-4899 | Office: MC421

Research Areas

  1. Energy and Environmental Engineering
  2. Thermal and Fluid Sciences Engineering

Biosketch

Professor Jim Wallace is Director of the Engine Research and Development Laboratory at the University of Toronto. He has more than 30 years of experience conducting research on the topics of internal combustion engines, combustion, and fuels. The engine lab specializes in the combustion of alternative fuels, including biodiesel, bio-oil, and biogas, methanol, natural gas, propane and hydrogen in spark ignition and diesel engines. The focus of the work is on reducing engine exhaust emissions. Current research ranges from fundamental ignition studies of natural gas injected in diesel engines, a study of the effect of ethanol-gasoline blends on GDI engine PM emissions, and a study of the potential health benefits of using diesel particulate filters. He was made a Fellow of the Society of Automotive Engineers (SAE) in 2001 for his contributions in the area of alternative fuels. He is also a Fellow of the Canadian Society for Mechanical Engineering (CSME) and the Engineering Institute of Canada (EIC) and received the Robert W. Angus Medal from the CSME in 2011.

Professor Wallace served as Chair of the Department of Mechanical & Industrial Engineering from 1998-2003. He received the 2011 Faculty Teaching Award from the University of Toronto’s Faculty of Applied Science and Engineering and the 2012 President’s Teaching Award from the University of Toronto. He is a member of the University of Toronto’s Teaching Academy.

Professor Emeritus, Mechanical Engineering

Research: Thermodynamics and kinetics: gas and vapour adsorption kinetics; surface tension of solids; evaporation and condensation kinetics; surface tension-driven flow; energy transport at liquid-vapour and solid-liquid interfaces.

Laboratory: Thermodynamics and Kinetics Laboratory (TKL)

Email: ward@mie.utoronto.ca | Tel: 416-978-4807 | Office: MC309

Research Areas

  1. Energy and Environmental Engineering
  2. Thermal and Fluid Sciences Engineering

Biosketch

Charles Albert Ward received his BSc from the University of Texas, Arlington, and his doctorate from Northwestern University. He joined the Mechanical Engineering Department at the University of Toronto in 1967, and was promoted to Professor in 1977.

Currently, he is the Director of the Thermodynamics and Kinetics Laboratory. A theory for predicting the rate of molecular transport across phase boundaries—Statistical Rate Theory—was developed in his lab. It has been cited in the open literature over 400 times. He and his students have published over one hundred papers in peer-reviewed journals. His studies of interfacial kinetics led to the measurement of a temperature discontinuity at the liquid-vapour interface during evaporation and to the measurement of a new property of water: the surface thermal capacity. This property defines the energy transport by surface-tension-driven flow.

The Canadian Society for Mechanical Engineering (CSME) has recognized his research contributions. In 1988 he received the Robert W. Angus Medal in recognition of a paper on surface science and in 2008 he received the Jules Stachiewiez Medal for his contributions to heat transfer.
Edmond Young, PhD. P.Eng.

Assistant Professor, Mechanical Engineering

Research: Microfluidics; biofluid mechanics; microscale cell-based systems; cellular microenvironments; microfabrication; cell biology; cell imaging and microscopy; biomedical engineering; and cancer.

Laboratory: Integrative Biology and Microengineered Technologies Laboratory (IBMT)

Email: eyoung@mie.utoronto.ca | Tel: 416-978-1521 | Office: MC313

Research Areas

  1. Thermal and Fluid Sciences Engineering
  2. Biomedical Engineering

Biosketch

Edmond W.K. Young joined the Department of Mechanical & Industrial Engineering at the University of Toronto as an Assistant Professor in January 2013. He received his BASc (2001) and MASc (2003) in Mechanical Engineering at the University of British Columbia, and his PhD in Mechanical and Biomedical Engineering at the University of Toronto (2008). He was a postdoctoral fellow at the University of Wisconsin-Madison from 2009 to 2012, working at the Wisconsin Institute for Medical Research (WIMR).

Professor Young’s research interests focus on the development of microscale technologies for cell biology applications, with emphasis on creating engineered models that mimic the cell and tissue microenvironments in both healthy and diseased animals. This interdisciplinary research area requires combining the principles and techniques of microfabrication, fluid mechanics, material science, cell biology, and cell imaging and microscopy. In 2009, he received the Governor General’s Gold Medal and the Norman F. Moody Award for academic excellence, and in 2015 was awarded the CIHR-ICR CCRDP New PI Award.”