A1. Biomedical Engineering & Human Health in Honour of Michael V. Sefton
Alison McGuigan,?University of Toronto
Milica Radisic,?University of Toronto
Molly Shoichet,?University of Toronto
Steve Waldman,?Ryerson University
Chris Yip,?University of Toronto
Cell and Tissue Engineering, biomaterials, scaffolds, tissues on a chip, microfabrication, regenerative medicine, immuno engineering, stem cells and synthetic biology
Functional Biomaterials - hydrogels, nanogels, ceramics, metals, polymers. hybrid biomaterials, self-healing gels, peptides, glycomaterials, biomimetic membranes (liposomes, polymersomes), recyclable biopolymers
A2. Fate and Transport of Pollutants in the Environment in Honour of?Don Mackay
This symposium is celebrating the career of Don Mackay, who for more than 50 years has made numerous invaluable contributions to understanding and quantifying the fate and transport of contaminants in the environment. Starting with early oil spill research to more recent efforts related to advanced chemical property prediction, his work has had, and continues to have, enormous impact on the field of environmental chemistry and engineering.?
Very much the engineer, Don Mackay is not content to make important, academically recognised contributions, but has devoted ingenuity, time and tireless effort to see his work used by professional environmental practitioners and applied in the environmental policy arena. He is driven by the belief that the astute application of scientific knowledge by academics, industry and governments will allow humanity to enjoy the many potential benefits of chemicals while minimising the potential detriment to humans and their environment.
For this symposium, we welcome contributions to the many areas of enquiry within which Don Mackay has made seminal contribution, including (i) understanding and quantifying the air-surface exchange of organic contaminants, (ii) developing and applying fugacity-based environmental fate and transport models, (iii) understanding and quantifying the accumulation of organic chemicals in organisms, and (iv) application of environmental modeling in environmental regulation and policy. Beyond this, we also appreciate receiving submission of contributions that more generally rely on the application of chemical engineering principles and approaches to solving the environmental challenges of the present, including climate change, and air and water quality.
Arthur Chan,?University of Toronto
Charles Jia,?University of Toronto
Jeanette Southwood,?Engineers Canada
Frank Wania,?University of Toronto
Jon Arnot,?ARC Arnot Research & Consulting, and University of Toronto
Terry Bidleman, Ume? University, Sweden
Frank Gobas,?Simon Fraser University
Hayley Hung, Environment and Climate Change Canada
Environmental engineering, contaminant fate, chemical emissions, contaminant bioaccumulation, chemical regulation, chemical risk assessment, chemical prioritization, long range transport, chemical persistence, multimedia fate and transport models, Stockholm Convention, atmospheric deposition, fugacity modelling, chemical activity, air quality, water quality, climate change
A3. Lignocellulosic Biorefinery and Bioproducts in Honour of?David Goring
This symposium brings together leading researchers in the area of lignocellulosic valorization research and development. Topics cover recent advances in conversion and utilization of cellulose, hemi-cellulose, lignin, and extractives to biochemicals, bioenergy, and biomaterials/nano-cellulose from forest and agro resources and residues. Submissions related to both fundamental as well as applied and industrial research in the area of lignocellulosic biomass conversion are welcome. Topics including:
- Bio-based products from lignocellulosics
-?Bio-based chemicals from lignocellulosics
-?Bio-based materials, biocomposites, and polymers
-?Biomass pretreatment technologies
-?Biomass fractionation technologies
-?Thermochemical and catalytic conversion?
-?Biorefinery process design, integration and optimization
-?Bioenergy and biofuel
-?Environmental aspects of biorefineries
Niko De Martini,?University of Toronto?
Ramin Farnood,?University of Toronto?
Kecheng Li,?Western Michigan University
Cláudio Mudadu Silva,?Universidade Federal de Vi?osa
Ning Yan,?University of Toronto
Dimitris S. Argyropoulos,?North Carolina State University,?USA
Lew Christopher, Lakehead University
Derek Gray (Winner of 2013 Marcus Wallenberg Prize), McGill University.
Kristiina Iisa, National Renewable Energy Laboratory
Patrice Mangin, Université?du Québec a Trois Rivières?
Robert Pelton, McMaster University?
Orlando Rojas, Aalto University, Finland
Michael Tam, University of Waterloo
Theodorus G.M. van de Ven,?McGill University
The symposium will highlight the latest advancements in biocatalysis with a focus towards translating knowledge gained in to industrial applications for sustainable manufacturing and chemical synthesis. Expected presentation topics include bioproducts, biofuels, recyclable biopolymers, biochemical intermediates, nutraceuticals, bioremediation, environmental microbiology, microbial biochemistry, metabolic engineering, structural biology, waste reduction and remediation, and green technologies.
Ingrid Avanzi,?Universidade Federal de S?o Paulo
Sue Baldwin,?University of British Columbia?
Sean Caffrey,?University of Toronto
Elizabeth Edwards,?University of Toronto
Tedd Konya,?University of Toronto
Krishna Mahadevan,?University of Toronto
Emma Master,?University of Toronto
Claudio Nascimento,?Universidade Federal de S?o Paulo
Elen Perpetuo,?Universidade Federal de S?o Paulo
In 2015, the United Nations adopted an ambitious development agenda which laid out 17 Global Goals the world should strive to achieve by 2030. Each one of those Goals – which include eradicating poverty in all its forms, ensuring access to clean, affordable and sustainable energy, and taking action against climate change – represents a thought-provoking engineering challenge which requires ingenuity and innovation to address.
This symposium will bring together engineers, scientists, and field practitioners working on solutions aimed at addressing those Goals. Sessions will be held on technologies and practices being developed in order to improve food and nutritional security in the Global South, ensure equitable access to clean water, sanitation and hygiene, strengthen global health, and promote collaborative engineering education between teaching institutions in the Global North and the Global South.
Keywords: Global Development, SDGs, Poverty, Global Health, WASH, Global Engineering, CGEN, Sustainability, Education, Air Quality, Diagnostics, Food Science, Agriculture, Postharvest Losses, Food Processing, Sewage Treatment, Recycling
Amy Bilton,?University of Toronto
Warren Chan,?University of Toronto
Yu-Ling Cheng,?University of Toronto
Levente Diosady,?University of Toronto
Greg Evans, University of Toronto
Savia Gavazza,?Universidade Federal de Pernambuco
Kiruba Krishnaswamy, University of Toronto
Olive Yao Li, Cal Poly Pomona
Ahmed Mahmoud,?University of Toronto
Venkatesh Manner, University of Toronto
Developing Innovative Global Engineering Educational Opportunities?(a joint session with the Engineering Education Symposium)
Providing students with engaging and relevant global engineering experiences is a growing initiative across many institutions.? In addition, there is a growing movement for development of international collaborative programs between partners worldwide.? The international dimension creates a unique educational experience for students, but also adds additional complexity to the already challenging world of engineering education.? The goal of this session is to provide opportunities for knowledge sharing and enable the further development of global engineering experiences for students.
Topics of interest include, but are not limited to, the following:
- Assessment of different study abroad opportunities in achieving global engineering competencies
- Integration of international learning experiences in the engineering curriculum?
- Starting collaborative online learning opportunities between international university partners
- Developing global engineering skills through on-campus initiatives
Kofi Taha,?MIT D-Lab
Global Food and Nutrition Security
This session focuses on importance of food and nutrition security in a global context. Micronutrient deficiencies are a major health problem in the world, affecting more than 2 billion people. This session will highlight world renowned speakers sharing their experience from thermal, aseptic and microwave processing of food to human rights and management perspective of international food fortification programs to address hidden hunger. This session will be attended by representatives from non-profit organization working in India, Nigeria, Kenya and Tanzania.?
Kiruba Krishnaswamy, University of Missouri
Venkatesh Mannar, University of Toronto
Global Health Engineering
Preventable diseases such as measles, malaria, diarrhea and pneumonia claim the lives of almost 11 million children each year, most of them in low- and middle- income countries (LICs). Millions more die from environmental burdens related to poor health such detrimental air quality, food safety, and inadequate shelter design. Many of those deaths can be prevented using evidence-based health technologies, and for that to happen, a concerted global effort to encourage the development and use of health technologies that can benefit the poorest people in the world is needed.
This session brings together engineers, scientists, and clinicians to discuss innovations and practices which are being investigated to improve public health in LICs. Those include emerging hardware technologies such as point-of-care devices and wearable gear for rapid diagnostics, mobile technologies such as mHealth and telehealth, novel drug and vaccine formularies, appropriate/frugal technologies for health, and improved organizational support systems for healthcare facilities such as hospitals and clinics. In addition, the session will showcase any other innovations related to the advancement of health in low-income communities, such as improved shelter design, clean cookstoves, better air quality monitors, and other emergent technologies.
Warren Chan, University of Toronto
Sustainable Food Engineering and Innovation
This session brings together leading researchers and industry experts in food engineering, an interdisciplinary field which intersects various disciplines: chemical engineering, food science, biochemistry and agricultural systems. Chemical engineering unit operations are critical to processing of food systems. Topics in this session cover recent advances in physical, chemical and engineering aspects of food materials, dehydration and drying of fruits and vegetables, hurdle technologies in food processing, separation and concentration processes in food, supercritical fluid extraction, food product development and their economics.? ??
Olive Yao Li, California State Polytechnic University, Pomona
Levente Diosady, University of Toronto
Kiruba Krishnaswamy, University of Missouri
Don Mercer, University of Guelph
Syed Rizvi, Cornell University
Water and Sanitation
Lack of access to clean water and basic sanitation is at the root of major global health challenges and significantly impact children's physical and mental development, gender equity and economic growth.?No single solution fits all contexts. Solutions can range from basic technologies, eco-sanitation, innovations for reducing water consumption, improving drinking water supply and quality, to value capture from waste and transformative technologies for re-inventing the toilet.? Topics welcome in this session include:??aerobic biodigestion in sewage treatment; nutrients and chemicals removal and recovery;? strategies and technologies to reduce sludge generation, co-digest, reuse, and produce biogas or other valuables; transformative technologies that improve waste treatment at source of parts of the fecal sludge management chain; micro-pollutants removal from domestic wastewater or from drinking water.
Yu-Ling Cheng, University of Toronto - Centre for Global Engineering
Sávia Gavazza, Federal University of Pernambuco
สมัครsbobet ฟรีMarcos von Sperling, Federal University of Minas Gerais?
This symposium is focused on advanced technologies and developments that address challenges related to greenhouse gas (GHG) mitigation as well as clean electrochemical, mechanical or thermal energy storage and conversion. The content of submitted papers can cover different scopes, including: new materials and production; development of devices, processes and systems; application and management; and efficiency, economic, sustainability, and policy. Specific topics to be discussed will include but not limited to:
? GHG mitigation and carbon (CO2) capture, utilization and storage (CCUS)
??Rechargeable and non-rechargeable batteries
??Hydrogen (H2) energy technologies
??Compressed air energy storage
??Piezoelectric energy harvesting
??Thermoelectric energy harvesting
Drew Higgins,?Stanford University
Sanaz Ketabi,?Electrovaya Inc.
Michael Pope,?University of Waterloo
Wan-Yu Tsai,?Oak Ridge National Lab
Hadis Zarrin,?Ryerson University
Daniel Bélanger,?Université du Québec
Shawn Litster,?Carnegie Mellon University
Xiaolei Wang, Concordia University
Bingjun Xu,?University of Delaware
Sohrab Zendehboudi,?Memorial University
This symposium focuses on water resources and process-affected water.? It addresses challenges in the areas of water supply, capture, recycling and quality for industrial and municipal uses. Topics to be addressed include:?
? Advanced oxidation technologies and their integration with biological processes?
?? Wastewater treatment processes
?? Municipal water treatment and quality
?? Water recovery processes for the extractive industries (mining, metals, oil and gas)
???Process water purification technologies
???Microalgal systems, biosorption and phycoremediation
???Surface and groundwater quality and quantity
???Water treatment in the food and beverage industry
Amarjeet Bassi,?Western University
Jose Colina-Marquez,?Universidad de Cartagena
Mehrab Mehrvar,?Ryerson University
Vlad Papangelakis,?University of Toronto
Mandeep Rayat,?University of Toronto
Water and wastewater treatment, advanced oxidation technologies and biological processes, microalgal systems, phycoremediation, tailings water, greenhouse industry effluent, surface run-off treatment, treatment and recycling in mining and mineral processing operations, water in mining and mineral processing operations, produce water in oil sands