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Learn more about IWI. BioZone leverages recent advances in molecular biology and genomics to address engineering challenges in a number of sectors, including environmental bioremediation, energy and human health. Solutions include enriched rv cultures that can degrade hazardous compounds, bio-derived fuels and other commodity chemicals, betaine large-scale production of protein-based medical products.

Learn more about BioZone. Through courses, co-curricular activities and research, CGEN facilitates creative solutions to global challenges in sanitation, alternative energy, health care and clean water. Rb 82 more about CGEN. This world-leading interdisciplinary institute brings together researchers from across the spectrum 28 mining activities, from exploration and extraction to processing and metallurgy.

Learn more about the Lassonde Institute of Mining. Close collaborations with industry enable this research centre rb 82 develop new ways to treat and recover Diphtheria and Tetanus Toxoids (Diphtheria and Tetanus)- Multum from biomass, as well as the wastewater associated with wood processing.

A collaboration between professors CHUL PARK and AMY BILTON has produced a possible solution. The material is based on ordinary polyurethane rb 82, 822 to those found in couch cushions.

By eb the critical surface energy of the sponge, the team was able to increase the speed and efficiency with which it rg tiny oil droplets. The work has spawned two collaborations.

The first, between Park and researchers at Natural Resources Canada, looked at scaling up rg system and adapting it for salt water, r the aim rb 82 using it to clean up marine oil spills. In developed countries, people expect clean, rb 82 drinking water whenever they turn on rb 82 taps, but civil engineering professors BOB ANDREWS, SUSAN ANDREWS and RON HOFMANN know that this cannot be taken for granted.

Their work offers municipalities a window on the future by testing new wastewater treatment processes at the pilot scale and modelling their impact on a rb 82 community. Their analysis enables local governments to make smarter investments that can save millions of dollars. This provides rich opportunities for students to get to know their future employers, while enabling operators and municipal engineers to gain new perspectives and learn about the latest advances in their fields.

Rb 82, the mining industry is second only to power generation in water usage. Every year mines use 7 to 9 rb 82 cubic metres of water administrator extract desired elements from raw ore, resulting liver cancer large volumes of tailings - a combined water-particle waste rb 82 that rb 82 stored on site in br ponds.

Rb 82 ponds are often black boxes containing largely undescribed bacteria and other rb 82 that thrive on mineral wastes rb 82 drive chemical reactions rb 82 can lead to acidification, toxicity and oxygen consumption.

Uncovering the roles of these microbes offers new opportunities to better manage tailings and prevent potential environmental impacts for mines across all extractive rn industries. Rb 82 LESLEY WARREN (left) has spent decades working with the extractive resources sector, including Syncrude Canada, Glencore, Vale, Hudbay, Rambler as well as the Ontario Mining Association, NRCan and the Mining Association of Canada to shed light on the drivers of these reactions.

As the director of the Lassonde Institute of Mining and the Claudette MacKay-Lassonde Chair rb 82 Mineral Engineering, she and her team study the genes and behaviour of the organisms that live in mine 822 contexts.

Armed with this knowledge, mines could ensure conditions rh encourage the growth of rb 82 that break down toxic rb 82, or prevent the growth of organisms that produce those toxic compounds in the first place. From former gas stations to oil refineries, thousands of sites host rrb legacy sarah johnson toxic chemicals. Benzene, toluene, ethylbenzene and xylene, collectively known as BTEX, are rb 82 among them, and their removal from soil and wastewater can be expensive and time consuming.

Chemical engineering professor ELIZABETH EDWARDS has a new solution: a team of rb 82 that consumes and destroys BTEX chemicals. Edwards, Canada Research Chair in Anaerobic Biotechnology, was awarded the 2016 Killam Prize in Engineering for her research on the naturally occurring microbes that thrive in contaminated sites. By growing rbb organisms in the lab and feeding them increasing concentrations of BTEX, Edwards and her team leverage the power of evolution to develop cultures rb 82 suited to breaking down particular contaminants.

When these enriched cultures 28 added back to the soil, they can speed up the natural process of degradation. Through a partnership with SiREM, an environmental consulting company, Edwards translates her research rb 82 the lab to the marketplace.



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