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From Waste to Worth Vice President Research, Office of the 2008

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As the irreversible decline of oil availability looms in the not-so distant future, Naoko Ellis  is using a grassroots UBC research project  to promote the widespread environmental and economic benefits of biodiesel8 Battle of the bark the pine beetle is transforming BC’s lush greenery into a sea of red death.  Jörg Bohlmann looks to the conifer tree for clues on how to halt the beetle’s rampant spread03 From waste to worth Waste cooking oil is finding new life as Naoko Ellis advances research into the viability of a cost-effective and environmentally friendly alternative to petroleum-based oil   06 Between the linesNancy Hermiston is examining the links between music  cognition and improved learning development through one  of the most complicated art forms 12 the hunted/r Jeff Carroll’s research into Huntington’s disease is not only offering hope for the afflicted; it’s changing the course of his  own genetic destiny  16 the lens of language How Sharon Thesen is constructing the world through  the creative imagination   18 In the company of giantsSustainable business practices used to be seen as an oxymoron. How James Tansey is making corporate social responsibility business as usual 20 Greater than the sum of its parts  Is it nature or is it nurture? Why Joseph Henrich is unconvinced either category gives a complete picture of human behaviour2008 is an exceptional year at UBC. Not only does it mark 100 years of excellence in education and research, but it is also the year UBC will be hosting Congress 2008, the annual meeting of the Canadian Federation for the Humanities  and Social Sciences that is a forum to discuss the most important social and cultural questions of our day. All great universities recognize the invaluable contributions that the humanities and social sciences make to the world and this issue of frontier showcases why UBC agrees. Humanities research, like Sharon Thesen’s explorations  into seeing the world through poetic language, helps enrich our lives in unexpected ways.  Social science research keeps us informed  about critical issues such as James Tansey’s work into how companies can better manage their corporate social responsibilities. But whether the social or natural sciences, researchers in this issue share one commonality: an interdisciplinary approach. UBC was among the first universities to champion the value of tackling issues from perspectives that cut across traditional disciplinary boundaries.  This approach is amply evident in the research of Nancy Hermiston, who is exploring learning development through the medium of opera, and Joe Henrich, who is integrating psychology, economics and evolutionary science in an  effort to provide a more comprehensive view  of human behaviour.As we look towards the next 100 years of groundbreaking research, UBC’s commitment to supporting the social sciences and humanities will continue to be a top priority. After all, you need not look further than the pages of this current issue to understand why. Dr. John Hepburn,  Vice President Research June 2008 A MESSAGE FROM THE VIcE PRESIDEnT RESEARcHCover Photo > Klaus Botte  Source: Natural Resources Canada      Above > Alamy/Tracy Ferrero5June 2008hours, the conversion happens, resulting in  a two-phase product: one is biodiesel and  the other is glycerol. By density difference, we are able to extract the glycerol from the bottom, leaving biodiesel. This substance is then purified further. The process is quite simple actually.”Once the methodology was mastered, Ellis teamed up with two students from the Environmental Youth Alliance (EYA) who not only began securing the funding needed to expand the operation but also became key players in “closing the loop” on utilizing the waste on campus. Shortly afterwards, the team was producing 100 litres of clean fuel per week at a cost of approximately $0.20 per litre. During the last five years, the Biodiesel Project trained over 30 students and had even secured a cooperative venture with UBC Plant Operations, which agreed to run its campus lawn equipment with a 20 per cent biodiesel blend in order to determine the feasibility of long-term usage. But in 2006, the Biodiesel Project quietly dismantled its operations due to losing the space for production: “Economically, the project just does not make sense at this point. At UBC, we could make ends meet with subsidy because the waste oil comes to us for free but to have somebody trained to produce the reaction was the significant cost to the operation, not the chemicals. The EYA helped us tackle this by training young people but without more large-scale  subsidy for biodiesel production, we couldn’t move forward.”Despite the fact the Biodiesel Project has been suspended for more than a year, interest has yet to fade. Recently, the city of Quesnel asked the EYA to complete a feasibility study that assesses the possibility of setting up a large-scale biodiesel processing plant in an effort to reap some of biodiesel’s economic and environmental benefits.Aside from being a cost-effective alternative to petroleum-based oil production, the environmental benefits of biodiesel are staggering. According to a study by the U.S. Department of Agriculture and the U.S. Department of Energy, biodiesel reduces net carbon dioxide emissions by 78 per cent, carbon monoxide by 48 per cent and particular matter (linked to asthma) by 47 per cent. Biodiesel is also 10 times less toxic than table salt, which means a major spill would be messy but substantially less damaging than a major spill of petroleum.Statistics like these have fueled Ellis to centre her latest research on improving the methodology developed by the Biodiesel Project. Through an NSERC strategic grant, Ellis is researching new catalysts for reaction: “Technically speaking, it makes a lot of sense to have a catalyst that is solid not liquid because of separation. Also, I am pursuing a supercritical methanol reaction system to produce biodiesel and for this, we don’t need any catalyst at all.”Ellis’ hope is to take her research from small-scale operations like the Biodiesel Project and apply that knowledge on a larger scale. Since Canada is currently importing most of its biodiesel (made from soya bean oil) from the US, Ellis sees the need for government subsidy to make the production of renewable sources of energy more competitive locally: “Politically, Canada is catching on and provincial governments are saying they will contribute $3 million to promote biodiesel. By the year 2016, they have expressed a commitment to employ five per cent blends of renewable resources. But so far, the link between research and implementation has been very disconnected.”While she is reluctant to predict any drastic action in biodiesel implementation by the Canadian government any time soon, Ellis will continue to adamantly promote a future where a diversity of strategies for fuel sourcing is integral to fostering a cleaner, more livable world. Dr. Naoko Ellis has received funding  from the Natural Sciences and Engineering Research Council of Canada (NSERC),  the Canada Foundation for Innovation (CFI), the British Columbia Knowledge Development Fund (BCKDF) and the Korea Energy Economics Institute.Biodiesel reduces net carbon dioxide emissions by 78 per cent, carbon monoxide by 48 per cent and particular matter  (linked to asthma) by 47 per centJune 20084It has the power to transform formerly nomadic cultures into major power players of the world economy. It has been the cause of bloodshed, strife and war. To the average individual, its impact has been even more immediate, as modern conveniences once thought of as luxuries have been changed into everyday necessities.In the 21st century, no other commodity has arguably had as much positive and negative influence on the fabric of society  as oil. It is estimated that more than 600 million vehicles around the world are fueled by petroleum-based oil. While 26 billion barrels per year are required to fuel society’s insatiable thirst for oil, only about six billion barrels are being uncovered annually and these numbers are rapidly dropping.As anxiety over dwindling supply and the ramifications of increased fuel consumption continue to reach unprecedented heights, a grassroots research project originating at UBC is helping the case for alternative sources of energy tentatively find its footing. Known as the Biodiesel Project, it has proven that biodiesel can potentially be a viable option to petroleum, if given the support  to grow.The idea for the Biodiesel Project began to germinate in 2002 as a what-if inquiry into the possibility of producing a clean fuel by Dr. Naoko Ellis, Assistant Professor of Chemical Engineering at UBC Vancouver. Her initial call for a thesis project to carry out research in this endeavour was met  with no response but when UBC science students Peter Doig and Geoff Hill approached Ellis to supervise the development of a methodology to produce biodiesel using waste cooking oil, the initiative really took shape.Transforming vegetable oil into a useable fuel is not a novel concept. Taking a new spin on an established theory, the Biodiesel Project team began investigating ways to utilize the seemingly unlimited supply of used oil produced by UBC cafeterias as a way to efficiently eliminate this waste. The conversion process starts with a filtering system that eliminates any solids and water in the used oil. The filtered oil is then mixed with methanol through a catalyst, which is subsequently purified and evaporated.Ellis explains: “Once pretreatment is done with filtering, we mix the oil with methanol and a catalyst, which in our case  is potassium hydroxide. After about two in its pure form, biodiesel is 10 times  less toxic than table salt and as biodegradable as sugarPhotos > Alastair Bird

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