the complete engineer fall2013 online
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The Complete Engineer is the magazine of the Faculty of Engineering and Applied Science at Queen's UniversityTRANSCRIPT
COMPLETETHE
ENGINEERTHE MAGAZINE OF THE FACULTY OF ENGINEERING AND APPLIED SCIENCE AT QUEEN’S UNIVERSITY
INSIDE...We look at graduate studies at Queen’s Engineering and profile 8 current students and alumni
FALL/WINTER 2013
Meet alumna Dr. Sizi Bebe. Her research
is helping develop polymer
products from Zimbabwe’s
natural resources.
SEC TION HEADER
DEANKimberly A. Woodhouse
MANAGING EDITORAdam Walker
CONTRIBUTING EDITORJordan Whitehouse
GRAPHIC DESIGNWalker Design & Communications
CONTRIBUTING WRITERSNanci CorriganAnita JansmanKirsteen MacLeod
CONTACT INFORMATION Faculty of Engineering and Applied ScienceQueen’s UniversityBeamish-Munro Hall45 Union StreetKingston, ONK7L 3N6Tel 613.533.2055Fax 613.533.6500Email [email protected]
Read Dr. Bebe’s profile on page 4
1 A Message from the Dean Another exciting academic year is underway, and Queen’s Engineering continues to grow and evolve
2 Faculty News We welcome Dr. Jeffrey Giacomin, PEng, to our Faculty
3 Queen’s Engineering’s Graduate Studies: Taking it to the next level Vice Dean Brian Surgenor describes the program and the possibilities
4 Our Special Feature Meet some of our amazing graduate students, both past and present Sizi Bebe, PhD, Chemical Engineering
John Ford, MASc, Civil Engineering Basel Nabulsi, PhD, Electrical and Computer Engineering Scott Brandon, PhD candidate, Mechanical and Materials Engineering Paul Webster, PhD, Engineering Physics Carolyn Ingram, MASc candidate, Mining Engineering Naci Saldi, PhD candidate, Mathematics and Engineering Matt Lato, PhD, Geological Engineering
12 The Value of the Teaching Assistant The relationship benefits both the students and the TAs
14 CREATE (ing) Opportunities New NSERC initiative opens new possibilities for engineering research —and student careers
16 Masters in Applied Sustainability is Educating Policy-savvy Engineers
18 Alumni Events Dean Woodhouse and the Advancement Team have been visiting with alumni and friends
FALL/WINTER 2013
CONTENTS
COMPLETETHE
ENGINEERTHE MAGAZINE OF THE FACULTY OF ENGINEERING AND APPLIED SCIENCE AT QUEEN’S UNIVERSITY
INSIDE...We look at graduate studies at Queen’s Engineering and profile 8 current students and alumni
FALL/WINTER 2013
Meet alumna Dr. Sizi Bebe. Her research
is helping develop polymer
products from Zimbabwe’s
natural resources.
elcome to our Fall 2013 issue of The Complete Engineer and to a new academic year of growth and innovation.
Campus is once again bustling with students, and our new future engineers are deep into their common year activities. This is an exciting time—new students, new ideas, and research and faculty developments that continue to position us as leaders in education.
We’re excited to announce a number of new additions to our Faculty, particularly the appointment of an Online Learning Coordinator and an Outreach Coordinator. We’re also pleased to announce that Scott Yam has been appointed Associate Dean of International Projects. Along with his important work in wired and wireless technology, Scott has been instrumental in mentoring our graduate students through the Next Generation Optical Networks training program.
It was a pleasure to welcome so many of you back to campus for Homecoming this fall. We hope you enjoyed exploring campus and reconnecting with classmates. As always, I welcome your feedback on our progress and wish you great success in the final quarter of 2013.
Kimberly A. WoodhousePhD, PEng, FCAE, FBSEDean, Faculty of Engineering and Applied Science
Dean’s Message
“ ”This is an exciting time—
new students, new ideas,
and research and faculty
developments that
continue to position us as
leaders in education.
THE COMPLETE ENGINEER 1
FACULT Y
W
FACULT Y NE WS
Jeff Giacomin, PEng
2 THE COMPLETE ENGINEER
T
Welcome to new faculty
he Department of Chemical Engineering welcomed Professor
Jeffrey Giacomin, Sc’81, MASc’83, in August 2013. After earning both his BSc and MASc at Queen’s, and after working as a scientist at the Research Division at DuPont in Kingston, Dr. Giacomin pursued his PhD in Chemical Engineering at McGill University. Since then, he has gained a diversity of both academic and industrial experience, and we are very pleased to welcome him back to Queen’s.
There were many reasons for Dr. Giacomin’s return to Queen’s. “Our Polymers Research Group in Chemical Engineering is the perfect place to continue my research career,” he says. “I find myself surrounded by emerging leaders in polymers, and specifically, in my speciality, polymer rheology.”
Over the years, Dr. Giacomin and his students have published more than 80 journal articles on topics such as thermoforming, blow molding, plastic
pipe extrusion, wire coating, sheet coating, fiber filled materials, sliding plate rheometry, and the nonlinear viscoelasticity of molten plastics and other complex fluids. This research has attracted industrial sponsorship from
3M, Clearlam, Curwood (Bemis), Dow Chemical, DuPont, IBM, Hutchinson, Kimberly-Clark, Nordson/Extrusion Dies, Phillips 66, Placon, Plastics Ingenuity, Shell Development, Subzero, and TriEnda. Professor Giacomin specializes in industrial manufacturing problems that persist because of a specific knowledge gap, some missing piece
of engineering science. The Queen’s Polymers Research Group creates knowledge about plastics manufacturing.
Dr. Giacomin is currently the immediate Past-President of The Society of Rheology and serves as Associate Editor for Business, Journal of Rheology. He also works as a consultant to the polymer industry, and this work often inspires and enriches his university research program.
Due to his group’s ground-breaking and innovative research, Dr. Giacomin has spent a significant amount of time travelling all over the world as a visiting professor. While he is at Queen’s, he is especially interested in spreading the word about Queen’s to international audiences and in attracting foreign sabbaticants to Queen’s. His first stop is Thailand, at the end of November.
It is with great excitement that we welcome Dr.Giacomin back to Queen’s University!
“ ” I find myself surrounded by
emerging leaders in polymers,
and specifically, in my speciality,
polymer rheology.
3 THE COMPLETE ENGINEER
Queen’s Engineering’s Graduate Studies:
Taking it to the next level
GR ADUATE STUDIES PROFILES
Queen’s began offering graduate studies in engineering in the early 1950s.
By 1970, the number of graduate students was slightly more than 100. Today,
40 years later, the Faculty has more than 500 graduate students from around
the world studying in one of its 15 programs. The growth reflects the Faculty’s
increased interaction with industry and its demands for more applied research, as
well as Queen’s strategic focus on becoming a more research-intensive university.
The research-focused master’s (MASc) and doctoral (PhD) programs continue
to produce highly trained engineers with the advanced skills and knowledge
Canada needs to remain competitive. “However, the past 10 years has seen a push
from all levels toward more research in direct collaboration with industry,” says
Brian Surgenor, Vice-Dean (Research and Graduate Studies), Sc’77, PhD’83.
As an example, Surgenor points to MITACS, a national, not-for-profit
organization that provides funding for graduate students to work in industry as
part of their studies. This allows them to apply skills they acquire in university to
real-world problems. MITACS’s goal is to equip the next generation of innovators
with vital scientific and business skills.
“As a country, we have to produce more innovators to remain competitive
internationally,” says Surgenor. “That’s why we promote graduate-level, industry-
sponsored projects funded by organizations such as MITACS and NSERC,
which support the growth of the Canadian economy by using our graduate
professionals.”
In addition to the thesis-based MASc and PhD programs, the Masters of
Engineering (MEng) offers a graduate degree based on coursework. It’s an eight-
to 12-month program that provides a mix of technical and professional skills; it’s
best suited to those who are interested in learning advanced engineering skills
that will enhance their employment opportunities.
“Some undergraduate students completing their four-year engineering
degree feel they need that extra fifth year to be more competitive in today’s job
market,” says Surgenor. “In some areas, it’s difficult to fit all you need to learn into
four years, so the MEng is ideal to give that added edge.”
Graduate studies also include professional development programs such as
the Community Relations for the Extractive Industries, a graduate certificate
program first offered in 2012. Intended for mining engineers who wish to learn
more about corporate social responsibility and how extractive industries manage
their relationships with local communities, the certificate consists of four distance
education courses.
The people you’ll meet in the following pages are studying for their graduate
degrees or have completed their studies. Each of them has found meaningful and
exciting ways to put their Queen’s education to good use.
Brian SurgenorPhD, PEng, FCSME
“”
As a country, we have to
produce more innovators
to remain competitive
internationally,” says
Surgenor. “That’s why
we promote graduate-
level, industry-sponsored
projects funded by
organizations such as
MITACS and NSERC, which
support the growth of
the Canadian economy
by using our graduate
professionals.
GR ADUATE STUDIES PROFILES
Sizi Bebe has overcome much adversity in her life, but her positive and hopeful attitude shines through. Born in Zimbabwe, Sizi’s knack for science and mathematics led her to study engineering at the University of Zimbabwe. Her undergraduate degree further piqued her scientific curiosity, so she decided to head to Australia to do graduate work in polymers, a substance with a molecular structure made chiefly from a large number of similar units bonded together.
“Almost everything we use on a daily basis contains polymers,”
says Sizi. “I find this fascinating.”
A family crisis brought her back to Zimbabwe, making it
impossible to complete her PhD in Australia, but not before
she had earned an MSc from the University of Sydney. A health
crisis brought her to Kingston to stay with her sister. Sizi warmed
to the city and decided to raise her two children there. During
her recovery she contacted Dr. Robin Hutchinson, a Chemical
Engineering professor at Queen’s, who encouraged Sizi to
continue her doctoral studies.
Today, Sizi is the co-founder and Executive Technical Director
of DAS Innovations Corporation, an Ottawa-based firm that
collaborates with St. Lawrence College and the University of
Waterloo on the complex and evolving world of polymers and
nanotechnology. DAS researches and develops innovative
technologies that improve day-to-day living conditions and
alleviate challenges, such as energy storage systems.
Sizi is also contributing in her homeland: she has helped to
establish the Polymer Sciences Institute in Harare to bring
awareness of how important polymers are in everyday life. This
will also advance research and development of polymer products
derived from Zimbabwe’s abundant natural resources, including
coal, platinum, and chromium.
“Quite a lot can be done with natural products found locally in
Zimbabwe,” she says.
When Sizi comes to Canada, she has a chance to see her children,
who are now of university age. When in Zimbabwe, Sizi likes to
explore the natural beauty of her homeland.
“Victoria Falls, game reserves, the mountains … it’s all beautiful,”
she says. “I’ve really come to appreciate it since I’ve been away
and come back.”
Sizi BebePhD, Chemical Engineering
4 THE COMPLETE ENGINEER
5
GR ADUATE STUDIES PROFILES
As a boy, John Ford, Sc’00, MASc’04, loved to watch things being built. Earth-movers, cranes, power tools, and hammers so fascinated him that his mother suggested he become an engineer or a carpenter. Now he does both: he’s an engineer by day and a carpenter in his spare time. When not at work, John focuses on remodeling his Toronto home, with his wife’s help.
“I get the same satisfaction from designing structures and
seeing them get built as I do out of building things myself,”
says John.
So enjoyable was his undergraduate experience at Queen’s
that John decided to pursue a Master’s in Civil Engineering,
where he collaborated with excellent professors and teaching
assistants. His studies further fuelled his passion for building and
construction and sparked a particular interest in sports venues.
Today, John is a Structural Engineering Consultant with
Halsall Associates, a Toronto-based firm that designs efficient,
sustainable buildings that have a minimal environmental
footprint.
He’s had a varied career with the company. He started out
designing individual structural elements such as beams,
columns, and foundations, then became a Project Manager
leading design teams. In 2008, he moved to Calgary to start
Halsall’s structural engineering group. After successfully getting
it up and running he returned to Toronto, where he works out
of Halsall’s office there. He currently lives in the city with his wife
Kaitlin Ford (nee Palmer), Sc’00, MASc’02, and their children.
John FordMASc, Civil Engineering
5 THE COMPLETE ENGINEER
6
GR ADUATE STUDIES PROFILES
THE COMPLETE ENGINEER6 THE COMPLETE ENGINEER
Basel Nabulsi, PhD’13, grew up in Kuwait, studied in Jordan, France, Brussels, and Kingston, and, at age 31, landed his dream job in Kanata, Ontario. He’s among the growing number of PhD graduates who have chosen a career in industry rather than in academia after they’ve graduated.
An employee of Cortina, a leading provider of high-performance
semi-conductor solutions, Basel explores his passion for high-
speed communication design on a daily basis in a stimulating
environment that more than adequately satisfies the “geek” in him.
“I love solving problems,” he says. “I love how engineering helps
me do that.”
Although Basel’s background is cosmopolitan—his parents
hail from two different countries, and he had offers to study in
London, England, and in Barcelona, Spain—he opted to do his
PhD at Queen’s, in comparatively low-key Kingston.
“Queen’s and Kingston offer a nice balance for school and life,”
he says.
His research at Queen’s involved a mix of signal processing and
information theory for wireless communications. He also taught
undergraduates (see story, page 13)—particularly those in the APSC
100 Introduction to Robotics course—and karate to young children.
“I find myself learning from students as much as I teach them,”
says Basel. “The enthusiasm of first-year students who are all
eager to learn gives me so much joy and pleasure. They take
pride in being engineers, and they should!”
While he ultimately chose a career in industry, it’s clear that the
classroom is still important to him.
“I love teaching,” he says. “But at this time in my life, I want to be
part of an exciting industry where I can be innovative and maybe
make a name for myself.”
Basel NabulsiPhD, Electrical and Computer Engineering
7
GR ADUATE STUDIES PROFILES
THE COMPLETE ENGINEER 7 THE COMPLETE ENGINEER
Scott Brandon, MASc’09, regards engineering as a “helping profession”—a phrase that’s especially applicable to his field of study, biomedical engineering.
“In our research projects, our goal is to reduce peoples’ pain and
improve their quality of life,” says Scott, who’s in the final year of
his PhD in Mechanical and Materials Engineering at Queen’s.
Scott’s current research in the Collaborative Biomedical
Engineering (CBME) program involves investigating the causes,
prevention, and treatment of knee osteoarthritis.
Knee osteoarthritis affects 40 per cent of people over age 70. The
disease can be caused, relieved, or exacerbated by mechanical
forces applied to the knee joint—and mechanical engineers like
Scott specialize in joint forces. Specifically, with research support
from various funding agencies such as the Natural Sciences and
Engineering Research Council of Canada (NSERC), he studies how
knee braces can reduce the forces acting on the knee when a
person walks, and how knee braces might be designed to be more
effective, comfortable, and easy to wear.
He also specializes in forces of another kind: Scott has been an
enthusiastic member of Queen’s Rowing since he arrived on
campus in 2007 to complete his Master’s. The Queen’s Nordic
Team also holds a special place in his heart—no doubt because
he ended up marrying his wife, Julie, a member of the women’s
squad.
Upon graduation, Scott plans to travel abroad for a post-doctoral
position where he can enhance his biomechanical skill set, but
he hopes to eventually return to Canada to teach at a university.
His dream job is to combine his two passions—sports and
biomechanics—to help athletes achieve their goals.
Scott Brandon
PhD candidate, Mechanical and
Materials Engineering
8
Paul (right) and Laser Depth Dynamics CEO (and fellow Queen’s Engineering alum) Roger Bowes, Sc’92
THE COMPLETE ENGINEER8 THE COMPLETE ENGINEER
GR ADUATE STUDIES PROFILES
8 THE COMPLETE ENGINEER
Solving problems and spatial reasoning fascinate Paul Webster, Sc’06, PhD’13, so it’s not surprising that he chose to study Engineering Physics—a decision that led to a fulfilling career.
Paul is founder and owner of Laser Depth Dynamics, a Kingston-
based startup whose specialty is the LD-600, a device that allows
for precise depth measurement of industrial laser processes. In
other words, when a laser beam is used to cut or drill a material,
the LD-600 allows the operator to know exactly how deep the cut
is, as the cut is being made.
Being at the leading edge of technological design is both
challenging and inspiring for someone who sees endless
potential in his career and in life.
“The future has practically unlimited possibilities that we can’t
conceive of today,” says Paul. “The key to managing this and
optimizing outcomes is preparation, both to take advantage of
opportunities and mitigate problems as they arrive.”
Paul credits his Queen’s education—a “transformative
experience”, he says—with equipping him with the right tools
and management skills to advance in his career.
“My time at Queen’s helped me answer many questions about
how the world works, technically and otherwise. I made a lot of
lifelong friends, and was given opportunities that I couldn’t have
imagined when I was in high school,” says Paul.
Paul has developed a good relationship with Queen’s in
developing his product, citing a liberal intellectual property
policy and substantial commercialization support as two
attractive elements offered to aspiring entrepreneurs.
A Kingston resident, Paul plans to expand Laser Depth Dynamics
by adding new products across diverse manufacturing sectors.
He expects to fill other business roles with Laser Depth Dynamics
in the future, but hopes he’ll always be “at least partially in touch”
with technical problem-solving and design.
Paul Webster
PhD,Engineering Physics
9
Carolyn Ingram completed her undergraduate studies in Applied Physics at the University of Regina and was delighted when she landed a job with Cameco Corporation as a Radiation Specialist and dispatched to Cigar Lake, a northern Saskatchewan mine sitting on the world’s second largest high-grade uranium deposit.
At Cigar Lake Carolyn discovered the Jet Boring System, a mining
method that uses water under high pressure to excavate cavities
in the ore body. The resulting ore slurry is pumped through pipes
for further processing.
“I was intrigued about this method of mining and wanted to find
a way to contribute and become more involved,” she says.
That desire led her to Queen’s and the Robert M. Buchan
Department of Mining, where she’s now working on her Master’s
degree. Her graduate research involves acquiring meaningful
data from the cavities that will be mined at Cigar Lake.
“As part of my project, we designed and built a test cavity to
compare three different technologies that were prospective
candidates for the survey system,” she explains.
The devices being evaluated include a Senix ultrasonic sensor,
an MDL Cavity Auto-Scanning Laser System (C-ALS), and a MESA
Time of Flight (ToF) camera. The ultrasonic sensor is known to
provide range data in foggy conditions, but it has low accuracy.
The C-ALS has been developed for surveying remote cavities,
but it’s expensive and provides unreliable data in fog. The ToF
camera provides a high volume of data relatively quickly and may
provide accurate information in extreme conditions, but it hasn’t
been tested in a mine-cavity application.
Carolyn says Queen’s provided her with a successful and fulfilling
graduate study experience, and credits Dr. Joshua Marshall as
being an excellent and encouraging supervisor.
“I was made to feel welcome from the instant I stepped into the
Mining Department,” says Carolyn. “I love being able to expand
my knowledge on the social, economic, and technical aspects of
the mining industry while focusing on my Master’s project at the
same time.”
In her spare time, Carolyn participates in outdoor activities such
as skiing and scuba diving. She also enjoys spending time with
her sisters, nieces, and nephews in Saskatoon.
Carolyn Ingram
MASc candidate, The Robert M. Buchan Department of Mining
THE COMPLETE ENGINEER 9 THE COMPLETE ENGINEER 9 THE COMPLETE ENGINEER
GR ADUATE STUDIES PROFILES
10
STUDENT PROFILES
10 THE COMPLETE ENGINEER
As a boy growing up in Turkey, Naci Saldi had a strong affinity for mathematics. Inspired by a high school teacher who fuelled his love for “a fascinating and exciting discipline,” as he calls it, he decided to study engineering at Bilkent University in Ankara.
After completing a Master’s degree in Electrical and Electronics
Engineering, Naci found himself hankering for his first passion—
mathematics. Fortunately, he heard about Serdar Yuksel, a
fellow Bilkent graduate who’s a professor in the Mathematics
and Statistics Department at Queen’s. With Yuksel’s help, Naci
found his way to Kingston, where he enrolled in Queen’s doctoral
mathematics and engineering program.
Naci’s research involves both stochastic control, a subfield of
control theory that deals with sequential optimization of stochastic
systems, and information theory, a branch of engineering and
mathematics involving the quantification of information that is
used primarily for communications technology.
Overall, Naci’s experience at Queen’s has been positive. Faculty
and students alike helped him settle into a smaller university and a
much smaller city. Moving from the metropolis of Turkey’s capital
city has involved a cultural shift for him—but a good one.
“Kingston is small compared to Ankara, but it’s a great place to do
a doctoral degree,” says Naci. “People are friendly and helpful, and
it’s a beautiful city.”
Naci plans to remain in North America after he completes his PhD,
and possibly pursue further studies in a postdoctoral program. He
lives with his wife in Kingston, but plans to move to Ottawa where
his wife is working on her Master’s in Translation and Interpretation
at the University of Ottawa.
Naci SaldiPhD candidate, Mathematics and Engineering
GR ADUATE STUDIES PROFILES
THE COMPLETE ENGINEER10 THE COMPLETE ENGINEER
1111 THE COMPLETE ENGINEER
Matt Lato, Sc’06, PhD’10, is a hands-on kind of guy, and geological engineering is that kind of discipline—which is what attracted Matt to a career in this practical, interdisciplinary field. Since graduating, he has found meaningful employment in the industry, first in Norway with the Norwegian Geotechnical Institute and now in Ottawa, where he manages his own company.
“I started in geological engineering because I was fascinated by
the possible areas of work,” says Matt. “I continued into graduate
studies because I enjoyed the faculty I was studying under, and
the available projects brought forward incredible opportunities.”
After returning to Canada from Norway in 2012, Matt established
RockSense GeoSolutions Inc. The company focuses on three-
dimensional imaging applications for tunnelling, mining,
transportation, and natural hazard engineering.
Conducting fieldwork in remote locations in the world, hiking
mountains, and investigating natural phenomena inspires
Matt. He credits his Queen’s education with having nurtured his
success and his innovative spirit.
“The Department of Geological Engineering does an incredible
job at encouraging young minds and enabling their learning
and development,” he says. “The faculty members who directly
supervised me, as well as other faculty in the department, want
nothing but the best for and from their students.”
Matt looks forward to pursuing further business opportunities
with RockSense GeoSolutions. He currently lives with his wife,
Isabel Coderre, BA’10, in Ottawa
Matt LatoPhD, Geological Engineering
GR ADUATE STUDIES PROFILES
THE COMPLETE ENGINEER 11 THE COMPLETE ENGINEER
12 THE COMPLETE ENGINEER
The
t’s an often-overlooked fact, but the academic life of undergraduate
engineering students can be significantly enhanced through the effective use of Teaching Assistants (TAs). TAs are typically graduate students whose main role is to support the professor—but the support they provide to undergraduates is equally important.
TAs fulfill a wide range of duties. By leading personalized, small-group interactions, they complement the lectures delivered to large classes by professors. They help evaluate assignments. They bridge, and sometimes buffer, the relationship between student and professor.
While studying for his PhD in Electrical Engineering, Basel Nabulsi (see Basel’s profile on page 6), assisted many undergrads as a TA. It’s a role he embraced whole-heartedly.
“The enthusiasm of first-year students who are eager to learn gives me
so much joy and pleasure,” says Basel, who has since found work in industry in Kanata.
Basel’s enthusiasm as a TA mirrors some of his students’ regard for him. Olivia Zupet, a third-year Computing Engineering student, benefitted from Basel’s teaching in first year.
“Basel taught me in APSCI142, the only first-year computer course, with so much knowledge and passion that I changed my major from Chemical Engineering to Computing,” says Olivia.
Olivia says Basel went above and beyond his duty by spending extra time with students, both outside the classroom and after office hours.
Joshua Ardunini echoes Olivia’s sentiment. The second-year Electrical Engineering student describes Basel as an excellent TA who exceeds expectations.
“Because he’s fairly close to us in age and has already been an undergrad,
it was easy to relate to him,” says Joshua. “He has the communication and social skills to talk to us in a way that’s understandable and not at all threatening.”
The TA can communicate student feedback to the professor and help resolve conflicts or misunderstandings between student and professor. Hence, the TA’s direct understanding of the undergrad experience goes a long way to smoothing over potential tensions that may arise.
Basel also reaped rewards from the TA experience. In addition to receiving a modest income, he gained invaluable teaching experience that will serve him well in his career. Just as importantly, he discovered more about the subject he was teaching by seeing it through the eyes of an undergrad.
“I find myself learning from students as much as I get to teach them,” says Basel.
valueGR ADUATE STUDIES
Teaching Assistantof the
IBasel Nabulsi
THE COMPLETE ENGINEER 13
Teaching Assistant
“”
Basel taught me in APSCI142,
the only first-year computer
course, with so much
knowledge and passion that
I changed my major from
Chemical Engineering to
Computing.
—Olivia Zupet
“ ”He has the communication and
social skills to talk to us in a
way that’s understandable and
not at all threatening.
—Joshua Ardunini
14 THE COMPLETE ENGINEER
GR ADUATE STUDIES
oung engineering researchers will soon be addressing sustainability
issues in the far north. The Natural Sciences and Engineering Research Council recently announced that it will provide $1.65 million to fund the new Sustainable Engineering in Remote Areas (SERA) program over six years through its Collaborative Research and Training Experience (CREATE) program.
“I am extremely happy and excited about the grant,” says Civil Engineering professor Mark Green. “The CREATE program is particularly interesting because it encourages doing more in graduate education than is traditionally done. It’s also a great platform for encouraging coordinated research over a sustained period.”
The SERA program, which Green designed, is “an excellent opportunity to support important research in sustainability and enhance educational opportunities for graduate students, including Aboriginal students,” he says.
The program will provide specialized seminars in Aboriginal culture and the cross-cultural aspects of engineering projects in Aboriginal territories. “We are
currently developing new educational modules on Aboriginal culture, sustainability, and business skills to be offered to students next year,” Green says. “At the same time we are recruiting MSc and PhD students to join the team to start the research topics.”
Research projects will either be in renewable energy or sustainable building. Students will investigate topics such as the effects of snow on solar panels, innovative materials for wind turbines, lightweight building systems, and new and sustainable materials for housing.
The projects will also encourage partnerships with Aboriginal communities and industry, Green says, as well as collaborations with the Aboriginal Access to Engineering (AAE) initiative at Queen’s to extend the objectives of the AAE to the graduate/research level.
The Human Mobility Research Centre (HMRC), a collaboration between
Queen’s and the Kingston General Hospital, was among the first CREATE awardees in 2009. The centre received $1.65 million to give graduates in the Bone and Joint Health Technologies program a head start in their careers by providing a unique opportunity to work with colleagues, enhance translational research skills, and transition from the lab to the workforce.
Mechanical and Materials Engineering professor Tim Bryant says the CREATE grant allows students to learn professional skills that are not part of their normal academic training. This includes understanding health policies, learning best practices for working with the media, and looking at business models for commercialization.
“Students might explore, for instance, ‘How would my research results be used if a commercialization person wanted to move ahead with this?’ So they know how that would impact their work, and can build this in from the start.”
The CREATE program has allowed the HMRC to foster existing integrated research teams and expand them into new areas. “It’s also provided the resources for new teams, which has had the biggest impact,” says Bryant.
One new team, for example, is looking at biomechanical modelling of pediatric knees. “Existing research was based on analysis of adult knees,” says Bryant. “So a physiotherapy colleague teamed up with a researcher in biomechanical modelling and a clinician in orthopedic surgery to work on predicting joint loading in the pediatric population. In the future, this will dictate alternative prevention and treatment strategies.”
Students who participate in this program have a big advantage, Bryant
New NSERC initiative opens new possibilities for engineering research—and student careers
Y
PhD candidate Elodie Lugez
PhD candidate Valerio Russo
CREATE (ing) Opportunities
THE COMPLETE ENGINEER 15
adds. “They have a unique background in a multi-disciplinary environment and the beginning of a toolkit that’s going to allow them to take on multiple career paths depending on their interests, whether they stay in academia or choose to work in industry or in health care policy for government.”
Elizabeth Hassan, a PhD candidate in Mechanical Engineering, is conducting research at the HMRC to develop functional outcome measures to assess performance after anterior cruciate ligament reconstruction—a commonly injured knee ligament, particularly for young athletes.
“I have two established surgeons involved at every stage of my project, which means that I know my work will be directly useful to doctors and their patients,” Hassan says. “The CREATE program made this collaboration possible. When I talk to colleagues at other centres they can’t believe how lucky I am to have such a direct, open relationship with the clinicians. It’s something really unique about Queen’s and it’s the big reason I didn’t even apply anywhere else for my PhD; for me Queen’s is the best place in the country to study biomechanics.”
Elodie Lugez, a PhD candidate in Computer Science, works in a close collaboration with the HMRC to improve the quality of computer-assisted
surgeries. Thanks to the HMRC-CREATE grant, which has been, she says, “highly beneficial,” she has learned from many established professionals working in her area and expanded her network.
“Meeting regularly with other HMRC-CREATE trainees enabled me to share ideas and collaborate,” she says. “There is also a professional training aspect, as this grant gave us access to some privileged preparation for various tasks, such as media interviews.” As well, the grant enables her to attend conferences, where she can present her work, receive feedback, and meet and learn from other peers.
Valerio Russo is a PhD candidate in the Department of Chemical Engineering who works at the HMRC on a project related to heart tissue regeneration following myocardial infarction. “I use stem cells extracted from human fat,” he says. “It is a very abundant cell source and it is usually discarded after medical
procedures such as abdominoplasty—basically like taking gold out of garbage.”
In addition to the welcome financial support, Russo says, the collaborative aspect of CREATE has been helpful. “I got to work with a cardiac surgeon and many other experts. I was also able to observe cardiac surgeries—two of the fat depots I used are around the heart—which gave me a real-life view of the
conditions I’m trying to treat.”He’s learned to look at the big
picture, which helps in designing his studies, Russo adds. “Collaborations and goal orientation have been the great gifts CREATE has given me, and they’ve helped a lot in my research.”
“”
The CREATE program is particularly
interesting because it encourages
doing more in graduate education
than is traditionally done. It’s also
a great platform for encouraging
coordinated research over a
sustained period.
HMRC-CREATE students
PhD candidate Liz Hassan, Sc’03
GR ADUATE STUDIES
or the past three years, students in the Collaborative Masters in Applied
Sustainability (CMAS) program have learned to account for both technical and policy issues when working on engineering projects—a key strategic focus for the Queen’s University Faculty of Engineering and Applied Science.
“This new degree was created by faculty to respond to growing need and demand in the profession,” says Brian Surgenor, PhD, PEng, Vice-Dean, (Research and Graduate Studies). CMAS reflects increasing recognition that engineering decisions are often made for non-technical reasons. “Engineers need to be aware of how policy impacts their work and can often dictate the outcomes of their projects.”
The innovative program has many unique features, says Surgenor. One is how it marries technical engineering knowledge with public policy issues. Another is how it addresses a wider spectrum of concerns. “We’re considering the full problem of sustainability—most programs focus just on energy, but we cover water and resources as well.”
As the Faculty’s first interdisciplinary collaborative effort, the CMAS program includes courses from five core engineering departments: Chemical, Civil, Electrical and Computer, Mechanical and Materials, and Mining Engineering. Faculty members from these departments share the teaching responsibility for “Topics in Applied Sustainability,” a course that introduces students to the concepts of engineering for sustainability. It is one of two mandatory core courses. The other is an Applied Sustainability Seminar Series.
As well, the CMAS draws on disciplines outside the Faculty, including Geology, Geography, Environmental Studies, and Policy Studies.
To complete a CMAS degree, MSc students take four courses and the seminar series, and write a thesis. MEng students take eight courses, one of which may be a project course, and the seminar series. Upon graduation, students have “with specialization in Applied
Sustainability” added to their official transcripts.
Students have responded to CMAS with enthusiasm. “As soon as they heard about the degree, they wanted to get on
board,” Surgenor says. “It’s a growing program—we began in 2010 with 5 students, and it’s up to 10 this year. We expect to have to cap the program at 20.”
CMAS prepares students to be “more
broad-minded, capable, and sensitive to issues of policy and sustainability,” says Surgenor. This will help in their careers, he adds. “Hiring engineering grads who have these additional skills will appeal to employers who deal with these issues every day.”
Ibrahim Mohamed, Sc’12, MEng’13, says his professor, Bruce Anderson, inspired him to sign up. “He told us it is important to establish an environmental consciousness in all we do as engineers,” says Mohamed. “That’s what made me choose the Collaborative Masters in Applied Sustainability. I wanted to get a better understanding of sustainability—not just the technical aspects, but also the policy considerations.”
As part of his degree, Mohamed worked on a project to explore renewable energy potential in the Middle East/North Africa region. “I was looking for renewable solutions, with a focus on smart buildings,” he says. The specialization gave him a better understanding of sustainability, he adds, and the multiple disciplines that necessarily come into play. “The degree really broadened my education as a civil engineer.”
F
16 THE COMPLETE ENGINEER
Masters in Applied Sustainability is Educating Policy-Savvy Engineers
“”
Mohamed says that while the CMAS
program is currently a collaborative
program, he predicts that it will
someday develop into a standalone
department. “The world is evolving
and conventional engineering
practice will be obsolete,” he says.
“We need about 1.6 planets just to
sustain what we have, so we have to
move toward more
sustainable solutions.
Sarah Thompson, Queen’s University MASc student, and Colin Ragush, Dalhousie University PhD student, are getting ready to collect sunlight penetration data in a wastewater stabilization pond in Pond Inlet, Nunavut.
SEC TION HEADER
Asked about the program’s highlights, Mohamed says it was “brilliant” how the curriculum encompassed not just energy, but environmental policies and resources as well. Studying with students and professors from other engineering departments, and with professors from other faculties, also expanded his thinking.
“We’re required to take a Policy Studies course, for example, so the focus of the degree goes beyond technical knowledge,” he says. “We learned about bylaws and legislation and other factors that might affect our projects.”
Mohamed says that while the CMAS program is currently a collaborative program, he predicts
that it will someday develop into a standalone department. “The world is evolving and conventional engineering practice will be obsolete,” he says. “We need about 1.6 planets just to sustain what we have, so we have to move toward more sustainable solutions.”
Surgenor says the CMAS program has made excellent progress since its launch in September 2010. In the future, he expects that demand will grow: its curriculum will evolve as new courses are offered, new faculty get involved, and the Engineering Faculty’s strategic focus on sustainability continues to develop. “CMAS provides a wonderful framework to build on Queen’s expertise in applied sustainability.”
THE COMPLETE ENGINEER 17
Ibrahim Mohamed> For more: www.engineering.queensu.ca/
is Educating Policy-Savvy Engineers
“”
We’re required to take a policy
studies course, for example, so the
focus of the degree goes beyond
technical knowledge.
We learned about bylaws and
legislation and other factors that
might affect our projects.
ALUMNI NE WS
Back row: (l-r) Joshua Kacur, Sc’16; Frank Ngenzi, Sc’14; Anna Strachan, Sc’08, Jim Ramsay; Sc’48 ½; Hamilton Sparling, Sc’48 ½; Bob Scally, Sc’48 ½; Shelby Nicholson, Sc’17; Linas Jankunas, Sc’13; Jack Billingsley, Sc’48 ½; George Brown, Sc’48 ½ Front row: (l-r) Jennifer Brown, Sc’10; Norma Scally; Dottie Brown; Mavis Breckenridge (widow of Walt Breckenridge, Sc’48 ½)
Sc’ 48 ½ classmates with Dean Woodhouse: (l-r) Jim Ramsay, George Brown, Dean Woodhouse, Hamilton Sparling, Jack Billingsley, and Bob Scally
On September 7th, the Sc’48 1/2 class gathered at the Donald Gordon Centre for their annual reunion.
Alumni Events
2013 Sc’48 ½ Mature Student Bursary winner Shelby Nicholson, Sc’17
18 THE COMPLETE ENGINEER
Neil Johnstone, Sc’61, and Robert Brett, Sc’61
Michael Holtstrom, Sc’03, Max Bailey, Sc’11, and Ian MacLeod, Sc’04
Dean Kimberly Woodhouse hosted an informal Queen’s Engineering Reception on October 7th at the Mill Street Brew Pub in Ottawa.
Catherine Ella, Sc’82, Dean Woodhouse, Robert McLellan, Sc’81
THE COMPLETE ENGINEER 19
ALUMNI NE WS
Members of Sc’88 gather outside of Clark Hall Pub before Ritual.
Homecoming returned to Queen’s on October 4-6th and 18-20th. Over both weekends, alumni came back to campus to re-connect with classmates and celebrate the Queen’s spirit!
Alumni Events
Sc’48 classmates with Dean Woodhouse during the Dean’s Homecoming Reception in Beamish-Munro Hall.
During the Dean’s Homecoming Reception, Sc’68 presented a cheque in the amount of $500,000—what they have raised to date toward their 1 million dollar goal.
Alumni, students and faculty members intereact during the Dean’s Homecoming Reception in Beamish-Munro Hall.
Sc’78 had a great turnout for their 35th reunion.
Sc’93: (l-r) Sarah Byers, Dave Stewart, John Milligan, Dan Smith, Joubin Hassanein, Rick Cousineau, John Salvador20 THE COMPLETE ENGINEER
Emily Fleck, Sc’14, President of EngSoc, speaks with Dr. Faqir Kohli, Sc’48, and his wife, Swarn Kohli. The Kohlis travelled from their home in India to celebrate Dr. Kohli’s 65th class reunion.
Under the leadership of Chris Hunter and Hugh Agro, and represented here by John Schadan (l) and Dale Clarke (r), the class of Mining ’88 joined together to raise over $100,000 to establish The Mining 1988 Scholarship at the Robert M. Buchan Department of Mining Engineering.
(l-r) Manford Mallory, Bruce Jeffery, and Michael Lewis present Dean Woodhouse with a cheque for $17,500—funds raised from their Sci’73 Spring ‘13 appeal.
Steve Hawthorne and Katie Heeman, Co-chairs of Conference on Industry and Resource: Queen’s University Engineering (CIRQUE) 2014, chat with Richard Farmery, Sc’58.
Gaylen Racine, Sc’63
(l-r) John Redding, Sc’73, Mike Henderson, Sc’73, and Michael Greenspan, Department Head, Electrical and Computer Engineering
Doug Sanderson (l) and Gord McCallum present a cheque on behalf of Sc’58 to Dean Woodhouse. $281,515 is half their goal for the ’58 Legacy Fund Campaign. THE COMPLETE ENGINEER 21
Jane McMillan Director of [email protected] 32160
Michelle Miatello Associate Director of [email protected] 75804
Pat Smith Senior Development [email protected] 79513
Heather McMartin Senior Development [email protected] Line 416-525-3923
Beth Wylie Development [email protected] 74594
Maura Doyle Development [email protected] 79533
Joanne Grills,Faculty Advancement [email protected] 75248
Contact us at 613.533.6000 or 1.800.267.7837
INSPIRING GREATNESS CAMPAIGNFACULTY OF ENGINEERING AND APPLIED SCIENCEBeamish-Munro Hall, Queen’s University, Kingston, ON K7L 3N6
inspiring.engineering.queensu.ca
Faculty of Engineering and Applied Science Development Team