College of Engineering Blog

Category: Students

Richelle Winkler: The Sustainability Demonstration House

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Michigan Tech student residents of the Sustainability Demonstration House work side by side with Michigan Tech’s student-run Alternative Energy Enterprise to showcase sustainable living. It’s extraordinarily rewarding, successful, and fun (even with several feet of snow on the ground).

Richelle Winkler shares her knowledge on Husky Bites, a free, interactive webinar this Monday, November 1 at 6 pm ET. Learn something new in just 20 minutes (or so), with time after for Q&A! Get the full scoop and register at mtu.edu/huskybites.

What are you doing for supper this Monday night 11/1 at 6 pm ET? Grab a bite on Zoom with Dean Janet Callahan and Richelle Winkler, professor of Sociology and Demography—and advisor to students living in Michigan Tech’s Sustainability Demonstration House (SDH for short). “I took over as faculty advisor for the SDH just this fall,” she says. “I worked with Jay Meldrum (then executive director of sustainability at Michigan Tech) to start the House back in 2016 and 2017. I’m excited now to be more involved.”

Professor Richelle Winkler

Michigan Tech’s Sustainability Demonstration House is a residential learning environment where students test and practice sustainability in their daily lives. The SDH began in 2016 as a project by the student-run Alternative Energy Enterprise, with the goal of retrofitting the Kettle Gundlach house, a three-floor abode, built in 1953 by Herman “Winks” Gundlach (and a former residence for past presidents of Michigan Tech) into a net-zero energy, zero-waste house. 

In 2017 Michigan Tech students took residence and started retrofitting the three-floor abode to make it more sustainable. The SDH mission is to constantly innovate and design new additions that reduce the environmental impact of the house while also educating the MTU campus and larger community on sustainability.

Abbey Herndon: “This is my third semester living in the sustainability house. Some of my main sustainability interests are reducing waste and educating others on sustainability habits. I love finding new and creative ways to avoid waste or repurpose it.“

During Husky Bites, two current residents will take us on a tour of the house. Abbey Herndon ‘23, a sustainable bioproducts major and SDH coordinator, and Kendra Lachcik ’23, an environmental engineering major and SDH resident—will share improvements they’ve made, how living in the SDH impacts their lives, and what they’ve found to be opportunities and challenges for reducing our residential environmental footprints.

That includes toothbrush recycling. Community outdoor yoga sessions. An annual Earth Day dinner. Vertical hydroponics. Volunteering at local farms. Bird window strike prevention. Practicing Eco Sabbaths—and much more.

Over the past four years the house has been equipped with a 8.6 kWh solar array, two composting systems, aquaponics, hydroponics, a rain barrel, energy-efficient appliances, low-flow faucets, LED lights, and a bee hive. In addition, the tenants of the house strive to educate the community on sustainability through open houses, workshops, tours, the Waste Reduction Drive, and many other initiatives.

A beehive in the SDH backyard
Kendra Lachcik: “This is also my second semester living in the SDH. I enjoy collaborating (and goofing off) with my housemates, upkeeping all of the house systems, and making my own improvements to the house. Sustainability, especially on a small-scale, is all about being creative.””

“I’ve been extremely passionate about environmental issues for a very long time,” says Lachcik. “I’ve been on a journey to reduce my environmental impact as much as possible, while encouraging those around me to do the same. The SDH has served as an amazing opportunity to do both of those things.”

When she’s not advising SDH, Prof. Winkler’s teaching and research include migration, community-engaged scholarship, and environmental sustainability.

“Most of my work here at Michigan Tech is guided by a concern about spatial inequalities—the fact that life and well-being is better in some places than others,” says Winkler. “I see these things as interrelated. Social and environmental well-being complement one another. Migration is both a cause and a consequence of socio-ecological well-being. People move toward places they see as good, or at least better than where they are coming from. So migration can serve as a sort of indicator of where things are going well. At the same time, both in-migration and out-migration can impact community development in positive and negative ways. It’s a circular pattern.”

Community-engaged research just puts the whole pattern into practice, says Winkler. “I really enjoy seeing how these things play out on the ground and working directly with community groups who are working to improve conditions.”

Dr. Winkler gives a community presentation on the US Census. Photo credit: Garrett Neese/Daily Mining Gazette

Prof. Winkler, When was the moment you knew sociology was the field for you?

When I went to college, I didn’t know what I wanted to do for my career. I was curious about just about everything. I took a sociology class and learned that it was possible to study just about anything from a sociological perspective. This meant I didn’t have to choose! I also wanted a career where I could help people and make a positive difference in the world, and it seemed to me then (and still) that sociology is a field where I could focus on that.

Hometown, family?

I grew up in Rush and Shelby counties in Indiana, between Indianapolis and Cincinnati. Most of my cousins, aunts and uncles still live in that area today, and it still feels like home. My immediate family and I (husband and two kids, ages 9 and 12) have lived in Houghton for over a decade now, and we love it here. 

Any hobbies? What do you do in your spare time?

I love exploring natural areas across the Keweenaw and beyond, mostly hiking, visiting beaches and rock hunting, and mountain biking with my dog (Opal) and with family and friends. I also love sports, especially volleyball which I’ve played and coached for almost my entire life. I cheer on my alma mater (the Wisconsin Badgers!) and have grown pretty attached to the Packers, spending the last twenty years in Wisconsin and the UP. 

SDH hosts a community yoga session.

Abbey, how did you first get into sustainability? What sparked your interest?

My family has a few engineers. Growing up they told me I always had a problem-solving mindset and I enjoyed engineering topics so I pursued it. However, during my second year studying engineering I switched to Sustainable Bioproducts. This course of study strongly fits my career goals. So far, I have thoroughly enjoyed my new path and am excited for what I will be able to do with it. 

Hometown, family?

I grew up in Appleton, Wisconsin with one older brother. I’ve always had a small family, which I enjoy because I get to see everyone often. 

What do you like to do in your spare time?

I enjoy traveling, trying new things, and various forms of creating art. In my free time I like to be outdoors getting exercise. I’ve also got four cats and a pug named Dave.

SDH invites campus to an Earth Day Special Dinner each year.

Kendra, how did you first get into engineering? What sparked your interest?

I’m a very hands-on person and science has always been my favorite school subject, so engineering seemed like a natural fit. In high school, I participated in a program called “Science Olympiad.” Two of my favorite events involved constructing a wind turbine and building a Rube Goldberg machine. Engineering is all about applying science and technology to the real world, which I think is pretty darn cool. 

Hometown, family? Hobbies?

I’m originally from Chicago, IL and have two younger brothers. I’m into figure skating, dancing, running, exploring places, cooking vegan food, and doing all those things with lovely people.

Michigan Tech students have transformed a former residence for past presidents into the ever-evolving, net-zero energy, zero-waste Sustainability Demonstration House.

Read more:

This Old House Teaches U.P. Residents, and an Appliance Manufacturer, New TricksMaking it Personal: Richelle Winkler Wins Distinguished Teaching Award

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Innovators in Industry: Future of Autonomous Vehicles and Mobility

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Michigan Tech is excited to launch Innovators in Industry: a project connecting students with MTU alumni who are industry experts, leaders, and influencers.

The initial three-part series kicks off on Monday, October 25 at 7 pm with a session titled, “The Future of Autonomous Vehicles and Mobility.”

Featured alumni for the session will be Sean Kelley ‘86 of the Mannik & Smith Group, Inc., an engineering and environmental sciences consulting firm; Mark Rakoski ‘95, of Mitsubishi Electric Automotive America Inc.; and Birgit Sorgenfrei ’91 of Ford Motor Company.

Janet Callahan, Dean of the College of Engineering, will host the first session. Jeremy Bos, assistant professor of Electrical and Computer Engineering (and also an alum) will serve as co-moderator. Bos earned a BS in Electrical Engineering at Michigan Tech in 2000 and a PhD in Electrical Engineering and Optics in 2012. He serves as advisor to Michigan Tech students taking part in the SAE AutoDrive Challenge.

The featured alumni will make short presentations with time for Q&A from the audience. All Michigan Tech students, faculty, and staff are invited to join the Zoom session.

During the session Sorgenfrei, Kelley, and Rakoski will discuss the future of autonomous automobiles and their design, and the design of the infrastructure with which those automobiles will need to communicate.

If the three alums could each go back in time, what would they have strived to learn while at Michigan Tech? They’ll share those insights with us, and provide valuable advice for students—those due to graduate soon, and in the next few years.

“Cars are some of the most complicated things out there, more complicated than jets or commercial aircraft. They’re basically really smart computers that move and let people get inside them.”

Sean Kelley

Sean Kelley is senior vice president and principal with the Mannik & Smith Group, Inc., a 370-person engineering and environmental sciences consulting firm with 15 offices in Michigan, Ohio and West Virginia. He earned a BS in Civil Engineering at Michigan Tech, and an MBA at Eastern Michigan University. He’s a registered Professional Engineer in both Michigan and Ohio.

Sean Kelley (’86 Civil Engineering), Mannik & Smith Group, Inc.

Kelley has led the development of infrastructure for closed-system test facilities to advance smart mobility technology, including three of the most significant facilities in the Midwest: University of Michigan’s Mcity in Ann Arbor; the American Center for Mobility located 30 minutes west of Detroit and the Transportation Research Center located at Honda’s North American test center in Central Ohio.  

He’s a recognized leader in the engineering consulting industry in Michigan. His focus on both the public and private sectors allows him to understand and appreciate the challenges associated with creating and maintaining a well-functioning and sustainable infrastructure to support a high quality of life for everyone. Kelley is often a featured speaker at conferences related to transportation and smart mobility. He has two grown children—Morgan and Aaron—who share his passion for learning and helping to advance humanity and a healthier planet.  

“Today there seems to be a huge disruption in the deeply embedded culture of the automotive industry: in order to get a common platform for smart mobility, there really has to be a lot more sharing and working together.”

Mark Rakoski

Mark Rakoski is VP, Advanced Engineering at Mitsubishi Electric. He joined the company in 1996 as an application engineer, soon after earning his BS in Mechanical Engineering at Michigan Tech. Over the course of his career, he has served the company in various capacities, including as senior account manager for Fiat Chrysler Automobiles (FCA) and director and executive director for both the FCA and Ford accounts. 

Mark Rakoski (Mechanical Engineering ’95), Mitsubishi Electric

In his current position Rakoski is responsible for leading product development engineering teams for vehicle connectivity, autonomous sharing and electric solutions, and Mobility-as-a-Service—with specific focus on infotainment and advanced driver-assistance systems (ADAS). 

In 2020, Rakoski was appointed to the Mitsubishi Electric Mobility Ventures (MEMO Ventures) Board. MEMO Ventures explores and funds ideas to create new business opportunities for the company’s Automotive Equipment Group (AEG) in the rapidly evolving mobility sector.

Rakoski is also responsible for Silicon Valley new ventures team management, contract negotiations, marketing and global strategic accounts management. He resides in South Lyon, Michigan. 

“The auto industry has been assisting our customers while behind the wheel for years, starting with the introduction of cruise control in 1948. Working in Driver Assist Technology is exciting, as the technologies leading to self-driving vehicles are available to customers now to increase safety and convenience.”

Birgit Sorgenfrei (EE ’91) Ford Motor Company
Birgit Sorgenfrei (Electrical Engineering ’91) Ford Motor Company

Birgit Sorgenfrei is currently a Driver Assist Technology Applications Lead at Ford Motor Company. She was previously Electrical Lead for Lincoln & Ford Programs, as well as a systems manager responsible for Autonomous Vehicle integration and advanced features for electrified vehicles. Her more than 20-year career at Ford includes research on sensors for electrical power assist steering systems, component and system radio design, vehicle planning, hybrid battery software delivery, fuel cell technology development, and the introduction of StartStop Technology to North America. Previously, she worked for General Electric, Johnson Controls Inc., IBM, General Motors, and internationally for Schlumberger Industries in France, the University of Hanover in Germany, and Ford Motor Company in England and Germany. Sorgenfrei earned her BS in Electrical Engineering at Michigan Tech in 1991, graduating summa cum laude. She then earned a MSEE degree from MIT, and later an MBA from the University of Michigan.

Other upcoming sessions of Innovators in Industry include:

Monday, November 1 – The Computing Revolution (hosted by the College of Computing)

Monday, November 8 – Entrepreneurship: Startups & Venture Capital (hosted by the College of Business)

All sessions will begin at 7 p.m. on Zoom.

The series is organized by the Office of Advancement and Alumni Engagement, Innovators in Industry aims to give students direct access to industry leaders to help shape their paths. Future plans for the Innovators in Industry series include in-person sessions and on-location visits for students to industry hubs.

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Then There Were Three: Stratus Nanosatellite Launch for MTU’s Aerospace Enterprise

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Michigan Tech’s students designed Auris. It has been selected for launch by the University Nanosatellite Program, sponsored by AFRL.

The Aerospace Enterprise, under the direction of Dr. Brad King, is launching satellites as well as student careers. At the University Nanosatellite Program, sponsored by the Air Force Research Lab (AFRL) in August, ten students from the Enterprise team presented their latest satellite application, Auris, to judges from several space-related agencies.

The challenge for the competition was to develop a satellite mission that is relevant to both industry and the military. Students conceived of the idea for Auris, a ‘listening satellite,’ through discussions with Enterprise alumni working in industry and their interest in monitoring communication from other satellites to estimate bandwidth utilization.

Dr. L. Brad King, Richard and Elizabeth Henes Endowed Professor (Space Systems), Mechanical Engineering-Engineering Mechanics

“Ten university teams were in attendance and of the teams, we were among three of the schools to be selected to move forward. We now move on to ‘Phase B’ of the program and have a guaranteed launch opportunity with substantial funding to complete the design and integration of our spacecraft,” says Matthew Sietsema, Chief Engineer for the Aerospace Enterprise.

As a result of this award, the Aerospace Enterprise will soon have three satellites in space. Stratus, a climate monitoring satellite that determines cloud height and cloud top winds, was set for a March 2021 launch date. However, it was delayed due to the pandemic and is planned for launch in 2022. Oculus, an imaging target for ground-based cameras for the Department of Defense, was launched in June 2019.

“The Enterprise has remained on the same trajectory and has been very successful by all measures,” remarks King. “Students do a great job managing themselves and the leadership to replace themselves as they graduate and new members move up. It’s a challenge to juggle more than one satellite, but our students have remained focused and hard working while managing several projects and it’s a testament to their tenacity.”

Creating real-world, hands-on learning opportunities for around 100 students per semester, the Enterprise serves as a stepping stone for many as they launch their careers.

“Our students, even if they aren’t in leadership roles, do well securing positions in the aerospace industry. We tend to perform well because we offer a three-year, long-term program, which allows our students to maintain the situational knowledge required to solve complex problems.”

—Dr. Brad King
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Paul Sanders: Tiny House Design—Weather, Watts, and Materials

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This green, sustainable, net zero Tiny House was designed and built by Michigan Tech students. It sits on a foundation near the shores of Lake Superior. And it’s comfortable and enjoyable year-round, even during a harsh winter.

Paul Sanders shares his knowledge on Husky Bites, a free, interactive webinar this Monday, October 18 at 6 pm ET. Learn something new in just 20 minutes (or so), with time after for Q&A! Get the full scoop and register at mtu.edu/huskybites.

What are you doing for supper this Monday night 10/18 at 6 ET? Grab a bite with Dean Janet Callahan and Paul Sanders, Professor of Materials Science and Engineering at Michigan Tech. 

Prof. Paul Sanders holds the Patrick Horvath Endowed Professorship of Materials Science and Engineering at Michigan Tech. He’s also an alum—he earned his BS in Metallurgy and Materials Engineering in 1991.

Tiny houses are springing up all over the US. But in the Upper Peninsula of Michigan, where Michigan Tech is located, total snowfall can exceed 200 inches during the winter. Designing a tiny house for Michigan’s UP involves several extra layers of complexity. Especially if you want that tiny house to be carbon-neutral.

Last spring, a group of students in the Green Campus Enterprise at Michigan Tech took on the challenge: design and build a sustainable and affordable tiny house for cold climates—one that would serve as a model for green, energy-efficient (tiny) housing.

Michigan Tech’s Green Campus Enterprise was created in 2008, part of the Higher Learning Commission’s Academic Quality Improvement Program (AQIP) project. Under the AQIP project, Green Campus is charged with estimating the University’s carbon footprint and suggesting ways to reduce it. The team is advised by Chris Wojick, senior researcher at Michigan Tech’s Great Lakes Research Center, and Rob Handler, operations manager/senior research engineer at Michigan Tech’s Sustainable Futures Institute. Students taking part in Green Campus Enterprise annually measures the carbon footprint of Michigan Tech, and also design and implement projects to improve sustainability.

The Green Campus team began by working with their client, Sanders, to design the Tiny House with his family’s checklist and the team’s sustainable goals in mind. They researched and developed innovative solutions for making common building practices more sustainable. Next, the team modeled the thermal and energy performance of their preliminary tiny house designs. Once the best option was modeled, they worked directly with Sanders to create construction drawings and bring the house from idea to reality. 

Michigan Tech alumna Sierra Braun ’21 works as as an architectural drafter for S.C. Swiderski, LLC in Mosinee, Wisconsin, while pursuing an MS in Architecture. While on campus, she led the Green Campus Enterprise.

The team constructed sections of the tiny house on campus. Then Sanders, along with a lot of help from his son Caleb, assembled the home on their property in Bete Gris, Michigan, on Lake Superior. The result: a very sustainable (and cute and cozy) tiny house, which will hopefully be sided before the Keweenaw winter!

During Husky Bites we’ll meet the team, see the house, and find out just how they did it. Joining in will be Michigan Tech’s Tiny House team leader Sierra Braun, who graduated from Michigan Tech in May 2021 with a BS in Civil Engineering. While on campus, she led Green Campus Enterprise. Dave Bach, the team’s consultant and mentor to Sierra, will be at the session, too. Bach is an expert on sustainable building design and a Michigan Tech alum. Last but not least, environmental engineering undergraduate Nick Kampfschulte will be at the session, too, to tell us about the tiny house thermal modeling/sensing system he helped design.

Sanders, a six-sigma black belt engineer during his employment with Ford Motor Company, has led Michigan Tech’s highly successful MSE senior design program since 2010. Sanders has been successful in securing industry sponsorship for 100 percent of all MSE senior design projects since 2011. This time, however, he decided to sponsor and fund a student project of his own: A two-story tiny house. Instead of seeking out a senior design team for the Tiny House project, however, he sought help from Michigan Tech’s Green Campus Enterprise. Sanders knows a thing or two about Michigan Tech’s award-winning Enterprise Program. He previously served as an advisor to another Enterprise team, the Advanced Metalworks Enterprise.

Enterprise is a program unique to Michigan Tech, open to students of any major. Teams operate like companies, serving clients in a business-like setting to create products, deliver services, and pioneer solutions. There are currently 24 Enterprise teams on campus. Students in Green Campus Enterprise design and implement projects to improve the sustainability of the Michigan Tech campus, and measure its carbon footprint each year. The team was started in

A great view from the Tiny House!
Green Campus Enterprise artist rendering of the Tiny House, with a footprint of 200 square feet, it follows passive house principles. It’s also a net-zero energy building. Credit: Sierra Braun

Prof. Sanders, how did you first get into engineering? What sparked your interest?

As a kid I liked to build structures (play houses, cars) out of wood. I also liked chemistry, math, and physics in school.

Hometown, family? 

I grew up in Pulaski, Wisconsin as the oldest of three. My father was a high school chemistry teacher, and my mother was an elementary school teacher.

Sections of the Tiny House were built on campus, then transported to Bete Gris.

What do you like to do in your spare time?

I enjoy building and remodeling. I also enjoy meeting new people and living (not traveling) in different places around the world.

Did you know?

Dr. Sanders is one of Michigan Tech’s most prolific and creative researchers. Check out the website of his research lab, Alloy Research Central, at http://alloyresearch.mtu.edu.

Sierra, how did you first get into engineering? What sparked your interest?

I’ve always enjoyed thinking through problems, and designing and building things as a kid. Growing up, my family did some fun construction projects, too, from building dog houses and bookshelves to a cabin and a treehouse.

Hometown, family? 

I’m from Stratford, Wisconsin, currently living with my boyfriend and our two cats.

Nick Kampfschulte—and PeeWee

Nick, how are you involved with the Tiny House project?

My role was to aid in the overall design and modular construction. I also worked on designing and implementing its thermal modeling/sensing system.

Hometown?

I grew up in Grand Rapids, Michigan.

What do you do in your spare time?

I repair, build, and restore automobiles. I’m also into metal fabrication.

Dave, how are you involved with the Tiny House project?

Dave Bach is an alum, too. He earned both his BS in Mechanical Engineering and an MS in Biological Science at Michigan Tech.

I served as the team’s design and building advisor and mentor. I’ve been a professional sustainable builder and designer for the past 42 years. 

A dozen years ago, as a construction management instructor at Michigan Tech, Bach worked with Michigan Tech students on a design project to re-use two semi-trailer bodies and convert them to a single-family home.

What do you like to do in your spare time?

I’ve lived in the Copper Country since 1979, and in Houghton since 1999. I participate in all outdoor silent sports, especially mountain biking and cross-country skiing.

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Graduate School Announces Fall 2021 Finishing Fellowship Award Recipients

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Campus vista in hazy light showing the canal bending.

The Graduate School proudly announces the recipients of its Fall 2021 Finishing Fellowships. Congratulations to all nominees and recipients.

Finishing fellowship recipients in engineering graduate programs are:

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Michelle Jarvie-Eggart: The Land Owns Us—EWB-AU

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Cape York, Australia

Michelle Jarvie-Eggart shares her knowledge on Husky Bites, a free, interactive webinar this Monday, October 4 at 6 pm ET. Learn something new in just 20 minutes (or so), with time after for Q&A! Get the full scoop and register at mtu.edu/huskybites.

portrait of Michelle Jarvie-Eggart
Assistant Professor Michelle Jarvie-Eggart

What are you doing for supper this Monday night 10/4 at 6 ET? Grab a bite with Civil, Environmental, and Geospatial Engineering department Chair Audra Morse and Michelle Jarvie-Eggart, assistant professor of Engineering Fundamentals. Jarvie-Eggart will tell us about a unique engineering design challenge conducted in partnership with Engineers Without Borders Australia (EWB-AU)

Instead of the concept of land ownership, Aboriginal Australians believe “the land owns us,” Jarvie-Eggart explains. “It’s not even a sense of stewardship of the land. The belief is that we’re a part of the land.” 

Working via Zoom last spring, first-year engineering students at Michigan Tech designed innovative structures for Aboriginal and Torres Strait Islanders in Cape York, Australia: shelters; keeping places for artifacts; and mobile amenities for campsites. During Husky Bites, Prof. Jarvie-Eggart will tell us all about this unique design challenge. She’ll also show us some of the resulting, creative student designs.

Joining in will be Michigan Tech environmental engineering alumna Amanda Singer. While at Tech Singer spent four years working as an undergraduate teaching assistant, aka “LEAP Leader,” and stayed on to earn her Master’s in Environmental Engineering with an emphasis on engineering education. Prof. Jarvie-Eggart was one of her advisors. Singer is now pursuing a PhD in Engineering Education at Ohio State. 

“It’s like picking up a piece of dirt and saying this is where I started and this is where I’ll go. The land is our food, our culture, our spirit and identity.”

S. Knight, Our Land Our Life, Aboriginal and Torres Strait Islander Commission, Canberra, Australia

During their second semester at Michigan Tech, all first-year engineering students choose a design project. It’s all part of a required course called ENG 1102. “In a typical semester, we have sections doing brewery designs, adaptive bike designs, alternative power, and other projects,” says Jarvie-Eggart.

“We started the EWB-partnered project in my section of ENG 1102 in the spring of 2019, with about 100 students. Soon after that, the pandemic began. One of the first things I started doing was evening Zoom office hours, after my kids went to bed. That’s when my Michigan Tech students are doing their homework, “ she says.

A word spoken by Indigenous Australians, Kanyini, means responsibility and unconditional love for all of creation, including the land. Pictured here: Cape York, the most northerly point of mainland Australia

“I met with EWB Australia folks over Zoom, too. In my mining engineering days, I routinely worked with iron mines in Australia, so I was used to conference calls late at night. If clients are halfway around the Earth, I’ll make sure to be the one at my computer at an odd time. People are more willing to take meetings with me if it happens within the bounds of their normal work day. If I inconvenience them, or take them away from their family, they are less likely to give me their time.”

The Stanford d. School’s Design Thinking model guides the process in all sections of ENG1102, Jarvie-Eggart explains. “Working cooperatively to solve problems, the key elements are empathy, prototyping and feedback. When we say empathy, though, it’s not what you might think. It’s not about emotions, or feelings, but about putting ourselves in our clients’ shoes. We’re careful not to impose our own definition of what might be a problem, either. Instead we try to see the problem as the client sees it.” It’s a vital first step, says Jarvie-Eggart.

Michigan Tech Environmental Engineering Alumna Amanda Singer ’19

“We also expect students to do a lot of their own research for their projects,” she says. “This can feel odd at first. It can be a challenge to become comfortable with the ambiguity of problem-based learning. What are the important things to consider? What assumptions need to be made and how can you justify them? Why is your design a valid one? This is what we are asking our first-year students to do.” 

Jarvie-Eggart couldn’t have all 100 students contacting EWB volunteers and Aboriginal and Torres Strait Islanders in Australia. “That would have been a hot mess,” she admits. Instead they followed a typical RFI (request for information) process one might use in consulting. “Often, project engineers don’t have contact with the client, but the project manager does. So, we organized all our questions. EWB AU had gathered all sorts of resources and information from the host community, which our students reviewed before forming questions to clarify the design purpose or scope, or share initial ideas. I sent those on to EWB staff, who provided answers.” 

Once EWB-AU was ready, the Michigan Tech class took part in a Zoom interview Q&A. “We did that so students could see me asking questions and hear answers in real time from EWB staff. We also recorded it for students who couldn’t stay up late to watch. It looked candid—but many of the questions took some time and research to answer.”

Each year EWB-AU hosts a different first-year engineering challenge.

And the resulting designs? Jarvie-Eggart will share them during Husky Bites. One shelter design uses low-cost, repurposed items. Another has one open side, but is able to rotate depending on the direction of the wind during a storm.

“For me, the best part is seeing my students become excited about the impact engineers can make on a global scale,” she adds. “Many of them now express interest in doing international work, or using their professional skills to volunteer or give back to society once they become engineers.” 

During the class, Singer, with four years of experience as a first-year engineering LEAP leader, collected data to asses the impact of ENG 1102 course on the students. What did they take away? “In their responses, most of the students mentioned words and phrases such as ’empathy’, ‘working on a global scale’, ‘humanitarian’, ‘community’, and ‘sustainability,’” Singer notes. “Students became more community-minded and aware of the cultural context of their designs.”

Dr. Jarvie-Eggarts and Amanda Singer in cap and gown
On campus outside on Amanda’s MS graduate day!

“Amanda is now a PhD student at Ohio State and I couldn’t be more proud of her,” adds Jarvie-Eggart. “She is going to be a really great faculty member some day, maybe even at Tech if we are lucky.”

Each year EWB-AU hosts a different first-year engineering challenge. “Although, this semester, due to COVID, we will work with the same Cape York community,” says Jarvie-Eggart.

Michigan Tech is only the second university in the US to take part in the EWB AU Challenge. “I saw a paper at an American Society of Engineering Education conference, written by the first school to implement the project in the US, in Colorado. So I tracked down the authors, asked them about it, and they offered to get me in contact with the EWB AU folks,” Jarvie-Eggart recalls.

“EWB USA is working on developing their own design challenge for first-year engineering students, too. Once they get that up and rolling, we look forward to working with them, as well.”

Jarvie Eggart knows a meaningful educational opportunity when she sees one. She earned her BS in Environmental Engineering at Michigan Tech, then an MS in Environmental Policy. After working in industry, she returned to Michigan Tech to earn a PhD in Environmental Engineering and a certificate in Sustainability, then returned to industry again. All in all, Jarvie-Eggart has over a decade of work experience in compliance, permitting, and sustainability issues for mining, as well as the municipal water and wastewater industries.

“I’m very passionate about sustainability,” she says. My goal by working in industry was to help make a difference for the corporations that needed it the most, namely the extractive industries like mining, and oil and gas,” she says.

Now she’s found another important place to make an impact. “I have experience teaching graduate students online as an adjunct faculty member,” she says. “But first-year students are an entirely different ball of wax. The first year of college is when students learn the essential skills they’ll carry with them for life,” she says. That’s huge!”

younger child at kitchen table wearing white hard hat
“I spent about ten years in industry before coming back to Tech to teach,” says Jarvie-Eggart. “One of my favorite things as a mom is watching the kids roam around the house wearing my old hardhats. Here is one of them doing their homeschool last year.”

Prof. Jarvie-Eggart, how did you first get into engineering?

My father was an electrical engineer (and a Michigan Tech grad). He sparked my love of engineering at an early age. I always loved math and science, and I knew about engineering as a career path because I had one in the house. The hard part for me was deciding upon which type of engineering. When I hit high school chemistry, I narrowed it down to either chemical or environmental engineering. Ultimately, I settled on environmental engineering. 

The Jarvie-Eggart kids, ages 5 and 7, visit the Husky dog statue on campus.

Hometown?

I am originally from Green Bay, Wisconsin. But I have lived in the UP for over 25 years. I met my husband, Brian, at Michigan Tech while we were in grad school. He works at the Advanced Power Systems Research Center. We have two children (5 and 7 years old). My Dad, who will be 86 in October, also lives with us half the year. He normally splits his time between our home and my sister’s in Madison. Due to COVID, he stayed with us all last winter. It is a full house, but there is a lot of love. 

What do you like to do in your spare time?

We have two large dogs—one Shepard-mix and one King Shepherd—and a freshwater aquarium. I love to knit, play ukulele, and jog. This summer, I coached a just-pedaling group in the Single Track Flyers mountain bike program. It was a lot of fun. The kids kept picking flowers for me when we were out on rides. I’d tuck them in my ponytail. 

Amanda stands by a huge waterfall
Amanda Singer will be getting married next summer! Right now she’s earning her PhD in Engineering Education at Ohio State.

Amanda, how did you first get into engineering? What sparked your interest?

I first became interested in engineering as a high school student. I had always loved math and science and had several teachers encourage me to explore engineering as a potential career path. My decision to pursue engineering as my major in college, though, happened during Preview Day at Michigan Tech. I enjoyed hearing the faculty and students talk about the projects they had worked on. I loved the fact that you could pursue a wide range of opportunities with the degree. I started my first year at Michigan Tech as an general engineering major. Ultimately, I decided on Environmental Engineering, which I pursued for both my bachelor’s and master’s degrees. 

Hometown, family?

Meet Kronk. He loves to go camping and hiking with Amanda!

While I currently reside in Columbus, Ohio, I was born and raised in St. Clair, Michigan. My fiancé, who graduated with a chemical engineering degree from Michigan Tech, currently works as a plant engineer in Phoenix. He’s in the process of transferring to his company’s location in Columbus. We spend much of our free time planning our 2023 wedding in the Keweenaw! My parents now spend most of their weekends traveling either to visit me, or my younger sister who is attending Virginia Tech while pursuing a PhD in Human Development. While we all miss the Keweenaw, we love being able to explore some new places!

“Kronk has a backpack that he can ride in but he prefers being able to explore on his leash. Here is a picture of him in the Porcupine Mountains.”

What do you like to do in your spare time?

I enjoy hanging out with my friends and family, traveling, reading, biking, and crocheting. I have a cat named Kronk, (adopted from the Copper Country Humane Society). He likes to join me when camping and hiking. Recently, I began training for the Door County triathlon (in Wisconsin). My mom and I will be competing together next summer!

Read more:

EWB: Bridging Barriers

Design Thinking: Solving Wicked Problems

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New for 9th and 10th Graders This Fall: the Husky Bites Challenge

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We Challenge You, 9th and 10th graders.
Hey 9th and 10th Graders: Don’t Paws for a Minute! Sign up for the Husky Bites Challenge by Monday, Sept. 20.

Do you know a 9th or 10th grader up for a challenge? Here’s one they can take this fall! Sign up by Monday, Sept. 20.

At Michigan Tech, the College of Engineering and Center for Educational Outreach have teamed up to offer a free, six-week, virtual design challenge for 9th and 10th graders. Students will hear from leaders in the field of sustainability design and engineering via Husky Bites, a free 20 minute(or so) interactive Zoom webinar hosted by College of Engineering Dean Janet Callahan. They’ll be mentored by current Michigan Tech students and work as a team to put forward a design proposal for a U.S. Green Building Council (USGBC) LEED-certified school. Registration for the Husky Bites challenge is free, with great prizes, and students are welcome to register individually or as a team.

LEED is short for Leadership in Energy and Environmental Design, the most widely used green building rating system in the world. LEED provides a framework for healthy, highly efficient, and cost-saving green buildings with some very cool features.

Registration for this virtual challenge is free, and students are welcome to register individually or as a team. The deadline is Monday, September 20, but may be extended.

Sign up by Sept 20 for the Husky Bites Challenge.

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Joe Shawhan: Hockey in the Copper Country

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Coach Joe Shawhan stands with arms folded with ice rink in the background.
Joe Shawhan, Michigan Tech Men’s Hockey Head Coach

Michigan Tech Hockey Coach Joe Shawhan shares his knowledge on Husky Bites, a free, interactive webinar this Monday, September 13 at 6 pm ET. Learn something new in just 20 minutes (or so), with time after for Q&A! Get the full scoop and register at mtu.edu/huskybites.

Head shot of John Scott wearing his gold MTU hockey jersey.
NHL MVP and former Michigan Tech hockey player John Scott ’10 (Mechanical Engineering). If you haven’t already, check out his podcast, Dropping the Gloves.

What are you doing for supper this Monday night 9/13 at 6 ET? Grab a bite with Dean Janet Callahan and Joe Shawhan, Head Coach of Men’s Hockey at Michigan Tech.

Yup, it’s time to talk hockey. Join in while two Michigan Tech hockey legends shoot the breeze. Serving as co-host along with Dean Janet Callahan during this session of Husky Bites is NHL All-Star MVP John Scott, a Michigan Tech alum. Scott graduated with his BS in Mechanical Engineering 2010.

Coach Joe Shawhan grew up in Sault Ste. Marie, Michigan—aka Hockey Town, USA, training site for the Detroit Red Wings. Back then hockey was a neighborhood sport and every kid in Shawhan’s class got in on the game. During Husky Bites, he’ll share stories about how he first arrived in Houghton and his relationship with former Head Coach John MacInnes—and what it was like coaching against John Scott in Junior Hockey as a member of the Chicago Freeze.

Coach Shawhan points with his arm extended over the heads of his hockey players at the sidelines during a hockey game.
“The best chance a team has of success is with individuals who expect it and work hard toward it. Every day. All the time,” says Coach Joe Shawhan.

“John and I have never really spent much personal time together outside of the odd interview or Podcast,” notes Shawhan. “I coached against John while he was in Junior hockey and was intrigued by his presence in college hockey. I have respected his humble nature and greatly appreciate his willingness to remember his alma mater.”

Before coming to Tech, Shawhan spent six seasons at Northern Michigan University. He was a volunteer assistant in 2007-08, the director of hockey operations in 2009-10, and an assistant coach for four seasons.

Coach Shawhan holds a tiny Husky pup in his arms.
It’s fun to follow Coach Shawhan on Twitter. Here’s one: “Found our newest Husky recruit at the FSU Ice Arena.”

As the head coach and general manager of the Soo Indians from 1995-2005, Shawhan compiled a 474-162-43 record to become the winningest coach in the history of the North American Hockey League.

Here at Michigan Tech, for 2020-21 season, Shawhan led the Men’s Hockey team went 17-12-1, ninth in the country in wins. The Huskies ranked fourth in the nation in penalty kill (90 percent) and were seventh in scoring defense (2.1).

What about 2021-22? During Husky Bites, Coach Shawhan plans to share the roster—and his hopes for the coming season.

After Coach Shawhan’s presentation on Husky Bites, attendees can ask take part in the Q&A. In fact, Coach Shawhan and John Scott are both ready to answer your questions.

John, what do you want to ask Coach Shawhan during Husky Bites?

First of all, character. What type of individuals do you look for? Next, how do you recruit players to Michigan Tech? How did Covid change things last year? Why are you excited for this year? What are the challenges? And what’s important in order to have a successful team?

Laura Shawhan up on Michigan Tech’s Mont Ripley.

Coach Shawhan: How did you first get interested in hockey? What sparked your interest?

My interest in hockey developed because of my environment. Growing up in Sault Ste. Marie, all my friends played on my same team.

Hometown, family?

My hometown is Sault Ste. Marie Michigan. I am married to my high school sweetheart Laura and we have 3 children: Mia (AJ) Rosenberg, Jordan and Rachel.

What do you like to do in your spare time?

My hobbies outside of hockey include fishing, spending time with family and friends, playing guitar and tinkering. I also like to build things.

“The strength of Michigan Tech hockey is the character of the players sitting in the stalls.”

Coach Joe Shawhan
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Auris Wins! Michigan Tech is Launching Into Space—with Ears

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The team’s spacecraft, Auris, is a small satellite, a 12U cubesat. Its size in centimeters is just 20 x 20 x 30; its mass is 20 kg (about 44 pounds). Image credit: Michigan Tech Aerospace Enterprise

With Auris, the student-run Aerospace Enterprise at Michigan Tech has done it again.

Earlier this month, 10 Michigan Tech Aerospace Enterprise team members, all undergraduates, traveled to Albuquerque, New Mexico August 13-15 for the culminating event of the University Nanosatellite Program, a three-year design competition funded by the Air Force Research Laboratory – AFRL.

The Michigan Tech team won, along with teams from the University of Minnesota and Texas A&M. The three will now move to Phase B of the program, where they have AFRL funding for a multi-year development program to bring the spacecraft to flight maturity—and a guaranteed launch opportunity from the US Department of Defense. No launch date is set yet, but could happen as soon as 2024.

With Auris, the student-run Aerospace Enterprise at Michigan Technological University will have three working satellites. One of the team’s satellites (Oculus) is now in orbit; their second small satellite (Stratus) is due to launch in March 2023. Now, Auris will be the third to launch.

“It’s hard to say, but a conservative estimate is that at least 250 students have worked on the Auris mission since its inception, says Michigan Tech electrical and computer engineering student Matthew Sietsema, the team’s chief engineer and student lead.

These undergraduate students in Michigan Tech’s Aerospace Enterprise traveled to New Mexico for the AFRL University Nanosatellite Program Flight Selection Review. Back Row (Left to Right): Jonathan Joseph, Thomas Ziegler, Nolan Pickett, Matthew Carey, Kyle Bruursema. Front Row (Left to Right): Emi Colman, Samantha Zerbel, Zoe Knoper, Rachel Mellin, Matthew Sietsema

Lyon (Brad) King is the Richard and Elizabeth Henes Professor of Space Systems in the Department of Mechanical Engineering-Engineering Mechanics at Michigan Tech. As the founder and faculty advisor of the University’s Aerospace Enterprise, King empowers undergraduate students to design, build, and fly spacecraft. 

Professor Lyon Brad King

“Michigan Tech’s winning spacecraft is called Auris, which is Latin for ‘the ear,’ King explains. “Auris will fly in low-Earth orbit and will point its antenna ‘up’ to higher geostationary Earth orbit.” (Geostationary satellites are located 22,237 miles above the earth’s surface.)

“The spacecraft will listen to the signals broadcast from communications satellites as it flies through their transmission beams, and be able to map the spatial extent and shape of the transmission beams,” adds King. “Auris will also determine the location of the transmitting satellite.”

Auris signal trace. Image credit: Michigan Tech Aerospace Enterprise

This is the second time the Michigan Tech Aerospace Enterprise student team has won the AFRL University Nanosatellite Program competition. The first time, in 2011, Michigan Tech was the sole winner with Oculus-ASR, which was launched from Cape Canaveral on a Space-X Falcon Heavy in June 2019. Oculus-ASR now serves as an imaging calibration target for ground-based observatories tasked with characterizing spacecraft. 

In 2020 NASA slated Michigan Tech’’s second student-built satellite, Stratus, for a deployment from the International Space Station (ISS). That launch is expected in 2023. Stratus is a pathfinder mission funded by NASA’s Undergraduate Student Instrument Program and the CubeSat Launch Initiative. The Stratus vehicle is a three-axis-stabilized thermal infrared telescope that will be used to image atmospheric clouds.

“I am so incredibly proud of our Aerospace Enterprise team.” 

Janet Callahan, Dean, College of Engineering

At the University Satellite Program’s recent Flight Selection Review event in Albuquerque, a total of ten university student teams competed for the chance to advance their satellite design project to the next phase and launch: Missouri S&T, Minnesota, SUNY Buffalo, Texas A&M, Saint Louis, Western Michigan, Alaska Fairbanks, Michigan Tech, Auburn, and UT Austin.

Judges from Air Force Research Lab (AFRL), United States Space Force (USSF), Space and Missile Systems Center (SMC), Space Dynamics Lab, Missile Defense Agency, and NASA were present to evaluate the missions.

The MTU students staffed a booth, briefed their mission to the judges and other schools, and performed technical demonstrations for the judges.

“Michigan Tech will soon have no less than 3 student-designed and built satellites in outer space—it’s amazing.”

Bill Predebon, Chair, Department of Mechanical Engineering-Engineering Mechanics

Michigan Tech’s award-winning Enterprise Program, with more than 25 teams working on projects and products with researchers and companies, provided the overarching framework for the Aerospace Enterprise. 

Like all Enterprise teams at Michigan Tech, Aerospace Enterprise is open to students in any major. “It’s important for students to learn how to work in an interdisciplinary group,” says King. “In the workplace, they will never be on a team where every member has the same expertise. To design, build, manage and operate a satellite requires mechanical, electrical, computer science, physics, materials, everything— it really crosses a lot of boundaries and prepares them for a career.”

Last, but not least: “Aerospace Enterprise has a leadership and management hierarchy that is self-sustaining,” says King. “Current leaders are constantly working to mentor their successors so we have continuity from year-to-year.”

Matthew Sietsema ’22

Q&A with Matthew Sietsema, Chief Engineer and Student Lead, Michigan Tech Aerospace Enterprise Team

Matthew Sietsema is an aspiring Space Systems Engineer working toward a Michigan Tech double major in Electrical Engineering and Computer Engineering. He’ll be graduating next December 2022. As Chief Engineer of the Aerospace Enterprise team’s two spacecraft programs, Auris and Stratus, Sietsema serves as the technical lead of 100+ undergraduate students. He’s head of all assembly, integration, and testing activities, requirements management and verification for the two satellites. “The dual purpose of the Auris mission,” he explains, “is both Space Domain Awareness (SDA), and Space Visualization.”

Q: How does it feel for Auris to win the AFRL University Nanosatellite Program along with the University of Minnesota and Texas A&M?

A: It feels incredibly gratifying and I’m extremely proud of our team and our mission! Auris has been in the works for more than five years at this point, and to be able to finally close the loop and push forward to the next phase is an electrifying prospect. My congratulations also go out to both UMinn and Texas A&M—the motivations behind each of our missions are very similar, so it’s validating to see the fundamental concepts of our mission being lauded all around.

Q: It sounds like Phase B is about building the actual Auris satellite. What all goes into that?

A: In part, yes. Phase A was about designing and building the prototype version of the spacecraft, known as the Engineering Model (EM). One of the primary focuses of Phase B, among many other things, is to construct the final spacecraft meant to go to space⁠—the Flight Model (FM). We must first finish our build-up of the prototype, taking care to ensure that all of the individual components are working together properly and that the design itself is sound. From there, we move into building the FM spacecraft. This involves four distinct phases of build-up, or ‘integration stages’. The first is Component-Level Testing, where we ensure that each of the individual parts and circuit boards function as intended. Second is Subsystem-Level Testing, where we group components with similar jobs together and ensure that they can communicate with each other and correctly interoperate. Next is System-Level Testing, where we combine each of the discrete subsystems and make sure that the entire spacecraft works as designed. Last is Behavioral Testing, where we do an end-to-end verification of the function of the spacecraft and essentially ‘pretend’ to operate it like we would in space. The idea is to simulate and/or test everything that the spacecraft can possibly do, to make sure there are no unintended behaviors or nasty surprises once it gets on orbit.”

Q: Is it challenging for the team to manage several ongoing satellite missions?

A: At the moment, we only directly manage two missions: Auris and Stratus. Stratus is still under development, for another two years. Management of the Oculus mission was handed off to the Air Force when we delivered the satellite. But yes, the sentiment remains: it is incredibly challenging to manage a single spaceflight mission, let alone two at the same time. We have a strong core of leaders in our team, and do our best to foster an environment of learning and self-motivation. Our group is structured very closely to actual aerospace companies, so we rely on the tools of the industry and the experience of our members to catalyze progress and keep both missions on track.

Read More

Brad King: Space, Satellites, and Students

And Then There Were Two: MTU’s Next Student-built Satellite, Set to Launch

Michigan Tech’s Pipeline to Space

Winning Satellite to be Launched into Orbit

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Summer Youth Program and Women in Engineering

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Madelyn Hachenski in front of UO Lab.
Madelyn Hachenski is interviewed in front of the Unit Operations Lab, an educational facility managed by the Department of Chemical Engineering.

HOUGHTON, Mich. (WLUC) – Since 1972, Michigan Tech University has held its Summer Youth Program, giving kids finishing sixth to eleventh grade an opportunity to take courses, ranging from Engineering to Computer Science.

“We have classes on everything,” said Jannah Tumey, the Assistant Director of MTU’s Center for Educational Outreach, “from Aviation to Forensic Science to Michigan Species of Concern and other ecology-type classes and Chemistry.”

Read more and watch the video at WLUC TV6, by Matt Price.

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