IMPACT 2016

IMPACT

All-Around Innovation

New Undergraduate Lab Building promotes interdisciplinary, hands-on learning approach.

ON THE COVER INNOVATION ABOUNDS 2

The new Undergraduate Lab Building will unite the fields of OSU’s College of Engineering, Architecture and Technology in new ways.

GOING MOBILE 7

CEAT is making its computer labs mobile for students — no more schlepping to a basement to work on assignments.

A LOOK BACK

The College of Engineering, Architecture and Technology has come a long way, baby. See just how far on this timeline.

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SURVIVING THAT TORNADO 10

OSU researchers are taking a lead role in using unmanned aerial vehicles to enhance severe weather forecasts and lengthen warning times for the endangered public.

FLYING IN A LAB

Well, the American Airlines jet did fly into Stillwater, and CEAT is turning it into a hands-on experience for students on the ground.

DREAM BIG, SAYS THE EXPERT

And given this structural engineer’s work with the world’s tallest building, the Burj Khalifa in Dubai, he knows of which he speaks.

FAREWELL, HEAD SPROCKET

Gus Edwin George “Ed” Malzahn, the founder of Charles Machine Works, leaves a huge impact on his friends and family, his company, his alma mater (OSU!) and the world.

BRIDGING THE GAP

The Summer Bridge program gives CEAT freshmen a head start on their OSU careers.

GLOBAL AID

A small town in Guatemala is getting better access to cleaner water and to hot meals, thanks to the work of OSU’s Engineers Without Borders student chapter.

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DEAN, COLLEGE OF ENGINEERING, ARCHITECTURE AND TECHNOLOGY

Paul Tikalsky, Ph.D., P.E., F.ASCE, F.ACI, EACR

SENIOR DIRECTOR OF DEVELOPMENT

Tylerr Ropp

MARKETING MANAGER AND MANAGING EDITOR

Chelsea Robinson

UNIVERSITY EDITOR

Dorothy Pugh

ART DIRECTOR

Mark Pennie

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new training program uniting OSU’s Fire Service Training with the Oklahoma City Fire Department and OKC’s Riversport Rapids is teaching first responders how to safely handle swift-water rescues.

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PHOTOGRAPHY

Phil Shockley, Gary Lawson, CEAT Staff

CONTRIBUTING WRITERS

Brittany Belli, Karolyn Bolay, Erin Larson, Janet Reeder, Pam Reynolds, Marketa Souckova

is a publication of the Oklahoma State University College of Engineering, Architecture and Technology and is designed to provide information on college activities and accomplishments while fostering communication among the CEAT family and friends. WWW.CEAT. OKSTATE.EDU. The office of publication for IMPACT is 307 Whitehurst, Stillwater, OK 74078-1024. © 2015, IMPACT. All rights reserved. Oklahoma State University, in compliance with Title VI and VII of the Civil Rights Act of 1964, Executive Order 11246 as amended, and Title IX of the Education Amendments of 1972 (Higher Education Act), the Americans with Disabilities Act of 1990, and other federal and state laws and regulations, does not discriminate on the basis of race, color, national origin, genetic information, sex, age, sexual orientation, gender identity, religion, disability, or status as a veteran, in any of its policies, practices or procedures.  This provision includes, but is not limited to admissions, employment, financial aid, and educational services. The Director of Equal Opportunity, 408 Whitehurst, OSU, Stillwater, OK 74078-1035; Phone 405-744-5371; email: eeo@okstate.edu has been designated to handle inquiries regarding non-discrimination policies. Any person (student, faculty, or staff) who believes that discriminatory practices have been engaged in based on gender may discuss his or her concerns and file informal or formal complaints of possible violations of Title IX with OSU’s Title IX Coordinator 405-744-9154. This publication, issued by Oklahoma State University as authorized by the College of Engineering, Architecture and Technology, was printed by Western Printing Company, inc, at a cost of $13,870 / Sept. 2016 / job #6480.

From the Dean’s Office

The College of Engineering, Architecture and Technology (CEAT) is continuing its transformation as a leading innovator in education. Expanding to high-tech, hands-on lab facilities, increasing enrollment and growing programs all contribute to the changing face of the college.

Over the past year, the college has seen significant developments and continued opportunities for innovative education. Mechanical and aerospace engineers now have an opportunity for hands-on application in an MD-80 aircraft donated by American Airlines. The aircraft has been retrofitted into a lab for students and teachers of all ages and disciplines to explore and understand how engineering and technology affect everyday life.

CEAT has made a global impact by hosting the National Engineering Forum’s Council on Competiveness, bringing thought leaders from industry, academia and legislature together to discuss the importance of engineering’s future in the economy. The region’s leading CEOs, presidents and elected officials joined national leaders in Stillwater to establish the next steps toward maintaining the United States’ competitive advantage in energy and manufacturing.

Our student population continues to grow with enrollment reaching record numbers — 4,158 undergraduates

this fall. Top talent consistently finds its way to OSU, and the increase in scholastic achievement has allowed CEAT to expand its scholarship programs to meet the demands of such a talented pool of students.

The college’s top priority is the CEAT Undergraduate Laboratory Building. OSU President Burns Hargis and the OSU Regents are demonstrating the university’s dedication to the future of CEAT through support for the new lab, with a matching commitment of nearly $20 million. The new 72,000-squarefoot lab will include 14 testing, prototyping and experimental labs, multidisciplinary senior design space and a two-story test arena. Construction is set to begin at the end of 2016 with a groundbreaking ceremony on Oct.22 at the building’s future site, between the Advanced Technology Research Center and the Architecture Building, adjacent to Boone Pickens Stadium. The lab spaces are designed to foster interdisciplinary projects through flexible spaces that can adapt to a broad range of experiments. The building itself will also serve as a learning laboratory with exposed building systems, energy monitoring, a solar balcony lab, renewable energy charging stations and student access to the inner workings of the facility.

Alumni support for the building has been good. Several leadership gifts have been established. Alumni leaders like Mark and Beth Brewer have provided a major gift to name an electrical engineering lab.

That gift was matched by OSU funds to create a world-class teaching and innovation lab for OSU students and high school summer programs. The estate of Blair Stone has done the same for a mechanical engineering laboratory with the matching OSU investment. An energy company has added an even larger gift to facilitate student success in the new lab. You can read more about this pivotal project and ways to impact tomorrow’s engineers, architects and technologists in the pages that follow.

The OSU Foundation and I have recently established the CEAT Dean’s Club, which is made up of a distinguished group of CEAT supporters who have made significant investments in the college’s priority projects. Those who have given more than $250,000 in their lifetime to the college or $5,000 annually to either the CEAT Fund or Engineering Building Fund receive membership and exclusive benefits — including a $2,500 scholarship in their name funded by a generous CEAT benefactor awarded to a CEAT student in the upcoming academic school year. The support of the group is vital our success and makes a significant impact on every aspect of the college.

On behalf of OSU and CEAT, I thank you for your support. The college could not be at the forefront of innovation without the investment of alumni, friends, industry partners and people like you.

All-Around Innovation

New Undergraduate Lab will widen the realm of unique at OSU

INNOVATION IS FLUID.

IT’S AN EVER-EVOLVING CONCEPT THAT MORPHS TO FILL GAPS IN TECHNOLOGY. IT’S AN OMNISCIENT IDEA OF WHAT SOCIETY NEEDS TO REACH NEW HORIZONS. IT’S THE ASPIRATIONAL FOUNDATION OF THOUGHT-LEADING ENTITIES LIKE OSU’S COLLEGE OF ENGINEERING, ARCHITECTURE AND TECHNOLOGY, AND IT’S TAKING FORM IN THE NEW UNDERGRADUATE LABORATORY BUILDING.

Enrollment in the college has been on an exponential increase over the past five years, demonstrating both a positive response to the need for science, technology, engineering and mathematics (STEM) professionals and boosting the need for additional facilities. Current CEAT students receive an exceptional

education as part of OSU’s land-grant mission; the proposed building will enhance that experience through opportunities for practical application of theory. The building will foster a multidisciplinary atmosphere for students of all areas of focus to interact and learn.

THE FLOOR PLAN

Designed with the future of engineering education in mind, the facility will house more than 72,000 square feet of stateof-the-art lab space. Three floors will include 17 labs, several design suites, a two-story test arena, seminar rooms and sticky spaces. The labs will support a wide range of academic fields throughout the college, including:

Mechatronics + Robotics

Instrumentation + Sensors

Energy + Power

Unit Ops + Environmental Flow Systems Materials + Design Industry-Aligned Labs Fabrication Lab + Shop Spaces

The building will allow faculty members to develop and implement new pedagogies focused on how undergraduate engineering, architecture and engineering technology students understand, apply and innovate engineering principles and operations.

Randy Seitsinger, associate dean of academic affairs, says the building will be a teaching tool in every aspect. Parts of the building’s systems will remain exposed, so students can learn about the construction, operation and sustainability of a modern building. The concept of the facility is to keep the focus on

multidisciplinary education, making it a place where the college as a whole comes to work together.

THE FUNCTIONALITY

Students from throughout the college will be able to combine their areas of study through group and capstone projects. The ability to work with other disciplines as part of an undergraduate degree program will give students a wellrounded experience that better prepares them to enter the workforce.

“The new laboratory building will be an innovative hub of learning that shifts the college’s pedagogy from a traditional engineering education to a robust combination of theory and systems education with hands-on applications in order to better educate and prepare the next generation of engineers,” says

“This facility will make CEAT the only place in the [U.S.] where engineers, architects and technologists can come together in an academic setting.”

— Randy Seitsinger, Associate Dean of Academic Affairs

“The new laboratory building will be an innovative hub of learning that shifts the college’s pedagogy from a traditional engineering education to a robust combination of theory and systems education with hands-on applications in order to better educate and prepare the next generation of engineers.” — Paul

Paul Tikalsky, dean of the College of Engineering, Architecture and Technology.

This experience will be unprecedented, setting OSU apart from its peers.

“This facility will make CEAT the only place in the United States where engineers, architects and technologists can come together in an academic setting,” says Seitsinger. “This venue will help students understand how important collaboration is and how vital the other disciplines are to the big picture.”

CEAT works with industry partners to ensure it is providing the skills and knowledge needed in today’s society and industry. College leadership is eager to build on CEAT’s long-standing partnerships in determining ways to educate the next generation of engineers, architects and technologists.

Seitsinger says the industry recruits employees who can collaborate with people outside their discipline. The CEAT Undergraduate Laboratory Building will help these companies’ future employees be better trained, setting them apart from other graduates.

THE FUTURE

The space between the Advanced Technology Research Center (ATRC) and the Donald W. Reynolds School of Architecture Building, south of Boone Pickens Stadium, is set to transform into one of the premier engineering lab buildings in the region. A groundbreaking ceremony is planned for Oct. 22. Construction should begin shortly after the groundbreaking, and the first classes are scheduled to be held in the new building in fall 2018.

CEAT is in a time of tremendous growth, and it is dependent upon the support of alumni, friends and partners. Several

leadership gifts have built up momentum for the projects, and the college looks forward to connecting with those who are interested in participating in this next step.

There are countless ways to support the future of engineering, and the most impactful is through a contribution to the Engineering Building Fund (26-71500). To change the lives of thousands of engineering, architecture and technology students and bring the college into the next era of education, visit osugiving.com/yourpassion/ ceat-undergraduate-lab.

Watch a video about the CEAT Undergraduate Laboratory Building and see how this new, innovative facility will alter engineering education at OSU: http://okla.st/2cR6KQJ

“Unlike the traditional lab model, where students are compelled to work in certain facilities during certain hours, the mobile lab model removes constraints of time and space, freeing students to be productive and creative at any time or place.”

— CEAT IT MANAGER DAVID ELLER

Transitioning from Traditional

CEAT is making computer labs mobile for students

PICTURE A BASEMENT ROOM FULL OF AGING BUT WORKING PCS, WITH A COUPLE OF WORKHORSE LASER PRINTERS AND A BIRD’S NEST OF ETHERNET CABLES. THIS IS THE SCENE OF THE TRADITIONAL MODEL OF A UNIVERSITY COMPUTER LAB, CONTAINING EQUIPMENT PURCHASED BY THE UNIVERSITY THAT RESIDES IN A FIXED, CENTRALIZED LOCATION.

In contrast, the College of Engineering, Architecture and Technology is transitioning to the model of a mobile lab: a virtual facility untethered to any specific location.

“Students equipped with a variety of mobile computing devices such as laptops, tablets and even phones can form their own ‘lab’ anywhere they find a reliable Wi-Fi connection,” says CEAT IT manager David Eller. “CEAT will continue to provide spaces such as the Student Excellence Center that feature high-speed wireless connections and publicly accessible printers, but students can just as easily work from dorm rooms, industry conferences or field research stations.”

Expanding the concept of a workspace will empower students to determine the work environment best suited to their needs.

“Unlike the traditional lab model, where students are compelled to work in certain facilities during certain hours, the mobile lab model removes constraints of time and space, freeing students to be productive and creative at any time or place,” says Eller. “Latenight brainstorms can come to immediate fruition by simply rolling out of bed and grabbing a laptop. In addition, students with physical limitations are free to work in the environment best suited for their needs.”

Transitioning away from the traditional lab model frees the college to make more targeted investments in student success. Funds formerly dedicated to university-owned computers, which are utilized during only part of the year, can now be allocated to CEAT-specific facilities and equipment such as the new Undergraduate Laboratory Building.

In order to facilitate a smooth transition to the mobile lab model, CEAT and CEAT IT will offer a variety of

resources and solutions. CEAT has negotiated a deal with Dell and OrangeTech to provide high-performance mobile computers at a reasonable cost to students and negotiated with several software vendors such as Autodesk and ANSYS to offer discounted, and even free, software.

“In addition, CEAT IT will offer face-toface support in both the CEAT IT office and the Student Excellence Center,” says Eller. “Printers and high-speed networks will remain readily available to students throughout CEAT facilities.”

CEAT IT is also evaluating virtual desktop infrastructure as a means of offering high-performance computing to students. With this technology, students would be able to connect a consumer-grade laptop, or even a tablet computer, to a virtualized high-performance workstation to run processor and memory-intensive applications such as simulations.

Through the Years

Decoding the Skies

OSU researchers’ UAV project may improve forecasts for severe weather

As technology has improved, so has weather forecasting. But even today, tornado warnings give you a maximum of around 12 minutes to get to safety. If your shelter is elsewhere — say you’re at home but need to seek shelter in a basement at work — 12 minutes simply may not be enough time. But what if you had an hour’s notice to get to shelter?

A team of researchers from Oklahoma State University, the University of Oklahoma, the University of Nebraska and the University of Kentucky is working on unmanned aerial vehicles (UAVs) that will assist in increasing the warning time during severe weather.

OSU is leading this research; three schools or departments within OSU are collaborating: mechanical and aerospace engineering, computer science and geography. Professors leading the project are: Jamey Jacob, professor in mechanical and aerospace engineering Christopher Crick, assistant professor in computer science and Amy Frazier, assistant professor in geography.

“Being able to work with the professors has been great,” says Nicholas Foster, a mechanical and aerospace engineering sophomore. “It’s added that extra connection to the professors that you wouldn’t get in classrooms.”

A $6 million National Science Foundation grant provides the necessary resources for the researchers. As a leading university in the research, OSU gets one-third of the grant.

The goal is to develop the tools and capabilities to fly UAVs daily to get the data needed to improve forecasting methods. The project is scheduled to take about four years.

“Right now, what most researchers do to get data for forecast models or to get daily bulletins for weather is to fly balloons,” says Jacob. “They have very limited time, and they don’t really get a whole lot of data.”

In April, Jacob and OSU received the Federal Aviation Administration Section 333 exemption, allowing the legal flight of UAVs. Without the exemption, it is illegal to operate drones and UAVs commercially. Jacob requested to operate an unmanned aircraft system to conduct training courses and imagery of energy, infrastructure management, natural resource monitoring and management, precision agriculture and terrain modeling. OSU is one of 4,982 institutions that got the permission.

“This gives us the ability to fly the UAVs on a research basis,” says Jacob. “Until this time, we primarily had been working on systems and components inside the laboratory, but this gives us the opportunity to go outside and fly on a daily basis.”

Part of the research goal is to develop multiple similar UAVs that have the same function to sample the atmosphere to provide increased information about the atmosphere before a severe storm or any other weather condition. Researchers, including several students, work on

UAVs such as a rocket-sounding system and deployable wing unmanned aircraft or sonde equipped with a multi-rotor UAV platform.

“I have been working in Dr. Jacob’s lab for seven years, since I was a freshman,” says Shea Fehrenbach, mechanical and aerospace engineering graduate student.

“I have been conducting research in rocketry and deployable winged UAVs that would be beneficial for rapidly deploying them in severe conditions and would also be deployable from any location.”

By the time this research concludes, meteorologists should be able to collect data at lower altitudes that could provide insight into the formation of severe storms and allow for the creation of a three-dimensional weather forecast as opposed to two-dimensional forecasts, used extensively today.

Ultimately, the research could save lives. An hour should be time enough for people to get to a shelter before a tornado hits.

Grounded for a New Life

Donated aircraft transforms into a hands-on lab

HIGHER EDUCATION PROGRAMS PRIDE THEMSELVES ON OFFERING HANDS-ON EXPERIENCE FOR THEIR STUDENTS. SOME HAVE LABS WHERE STUDENTS CAN FABRICATE MATERIALS. SOME HAVE AREAS TO OPERATE EQUIPMENT. OTHERS HAVE TECHNOLOGY TO SIMULATE REAL-LIFE SCENARIOS

The OSU College of Engineering, Architecture and Technology’s School of Mechanical and Aerospace Engineering has the MD-80 N491AA.

American Airlines delivered the retired 170,000-pound passenger aircraft to the Stillwater Regional Airport on Sept. 23. What was once a commercial vehicle that carried a total of more than 4 million passengers during more than 45,000 flight hours is being transformed into the Aerospace Systems Discovery Lab (ASDL).

Clinical associate professor James Kidd, Ph.D., is leading the efforts to turn a workhorse jet into a learning laboratory.

Kidd says mechanical and aerospace engineering students are exposing the inner workings of the aircraft. This process shows students how complex the systems are, and efficient the design needs to be, in order to make the aircraft function properly.

Visitors to the ASDL experience the details of the plane in an unprecedented manner. From exploring the emergency equipment in the tail and opening the exit window in the center to getting up close with hundreds of gears in the belly and sitting in the cockpit, people of all ages can appreciate this asset.

The ASDL has already been put to work offering educational experiences for MAE students, STEM teachers and K-12 groups. Kidd personally gives tours and lectures at the site.

A typical trip to the ASDL begins under one of the aircraft’s wings that extend out 50-plus feet. Kidd gives the history of the plane and an overview of its specifications. He encourages visitors to ask questions and present ideas for ways to continue expanding the demonstration opportunities.

From there, eager students and teachers climb the stairs into the front of the plane. They get to sit in the pilot’s seat, flip switches and take selfies in the cockpit. Kidd uses the excitement to generate conversation about what the switches, buttons and levers do and how they control other parts of the plane. At this point, the group moves to the middle of the aircraft.

About halfway through the length of the plane, Kidd has loosened part of the floor board. The group gathers around to see what is under their feet — thousands of pulleys and gears, controlling the basic functions of the plane. They also get to sit in the exit seat and follow the instructions to remove the emergency exit panel. Kidd continues by explaining the engineering behind how the shape of the door is designed to offset pressure and describe what the experience would be like if a passenger were to open the door in an emergency.

Kidd says he is constantly coming up with new ideas to generate excitement for engineering and aerospace systems by using the aircraft. Some of his best feedback comes from the younger audiences who are passionate about planes and eager to talk about the ending capabilities of flight.

The ASDL brings unlimited opportunities to CEAT, the community and the region. However, the site is in need of improvements, which are being made over time, says Kidd. Signage was completed in the summer and the inside of the plane is slowly being developed into micro-labs as students disassemble and display other parts.

Support from industry partners like American Airlines and the dedication of alumni and friends is making progress a reality. In future years, Kidd says he can envision more learning spaces where each part of the plane is converted into a small lab space.

The MD-80 N491AA may have retired from the sky, but it will remain hard at work on the ground.

For more information or to support the Aerospace Systems Discover Lab, visit asdl.okstate.edu.

Pete says,

“Help Recruit a Future Cowboy.”

Do you know someone who would make a great engineer, architect or technologist? Everyone looks good in orange! Connect them with our great programs by visiting orange.okstate.edu/register/knowafuturecowboy and noting that you’re a CEAT alumnus. We will send them information about the college.

The Sky’s the Limit

Engineer involved with world’s tallest building tells students to dream big

Not too long ago it would have seemed impossible for man to walk, let alone live or work, among the clouds. But Larry Novak, director of structural engineering at the Portland Cement Association, has made those dreams a reality with his contributions to the design for the world’s tallest structure: the Burj Khalifa in Dubai, United Arab Emirates.

The multiuse skyscraper stands over half a mile tall at 2,717 feet. Condominiums, offices, a hotel and retail space fill the 3- million-square-foot reinforced concrete tower.

Novak shared the details behind the design for the structure at OSU CEAT’s Halliburton Global Innovators Series, where he spoke about the importance of structural engineering in modern construction.

“Structural engineering is part of the natural fabric that ties us all together,” Novak says. “What we do occurs on all scales, from the nano scale of cement to the size of a beam to an entire building and even something the size of a national transportation system.”

“Construction [on the] building took about five to six years to complete, and there were many challenges to overcome, such as how to deal with the wind with such a tall structure,” Novak says. “The engineers worked closely with the architects to develop a building that is both structurally sound and elegant.”

Adrian Saenz, a civil engineering major with an environmental option, was inspired by Novak’s passion and innovation.

“I find it absolutely amazing that someone can design and build something like the Burj Khalifa, and I use it as a source of inspiration for my own career path,” Saenz says.

Even though he has no plans to take on the challenge of beating the Burj Khalifa in height, Saenz says Novak’s advice is still applicable.

“I’m a unique case because I’m more focused on the environment and water aspect instead of structure,” Saenz says. “I don’t want to build the world’s tallest building, but with technology and creativity, a lot of

the same ‘wow’ factors can be carried over to design, whether it’s a stream restoration or a water treatment system. The inspiration and innovation can be put toward a lot of different directions.”

Before his lecture, Novak toured several engineering facilities such as the Bert Cooper Engineering Laboratory. He advised students to take advantage of the impressive opportunities available at OSU.

“OSU is one of the few universities in the world that has the equipment to do certain tests such as slump, cone and concrete pumping tests,” Novak says. “And that is really, really cool.”

Saenz definitely agrees that students receive a first-rate engineering education at OSU, especially since he is experiencing it himself.

“If you think about the labs and spaces Novak presented in and visited, they’re all geared toward our dean’s initiative to make the college more friendly toward our students,” Saenz says. “Novak is a professional, so he can look at our tools, draw similarities to the real world and see that our college and OSU does a fantastic job of providing its students with the right resources to be successful.”

While Novak can add “tallest building in the world” to his résumé in addition to other impressive projects, he wanted to remind students “to dream big.”

“I think it’s important that the students understand there are tremendous opportunities out there,” Novak says. “Think of the buildings we had 30 years ago versus the buildings we have now, and imagine the years of opportunity and the structures they could be building when they’re my age.”

From Curious Kid to Head Sprocket

WHEN A YOUNG BOY BEGAN TINKERING WITH THE TOOLS IN HIS FATHER’S BLACKSMITH AND MACHINE SHOP IN A RURAL OKLAHOMA TOWN, IT SPARKED A LIFELONG JOURNEY INTO ENGINEERING.

Gus Edwin George “Ed” Malzahn was always known for his inquisitive personality and questioning mind. He even caught the eye of the FBI — which resulted in two visits from the organization to his home for inventions he had developed at the ages of 14 and 17.

“He was just very creative and innovative — even at a young age,” says Tiffany Sewell-Howard, Ed’s granddaughter and executive chair of Charles Machine Works. “He was just so curious. From the time he was able to as a young child, he tinkered.”

After graduating from Perry High School in Perry, Okla., in 1939, Ed went on to attend Oklahoma A&M College, now Oklahoma State University. He completed his degree in mechanical engineering and began to turn the “tinkering” into a successful career.

Ed can also credit OAMC for leading him to the love of his life, Mary Corneil. Ed and Mary were wed May 22, 1943. The two were inseparable and provided an example of the importance of family to all who knew them as a couple.

With the start of a family, Ed began to take the vision of his father, Charles, and develop it into Charles Machine Works. The company began when he noticed residential utility lines had to be laid by hand, the trenches dug slowly with shovels and picks. He set out to change this in 1949 with the Ditch Witch Model DWP Service Line Trencher — his first mechanical trenching machine.

Charles Machine Works went on to produce and sell more than half of the world’s trenching machines today. In fact, the American Society of Mechanical Engineers designated that first machine a National Historic Mechanical Engineering Landmark in 2002.

Ed never planned to take his shop worldwide. But that first machine changed the way utility infrastructure was built globally — Charles Machine Works now provides products in 195 countries.

“We always think about Perry, but there is a big impact worldwide by the number of dealerships and the people that work there,” says Sewell-Howard. “We employ close to 4,000 people within the family of companies and the dealer organization. That is a lot of people that this little company that started in Perry touches and impacts on a daily basis.”

Charles Machine Works is well known for its fun and family-like work environment. With family days that bring together employees and their families for food and fellowship to a celebration of Ed’s birthday every year, the company policy remains to have fun.

“The last line of our mission statement is, ‘It’s OK to have fun here,’” says SewellHoward. “He took that to heart. He really fostered that type of environment. He had as much if not more reverence and appreciation for the machinist and the welder on the factory floor to the highest-producing engineer or sales person. He was very relatable and people

admired him, looked up to him and loved him.”

Ed was also famous for his spontaneous trips around the halls of Ditch Witch — spreading fun and smiles along the way.

“People would celebrate their birthdays, and he would go blow bubbles as part of their birthday celebration,” says his granddaughter. “I was cleaning out his desk last week, and the bottom drawer of his desk was full of bubbles.”

Ed was recognized throughout his life with awards and left behind an engineering legacy when he passed Dec. 11, 2015. He will continue to influence lives of passion, generosity and innovation. While the business grew to a global scale, Ed never forgot his roots. Charles Machine Works’ global headquarters are

based in Perry, and the local community was always important to him.

“He set up a foundation for the benefit of Perry, so we can continue to support all the things that he loved and had a specific interest in,” says Sewell-Howard. “We will continue to support what he wanted to happen here.”

Ed’s generosity helped local organizations, citizens and institutions and extended to his alma mater, as he provided scholarships to students in the College of Engineering, Architecture and Technology at OSU.

“He just wanted to be in service to everything and everyone that helped him achieve what he achieved in his lifetime,” says Sewell-Howard. “He gave to OSU; he gave to Perry; those were the people

who supported him through his ups and downs.”

Paige Cloud, graduate assistant for CEAT prospective students, says because of generous donors like Ed, she and other students can pursue college.

“It helps students who can’t afford college and give them scholarships,” says Cloud. “Ed also gave a lot of students the opportunity to work in his company to gain experience.”

“The world will remember him as an innovator but he was so humble and unassuming. He was just a common man who had some great ideas,” says SewellHoward. “Everybody called him — very lovingly — Head Sprocket. It shows he is innovative, but it is still fun.”

In the Midst of Change

‘Ted’ Zavodny just does his job to help protect the United States

SINCE THE END OF WORLD WAR II, TECHNOLOGY HAS BEEN CHANGING AT LASER SPEED. OSU COLLEGE OF ENGINEERING, ARCHITECTURE AND TECHNOLOGY ALUMNUS DR. ALFRED “TED” ZAVODNY (BACHELOR’S IN 1962, MASTER’S IN 1965, AND DOCTORATE IN 1970; ALL IN ELECTRICAL ENGINEERING) HAS BEEN IN THE THICK OF IT AS GLOBAL HAWK CHIEF SCIENTIST & TRITON SENSOR CHIEF TECHNOLOGIST FOR NORTHROP GRUMMAN CORP. WE HAD THE OPPORTUNITY TO VISIT WITH HIM. SOME HIGHLIGHTS OF OUR CONVERSATION:

Q: Is it true that a WWII plane landed near your family farm in Perry, Okla.?

A: I believe you are referring to the B-47 that crash-landed north of Perry. This was in the early 1950s. The B-47 was a large [U.S. Air Force] post-WWII, sixengine jet aircraft. It was the first time a B-47 three-man crew was able to safely crash-land, and the crew was able to walk away.

Q: That must have sparked an engineering interest for not only you, but the whole town.

A: The plane had minimal damage and was put on skids and towed to the airport, where it was repaired. The

takeoff was announced ahead of time, and hundreds of local folks turned out to watch it.

Q: How did you decide on Oklahoma State University and specifically, electrical engineering?

A: My first two years were at Northern Oklahoma College (NOC) in Tonkawa, Okla., after which I went to OSU. I had an older brother who had gone to OSU and majored in mechanical engineering, so I decided to also major in engineering. Wanting the challenge of the hardest field of engineering, I chose electrical, which at the time I knew very little about.

Zavodny has been named to the NOC Distinguished Alumni Hall of Fame.

Q: Oklahoma State University will soon begin building a new undergraduate laboratory for CEAT. It will have state-of-art technology for multiple engineering disciplines housed in a three-story world-class facility. What were the facilities like when you were on campus?

A: I began my experiments in a space on the fourth floor of the electrical engineering building, but a renovation project was soon initiated that caused me to find a new space. Somehow I was able to obtain space in the basement of the physics building, which was nearby and rather new at the time. Since there was no help available to move the equipment, I did it myself after midnight, moving some rather expensive equipment

“OVER THE PAST 18+ YEARS, IT HAS BEEN MY PLEASURE TO WORK ON A UNIQUE SET OF PLATFORMS WHOSE ROLE IS TO PROVIDE IMAGERY FROM VERY HIGH ALTITUDE UNMANNED AIRCRAFT OVER ALL PARTS OF THE WORLD.” — DR. ALFRED “TED” ZAVODNY

and a “stable table” block of granite that weighed about 200 pounds. Quite surprisingly, no one ever challenged the sight of all that equipment moving across campus in the dead of night.

Q: You earned your bachelor’s (top 10 in a class of 2,500), master’s and doctorate at OSU. What was your dissertation?

“A Determination of the Effect of the D ispersive Term on the Fresnel Drag Coefficient Using a Ring Laser (1970).”

Q: Can you explain the premise?

A: Here’s the simple explanation: the ring laser was a device I fabricated that held a refillable HeNe laser tube in one side of a three-sided mirror arrangement that allowed two counter-rotating laser beams to constructively interfere, producing fringes that could be counted. By introducing rotating materials within the laser beams, I was able to repeat experiments that French engineer and physicist Augustin-Jean Fresnel had done 100 years earlier with significantly more precision and to extend those results to liquids to include experiments never done previously. After graduation, I left those devices with Dr. Bilger for his other graduate students to use.

Hans Bilger says his years of research with students, especially Zavodny and W.K. Stowell in the 1970s, gave him the background necessary to create an enlarged ring laser.

“Only from our extensive OSU experiments did I know the tricks to eliminate the guesswork involved in building a ring laser this big,” he says.

“Our breakthrough in ring lasers was not anticipated and, in fact, was considered impossible,” says Bilger, who presented the design to a team of scientists at the University of Canterbury in Christchurch, New Zealand, as part of his 1986 Erskine Fellowship. New Zealand’s ring laser, the Canterbury I (C I), produced its first signals on Oct. 4, 1991. (Excerpt from “ Ring Laser Technology Circles the Earth,” CEAT Impact magazine, Vol. 3 No. 1, 1996)

Q: You’ve had a long, successful career. What was your first position post-graduation?

After getting my Ph.D., I taught math at Northern Oklahoma College for two years, worked for a laser company for two years, then went into aerospace where through a succession of five companies, I have enjoyed my work for the past five decades.

Zavodny was a member of the team developing the first fully autonomous unmanned airplane.

Q: Most recently, you’ve been sharing your expertise of sensor technology as the chief scientist and chief technologist with

Northrop Grumman for an impressive endeavor called the HALE Global Hawk platform.

A: Over the past 18-plus years, it has been my pleasure to work on a unique set of platforms whose role is to provide imagery from very high altitude unmanned aircraft over all parts of the world. The aircraft does not have a pilot, it flies itself but can be controlled via mouse and keyboard from anywhere in the world. Its camera and radar images are instantly viewable from anywhere around the globe. Designing those sensors and providing that imagery has been my responsibility and has been tremendously rewarding professionally.

Q: Are there any fellow OSU-CEAT graduates at Northrop Grumman?

A: Yes, there are several, including at least two with whom I work, and many more I have not met. Trying to name them would be a disservice to those I have not yet met. Because of those OSU alumni and their contacts, one of our major suppliers is Frontier Electronic Systems in Stillwater.

Q: I hear that you have made contributions to the safety of the United States that we, as citizens, may never know. I’m beginning to think you are our very own superhero. Any chance I could talk you into an orange cape?

A: Just doing my job in trying to help protect our national servants who provide our daily security, at home and around the world.

“TED’S EXPERTISE IS IN THE SENSOR TECHNOLOGY FOR VARIOUS UNMANNED AIR VEHICLES. HE IS THE GENIUS TO SEE THE BIG PICTURE OF HOW ALL THESE UNMANNED PLATFORMS WILL WORK AND COOPERATE IN THE SAME AIRSPACE ENVIRONMENT. WITHOUT HIS LEADERSHIP AND VISION, THIS WOULD TAKE MANY MORE YEARS OF DEVELOPMENT AND NOT HAVE THE GLOBAL SUCCESS IT NOW ENJOYS.” — DARIUS KARALIS, CEO, JC-3 INC.

VAUGHN BERKHEISER VISITS WITH HIS GRANDSON AND CLASSMATE, HUNTER SUNTKEN, IN FRONT OF THE ADVANCED TECHNOLOGY RESEARCH CENTER.

VAUGHN BERKHEISER STUDIES WITH A GROUP DECADES YOUNGER AND FINDS HE’S LEARNING THE MATERIAL TWICE AS QUICKLY AS STUDYING SOLO. THOSE STUDYING ARE (FROM LEFT) BERKHEISER, MARLO ZOLLER AND CONNOR PARIS.

Unlimited Education

Student with Ph.D. goes back to the beginning in mechanical engineering

OKLAHOMA STATE UNIVERSITY’S COLLEGE OF ENGINEERING, ARCHITECTURE AND TECHNOLOGY WELCOMES STUDENTS OF ALL AGES AND BACKGROUNDS AND PROVIDES THEM WITH EQUAL OPPORTUNITIES AND GREAT EDUCATION.

One student is a living testament to the lifelong pursuit of education.

Vaughn E. Berkheiser is an undergraduate mechanical engineering student who was born in 1946 in San Marcos, Texas. In August 1976, he received a doctorate in soil science from Michigan State University. And in 2015, Berkheiser decided to go back to school as a fulltime student.

His journey back to school can be traced back to 2011, when he and his wife moved to Guthrie, Okla., to be closer to family and grandchildren. He went to work as a field geologist and logging analyst for ALS Empirica in Edmond, Okla., preparing mud logs (graphical pictures of drilling parameters plotted on a foot-by-foot scale) for client company geologists.

“The life as a mud logger wasn’t satisfying and didn’t leave too much room for a life outside of work,” says Berkheiser. “I wasn’t happy with this job, even though I enjoyed the oil industry.”

Berkheiser’s wife died in August 2014. Less than six months after that, he lost his job in layoffs due to the oil industry crisis. These occurrences prompted Berkheiser to take care of things he hadn’t had time for before. For one thing, he underwent shoulder surgery.

For another, he reconsidered his future. Outside of school and work, he always built new things and came up with new ideas. A lot of his thinking and talent for building came from his father, who did woodworking for a living. A young Berkheiser often helped his dad and enjoyed it.

“I have a mechanical mind,” says Berkheiser. “And I like to make things. I’d like to be able to make better things and make things better.”

He has always been passionate about mechanical engineering. Even while working on his undergraduate degree at Purdue University, he thought about switching his major to mechanical engineering instead of soil science, but he never did.

In 2015, the time was right. He decided to enroll at Oklahoma State University and pursue a bachelor’s degree in mechanical engineering. It didn’t hurt that his grandson, Hunter Suntken, was also getting his degree in mechanical engineering at OSU.

The transition from work to school hasn’t been easy. Just like every other freshman, Berkheiser had to take the math placement test and his electives. Much has changed since he last attended school, but he praises the help that he gets from the professors, students and the college in general, and he loves his classes.

“CEAT and the professors offer so much help,” say Berkheiser. “At the beginning of the year, I would study at home by myself, and then I realized that I can use the help that is provided to CEAT students, and it takes me half the time now.”

“He is doing great at school,” says Laura Emerson, his college academic counselor. “And he is making a lot of friends among students.”

He plans to graduate in 2019 and get a job in North Central Oklahoma. The fact that he will be past his 70th birthday then doesn’t bother Berkheiser, who believes he still has contributions to make.

“He always says he will work until he dies,” says his grandson, Hunter Suntken.

to eit her OKC or Tulsa, and you’ll see the convenience and simplicity of jet service out of Stil lwater Regional Airport with American Airlines.

You

Bridging the Gap

Summer Bridge students get a jump-start on campus life

THE SUMMER BRIDGE PROGRAM PREPARES INCOMING FRESHMEN TO SUCCEED IN OSU’S COLLEGE OF ENGINEERING, ARCHITECTURE, AND TECHNOLOGY. STUDENTS IN SUMMER BRIDGE SAY THE PROGRAM MAKES THEIR TRANSITION FROM HIGH SCHOOL TO COLLEGE EASIER. THE RECENT GROWTH OF THE PROGRAM HAS ALLOWED MORE INCOMING FRESHMEN TO GET A HEAD START ON COLLEGE.

“We want to expose the students to all the things they need to know in our college while they’re here so when school starts they are ahead of the game,” says Lance Millis, director of CEAT student academic services. “By the time classes start, they already know their way around. We get them ready academically and connect them to the campus socially and geographically.”

Summer Bridge is an 18-day residential, on-campus program packed with activities to prepare incoming students for the rigors of college.

Students take classes during the mornings, including chemistry, pre-calculus and English composition. The instructors provide a review of what the students should have already learned in high school, as well as introduce the students to what they will be expected to do in college.

In the afternoons, students work on engineering design projects. The design projects in 2015 were provided by the CEAT departments of civil engineering, industrial engineering, chemical engineering

and aerospace and mechanical eEngineering. Each student had to complete three of the four design projects.

The program also includes industry tours and presentations from various organizations on campus. Colton Tubbs, a freshman in mechanical engineering, is one of 20 current students serving on the CEAT Freshmen Council.

“I learned about CEAT Freshmen Council during Summer Bridge and then applied for it once the semester started,” says Tubbs. “I probably wouldn’t have applied for it if I hadn’t gone to Bridge. The first week of Summer Bridge, you’re wandering around dazed just trying to catch up. I would have been the same way my first week of my freshman year if I hadn’t been in Bridge. I wouldn’t have thought, ‘Hey, I can go do that, and I should go do that.’”

Many CEAT students in Summer Bridge say that meeting people and becoming familiar with the campus have been extremely beneficial.

Masen Stewart, a freshman in chemical engineering, says friendships he made in Summer Bridge have continued.

“Currently, there are six or seven Bridge students in my physics class,” says Stewart. “So if we need help, we know who we can go to. We can bounce ideas off of each other and figure out what’s going on.”

Isaiah Chitica, a junior in civil engineering, says he still connects with students, advisers and professors he met in Summer Bridge nearly three years ago.

“By the time I came here my first semester, I knew people and knew where the facilities were and where to go for the bursar or other services, which was a big concern since I’m not from Oklahoma,” says Chitica.

Statistics show that Summer Bridge helps students stay in college. The retention rate for Summer Bridge students is 88 percent, compared with OSU’s student retention rate of 81.5 percent.

An awards banquet is held at the end of Summer Bridge. Scholarships are presented to the top performers in the classes and engineering design projects. In 2015, approximately $10,000 in scholarship funds was split among a dozen students.

“It’s important to note that the staff members we hire for this program are current CEAT students, some of whom participated in Summer Bridge when they were coming into school,” says Millis. “They are mentors, counselors and guides who also help tutor Bridge participants during study hall. The participants hear from the counselors what it’s like to be a student and how to prepare.”

Myriah Worthen attended Summer Bridge in 2013 and worked as a counselor for the program in 2015. She is currently a junior in architecture.

“I met a lot of people who were invested in me and the other people in the class,” says Worthen. “It lets you know there are people there to help you. So it made me want to give back and be a counselor. I really like being a mentor and connecting with other

people. I like letting them know this is possible; you’re going to make it. You don’t have to be scared.”

Sponsorship from several companies has allowed the program to grow. Most Summer Bridge attendees receive scholarships to help cover the $1,500 cost per person for housing, meals, curriculum, transportation and other activities and supplies during the program.

Going Global

Student group works to improve the lives of thousands with engineering projects in Guatemala

HAVE YOU FILLED UP A WATER BOTTLE TODAY? EATEN A HOT MEAL?

It was pretty quick and simple to do that in your kitchen, right? What takes you a few minutes requires hours of hard labor in places like Santa Rosa, Guatemala.

The College of Engineering, Architecture and Technology’s Engineers Without Borders (EWB) student group is dedicated to alleviating these issues and improving the quality of life for the people of Santa Rosa.

THE PROBLEM

Mothers of schoolchildren heave fivegallon containers of food onto inadequate stoves that can barely heat food. They spend the majority of their day inhaling smoke and straining their backs to feed groups of 100 children or more. Proper stoves typically sell for approximately $125, a month’s income in most cases, far beyond the budgets of families and even schools.

And that’s for just one meal.

Water gathering can take four or more hours a day. Travel to and from water sources includes trudging across unpaved terrain; returning, there’s up to 50 pounds of water (six gallons) strapped to one’s back. Often, dirty water is taken from surface sources.

THE SOLUTION

In spring 2017, EWB plans to install stoves in three Santa Rosa schools. After

an assessment trip to the area this past summer, EWB student leaders determined they can bring the cost of a stove down by nearly $50. The community is required to invest in a portion of the cost of the stove, which has been proven to increase the ownership of the equipment and its proper maintenance.

EWB is also planning an additional water assessment trip and water implementation trip in the coming year.

The group hopes to dig and install water wells and bio-sand filters to give more people access to clean water.

The group’s work will improve the lives of hundreds of people, especially women and children who often prepare the food and collect the water.

YOUR ROLE

The trip for the stoves will cost $30,000 for travel, food, accommodations for 14

Future Plans

CEAT students plus supplies for the project. The group needs the support of loyal and true alumni and friends to reach their goal.

This group of inspirational leaders is hosting a fund-raising tailgate on Oct. 8 at the Phillips 66 Student Plaza on the OSU-Stillwater campus prior to kickoff of the OSU vs. Iowa State football game. A limited number of combo tickets that include the tailgate and the game will be available for $80; tailgate-only tickets will be $15.

The game will be streamed in the Student Excellence Center on the first floor of the Advanced Technology Research Center for those not wanting to attend the game.

To purchase tickets, email EWB public relations officer Stephen Ziske at Stephen.ziske@okstate.edu. Donations can be made at osugiving.com/EWB.

OSU’s Engineers Without Borders chapter is planning its trips for the next four years. The total for all the trips will be $135,000, and donations are welcome.

STOVE IMPLEMENTATION TRIP | $30,000

WATER WELL AND FILTERS ASSESSMENT TRIP | $25,000

MONITORING TRIP (for both trips listed above) | $30,000

POST-MONITORING TRIP (for both trips listed above) | $25,000

For more information on the student group, visit ewb-osu.okstate.edu.

CHILDREN IN SANTA ROSA WILL HAVE AN IMPROVED QUALITY OF LIFE THROUGH THE IMPLEMENTATION OF NEW STOVES AND WATER WELLS.

STOVES ARE INADEQUATE, REQUIRING SIGNIFICANT TIME TO HEAT FOOD. SMOKE INHALATION AND BACK STRAIN ARE ALSO PROBLEMS CAUSED BY THE CURRENT STOVES.

CEAT’S ENGINEERING WITHOUT BORDERS STUDENT GROUP IS DEDICATED TO USING ENGINEERING TO IMPROVE LIVES.

IN SANTA ROSA, GUATEMALA, RESIDENTS NEED IMPROVED STOVES AND WATER WELLS.

CEAT Student Organizations

AEI

Chris Maxwell

Provides timely technical information, professional advocacy, continuing education and opportunities to excel in their architectural engineering careers.

Alpha Epsilon

Danielle Bellmer danielle.bellmer@okstate.edu

Honorary organization recognizes outstanding agricultural, food and biological engineering students.

Alpha Omega Epsilon

Megan Henderson megan.henderson@okstate.edu

Professional and social sorority for women in engineering and technical sciences.

Alpha Pi Mu

Recognizes academic excellence and promotes scholarly activities related to industrial engineering education and fosters social interaction between students and faculty.

American Indian Science and Engineering Society

Cory Hopcus chopcus@okstate.edu

Recruits and retains Native Americans and Alaskan Natives in engineering, science and other related technology-based disciplines.

American Institute of Aeronautics and Astronautics

Shawn Parsons shawn.m.parsons@okstate.edu

Encourages and facilitates activities of OSU aerospace engineering students and enhances members’ professional development.

American Institute of Architecture Students

Cameron Patterson pcam@okstate.edu

Promotes excellence in architectural education, training and practice, and fosters an appreciation of architecture and related disciplines.

American Institute of Chemical Engineers

Patrick Williamson patrick.williamson@okstate.edu

Serves OSU students, especially chemical engineers, and provides a place where they can come together outside of class.

American Society for Quality

American Society of Agricultural and Biological Engineers

Adam McKay ajmckay@okstate.edu

Acquaints students with engineering in agricultural, food and biological systems through networking with industry professionals.

American Society of Civil Engineers

Jacob Hoak jhoak@okstate.edu

Provides a communication link between students of civil engineering and their professional society.

American Society of Heating, Refrigeration and Air Conditioning Engineers

Omer Sarfraz sarfraz@okstate.edu

Promotes the sciences of heating, refrigerating and air-conditioning.

American Society of Mechanical Engineers

Michael Reed michael.reed10@okstate.edu

Promotes ethics and fellowship among mechanical engineering students.

American Society of Mechanical Engineers Technology

Richard Beier rick.beier@okstate.edu

(faculty)

Provides an understanding of the mechanical engineering industry.

American Society of Safety Engineers

Qingsheng Wang qingsheng.wang@okstate.edu

(faculty)

Founded in 1911 as the United Association of Casualty Inspectors in the wake of tragic events.

Architectural Engineering Institute

Bonnie Arnold bonnie.arnold@okstate.edu

Social and professional society aimed at creating a community among architectural engineers on campus and preparing students for their careers.

Architecture Students Teaching Elementary Kids

Suzanna Bilbeisi suzanne.bilbeisi@okstate.edu

(faculty)

Educates elementary children about aspects of architecture and art, strengthens camaraderie among students of the OSU School of Architecture and develops leadership.

CEAT Student Council

John Hiett john.hiett@okstate.edu

Represents students of the College of Engineering, Architecture and Technology.

Chemical Engineering Graduate Student Association

Samyukta Koteeswaran samyukta.koteeswaran@okstate.edu

Promotes the professional development via its programs and its relations with other student groups, specifically the Graduate and Professional Student Government Association.

Chi Epsilon

Lauren Pate lauren.c.pate@okstate.edu

Recognizes scholastic achievement in civil and architectural engineering.

Concrete Canoe

Concretecanoe@okstate.edu

Gives students the opportunity to work independently and develop skills that are sought in the workplace.

Construction Management Society

Eli Herzog eli.herzog@okstate.edu

Promotes the success of students in construction.

Construction Specifications Institute

Elizabeth Williams elizabeth.m.williams@okstate.edu

Promotes the integration of construction, architecture and engineering through extracurricular activities, networking with local practicing professionals and more.

Cowboy Motorsports

Carson Brian carson.brian@okstate.edu

Design competition geared toward providing undergraduate students with experience designing and building a quarter-scale vehicle.

Cowboy Waterworks

Alec Cannon alec.cannon@okstate.edu

Promotes public awareness and education of water quality and water power, develops leadership among its members through participation in branch activities and competes in ASABE environmental design competition.

Engineers Without Borders

Scott Gallaway austin.gallaway@okstate.edu

Works to improve the quality and length of life for others around the world.

Eta Kappa Nu

Joseph Austin joseph.austin@okstate.edu

Nationally recognized honor society promotes scholarship, community and service in the School of Electrical and Computer Engineering.

Fire Protection Society

Zachary Willard zachary.willard@okstate.edu

Provides students with opportunities in public service, academic and professional development and social interaction with other students in the Fire Protection and Safety Program.

Firefighter Combat Challenge

Shane Drury

Educates members about the fire service.

Fluid Power Society

Houston Snow, houstbs@okstate.edu

Professional organization for engineers interested in fluid power.

Freedom by Designs Institute For Operations Research and Management Science

Uttara Tipnis uttara.tipnis@okstate.edu

Interdisciplinary branch of math, engineering and science that applies analytical methods to make better decisions.

Institute of Electrical and Electronic Engineers

George Scheets george.scheets@okstate.edu (faculty)

Educates students and interested parties on aspects of electrical and computer engineering.

Institute of Electrical and Electronic Engineers Technology

Zachary Langley zachary.langley@okstate.edu

Institute of Industrial Engineers

Connor Mojo connor.mojo@okstate.edu

Professional society that serves the needs of industrial engineers. Student officers lead the OSU IIE chapter, advised by a faculty member from the School of Industrial Engineering.

Mercury Robotics

Nathan Lea nathan.lea@okstate.edu

National Society of Black Engineers

Skylar Little skylar.little@okstate.edu

Assists black engineering, technology and architecture students in their college careers to increase the number of culturally responsible black engineers who excel academically and succeed professionally.

Omega Chi Epsilon

Josh Cole josh.cole@okstate.edu

Recognizes and promotes high scholarship, original investigation and professional service in chemical engineering.

OSU Automation

Vidhya Venugopal vidhya.venugopal@okstate.edu

Spreads awareness and promote automation and control systems as a discipline at OSU and aims to provide professional understanding to coursework, bridging academics and industry.

Pi Tau Sigma

Alexandra Martin

Fosters high ideals in engineering professions, supports developmental activities, develops leadership and citizenship among members.

SAE BAJA

Carson Depew Carsowd@okstate.edu

Provides students with a challenging project that involves planning and manufacturing tasks found during the introduction of a new product to the consumer-industrial market.

SAE Formula Racing

Kristen McKinney kristen.mckinney11@okstate.edu

Automotive design team that designs and manufactures a quarter-scale race car every year and competes against other FSAE teams in several international competitions.

Student Association of Fire Investigators

Alexander Cooper alex.cooper@okstate.edu

Unites public officials, students and private persons engaged in fire investigation and the control of arson.

Society of Fire Protection Engineers

Virginia Charter virginia.charter@okstate.edu (faculty)

Maintains a high ethical standard among its members and fosters fire protection engineering education.

Society of Hispanic Professional Engineers

July Perez

Stimulates and develops minority student interests in science, technology, engineering and mathematics; also creates and sponsors events that help students focus on academics, service and community outreach.

Society of Petroleum Engineers, Oklahoma State University

Solomon Sanchez solomon.sanchez@okstate.edu

Aims to produce well-rounded engineers with the ability to apply their skill sets to the oil and gas industry.

Society of Women Engineers

Grace Harrell grace.harrell@okstate.edu

Encourages women to consider science and technology fields, especially engineering, and assists men and women in leadership and professional skills.

Tau Beta Pi

Joshua Sorenson joshua.sorenson@okstate.edu

Honors the best engineers and fosters culture within engineering colleges, forging relationships between engineers.

Tau Sigma Delta

Spencer Wilson spencer.wilson@okstate.edu

Honor society for students who have completed five semesters of the architecture curriculum and are in the top 20 percent of their class entering the School of Architecture.

Theta Tau

James Higgins jim.higgins@okstate.edu

National professional co-ed engineering fraternity develops and maintains a high standard of professional interest among its members, and unites them in fraternal fellowship.

Architecture students create nomadic art studio for museum

Look but don’t touch.

That’s the motto of most museums and art galleries. However, the museLAB exhibit at the OSU Museum of Art allows visitors to (literally) get their hands on a whole new form of interactive architecture.

“I was approached by Carrie Kim, curator of education and public programming at the museum, to create a nomadic and transmuting art-making studio that ingeniously supports the objectives of the museum’s education program,” says Paolo Sanza, registered architect and associate professor of architecture. “The spatial constraints of the museum are such that the education program is void of a dedicated space. The idea, therefore, was to create a structure able to adapt to the constant change in setting as well as able to be easily transported outside of the museum, into the community, so that people of different ages would have a place to interact and create.”

Sanza tasked his third-year architecture students to take on the challenge. Seventeen students in his architectural design studio class were divided into six teams, where they crafted designs of multi-purpose structures.

“The students had to create a structure that was light and transportable, and also had to accommodate different audiences and different activities,” says Sanza. “For example, one structure that both adults and children could interact

with both horizontally and vertically in activities such as drawing, sculpting or weaving.”

Once the designs were finished, each team presented their ideas to the museum staff. The staff then voted on a winning design to be constructed and housed semi-permanently inside the museum.

The team of Cameron Roesler, Anna Eastridge and Evelyn Junco de la Puente had the winning design.

“It was different than anything we’ve ever done before, and it gave us a lot of freedom to do whatever we wanted,” says Eastridge.

The students paid utmost attention to details, such as the space for the structure, the needs of their client and the interests of their audiences.

“We spent a lot of time thinking about kids’ activities, unconventional ways to do activities and ways to interact and play with surfaces and architecture in general,” says de la Puente. “We were also trying to keep all of Professor Sanza’s requirements in mind, as well as the museum’s aspirations, and we had to keep it functional.”

The multi-purpose aspect of the project challenged the team to think outside of the box.

“If you think about it, even if it’s extremely functional, it may not be very exciting for a museum to simply provide a table for art-making activities,” says Roesler. “We had to think about how to actually make a

structure be more than just a plain table. It was a challenge that drove our design, set it apart and made it unique and exciting for us.”

The museLAB exhibit offers multiple two 38x84-inch frames connected by wood hinges and accommodates either a rotating table or two rotating table supports and a slotted wall. The table can be placed at three different heights to cater to multiple audiences. Each rotating table has two distinctive surfaces dedicated to a particular activity: One face accommodates multiple containers for hands-on creative undertakings, while the other is a Lego surface. The rotation of the table also allows for further transformation; when the table is locked vertically, it becomes a wall surface that promotes new activities.

The students worked with Sanza to bring their design to life. They 3D-printed many of the pieces in the architecture labs, finishing the first full module in early March. The whole process took about six months.

“I learned that attention to detail matters, and it’s the little details that make the whole project better,” says de la Puente. “If you work with the right people, you can accomplish so much.”

While the museLAB exhibit mainly resides at the museum, it also has a nomadic aspect.

“There are plans to lend out the museLAB and its components to different departments at the university, the arts school and other extension programs and activities around the state,” says Sanza. “Because of its nomadic nature, it will find a home where it needs to find a home.”

TWO FRAMES ARE CONNECTED BY WOOD HINGES AND ACCOMMODATE EITHER A ROTATING TABLE OR TWO ROTATING TABLE SUPPORTS AND A SLOTTED WALL.

Working on a Medical Miracle

OSU team striving to create new drug delivery system

Ateam with OSU faculty members could end up revolutionizing the treatment of many diseases.

Joshua D. Ramsey, Ph.D., associate professor in the school of Chemical Engineering at OSU, is part of the team doing research for the Defense Threat Reduction Agency (DTRA) to develop a new drug delivery system.

“It is very exciting,” says Rob Whiteley, school head and Bartlett Chair of chemical engineering. “The fact that they are the first to achieve nanoparticle delivery internal to a blood cell is exciting and will have enormous impact on the field and on the School of Chemical Engineering.”

Ramsey is working with Carey Pope, Regents professor and Sitlington Chair in the Toxicology Center for Veterinary Health Sciences; Jing Pope, research associate professor of physiological sciences; Ashish Ranjan, assistant professor in physiological sciences; Steve Hartson, associate research scientist in biochemistry and molecular biology; and Stephen Brimijoin, professor and chair in pharmacology at the Mayo Clinic.

“It’s been a great project because of the expertise that all of the different people bring to the table,” says Ramsey.

Drugs that treat diseases or add protection from chemical warfare, tend to be cleared quickly from the body. OSU researchers recently designed a drugencapsulating nanoparticle capable of entering red blood cells.

“We started looking at ways to design a nanoparticle vehicle that could transport a bioscavenger protein to the body,” says Ramsey. “And can keep it there for around 100 days.”

Current efforts are focused on using this innovative delivery approach to protect soldiers and first responders from

chemical weapons like sarin, a nerve agent that’s among the most toxic chemical warfare agents.

“This project has been a great opportunity for me to learn from excellent researchers across multiple disciplines,” says Nicholas Flynn, a doctoral student in chemical engineering. “I am excited to be part of a team that is working toward applying our research to solve a complex biomedical problem.”

“We are proud to join forces with OSU and its imaginative investigators for the good of our country, our military service members and our fellow citizens,” says Brimijoin.

The DTRA funded this research with a $3.3 million grant in August 2013, to cover the five OSU faculty members together with Brimijoin from the Mayo Clinic, and to cover all related expenses to the research.

The OSU team has recently begun testing on mice. The DTRA’s grant has provided funding for four years.

“My hopes are that, in the end, we will show something that works well in the animals and is very safe,” says Ramsey.

Experiments done on mice are executed in the Center for Veterinary Health Sciences, mostly done and led by Jing Pope and Ranjan. All animal-related procedures were approved and carried out under the guidelines of the OSU Animal Care and Use Committee.

Ramsey and his team in chemical engineering labs work with blood collected and provided by researchers from CVHS. They run in vitro tests to determine whether the nanoparticles attach to red blood cells and if they internalize within the cells.

“I am very excited about bringing my experience with material chemistry into this research project,” says Rangika Hikkaduwa Koralege, a post-doctoral student in chemical engineering. “And the great opportunity to learn more in-depth skills in biomedical research.”

Researchers are using a bioscavenger protein butyrylcholinesterase (BChE, a circulating protein that can bind to toxicants before they distribute to target issues) within a polymer (a large molecule composed of many repeated subunits) nanoparticle that is designed to target and internalize within red blood cells. The BChE protein is produced and supplied by Brimijoin and the Mayo Clinic.

Intravenous administration of BChE has been used in humans since the 1950s to treat organophosphorus intoxications and has been shown to be a stable, effective and safe bioscavenger against the most toxic organophosphorus-based nerve agents.

A drug-encapsulating nanoparticle system capable of entering red blood cells and extending the circulation time to approximately 100 days has great

potential. In the future, treatment of blood-specific diseases, such as malaria, as well as many other diseases could be vastly improved.

The potential of this research is enormous and will have a great impact not only on chemical engineering and other OSU areas involved in this research, but on the United States as a whole.

Tiny Tech Leads to Big Results

Computer engineering program makes a large impact from small components

Five electrical and computer engineering faculty members are making huge technological advancements with very small components.

Drs. James Stine, Jingtong Hu, Weihua Sheng, Carl Latino and Yanmin Gong make up the powerhouse team behind the Computer Engineering Research Program at Oklahoma State University.

“Computer engineering is a relatively new major within the ECE department,” says James Stine, Ph.D. and ECE professor.

“However, it’s a very popular program; about a third of the students in our department choose computer engineering.”

The program started with 42 students in 2006 and now enrolls close to 150 each year.

The computer engineering program offers an undergraduate degree accredited by the Accreditation Board for Engineering and Technology Inc. A graduate program that includes master’s and doctorate options is planned for the future.

“My hope is that it becomes a top-tier engineering program within the United States and the world, and that we receive recognition in promoting a great degree program for the state of Oklahoma,” says Stine. “It all starts with our students, making sure that they understand engineering and computer engineering concepts and making sure that they become successful.”

Computer engineering is similar to electrical engineering, but it includes in-depth instruction in large-scale integration, embedded systems, software engineering and computer architecture.

“Students can get a lot of experience in embedded systems and software engineering, and since there are a lot of security and privacy issues in such systems, my research fits in well with the program,” says Gong. “My research and courses will better prepare our students for the job market.”

Weihua Sheng, associate ECE professor, also combines his research with the computer engineering curriculum.

“I teach the embedded computer system course, and I am introducing topics such as mobile computing, cloud computing,

mobile health and big data,” says Sheng.

Sheng also developed lab exercises using an “educational Roomba” vacuum.

“It doesn’t have the vacuum or suction part, but the design is very similar to the real Roomba robot,” says Sheng. “We use it as a mobile platform to teach students how to develop a smart robot and teach concepts such as interfacing, control and C programming.”

Sheng also received a $725,000 grant from the National Science Foundation for his research combining robots and smart homes.

“I’m trying to develop a robot in a smart home to take care of the elderly who live alone in their homes,” explains Sheng. “Since they live alone, the goal is to monitor their vital signs and their behavior using wearable and environmental sensors. Then, if something urgent happens, the robot can intervene, come to the rescue and contact the caregivers.”

Carl Latino, Ph.D. and associate ECE professor, is also familiar with the robotics aspect of computer engineering. He created the Mercury Robot Challenge in 2010, which has been gaining popularity ever since.

“There are numerous mechanical and computer engineering aspects involved in the robot challenge, making it an excellent interdisciplinary exercise,” says Latino. “These robot systems consist of motion platforms capable of performing missions, avoiding or overcoming obstacles while being driven from a great distance.”

OSU hosted the seventh annual Mercury Robot Competition in April. The competition has become an international sensation, with universities in Mexico, Brazil and Columbia hosting competitions as well.

“The Mercury Robot Challenge is important because it opens up areas of research,” says Latino. “The drivers of these robots must be located over 50 miles away, so data communication and video lag times

make driving these robots a real challenge. These competitions have, and continue to encourage, the creation of new designs, strategies and algorithms, and open up exciting new areas of research.”

In addition to robotics, embedded systems and VLSI are also key components to the computer-engineering program.

Jingtong Hu, ECE assistant professor, received one grant from the NSF totaling $190,835 and one grant from OSU totaling $10,000 to research how embedded systems inside wearable devices, such as Fitbits, can be powered through energy harvesting from the environment.

Hu also received an NSF grant totaling $249,999 to research reconfigurable computing.

“Sometimes, when we’re doing one task, you want to adapt or change the functionality of the hardware according to the change of the environment,” he says.

Hu uses turning on the air conditioning in his house from a remote location, such as his office on campus, as an example.

“We need to keep tabs on information and the physical property of things,” says Hu. “We can connect everything to sensors and small computers, connect the smaller computers to a central computer through Bluetooth and Wi-Fi, and then we can control humidity, temperature, motion and many other things.”

The possibilities and opportunities in the computer engineering research program are endless.

“We always need more and want more information to make sense of the data we have, and we want to predict things,” says Hu.

“That’s what drives our research. As long as we have the desire to find out more, there will always be opportunities for research.”

Deep Roots

OSU’s Fire Council builds off rich history

EXCELLENCE IN FIRE SERVICE AND TRAINING HAS BEEN SYNONYMOUS WITH OSU SINCE THE 1930S. OVER THE COURSE OF NEARLY A CENTURY, THE COLLEGE OF ENGINEERING, ARCHITECTURE AND TECHNOLOGY HAS BEEN A KEY COMPONENT OF THAT RICH HISTORY. TODAY, THE COLLEGE IS PROPELLING THE FIRE INDUSTRY INTO THE 21ST CENTURY THROUGH A NEW, COLLABORATIVE GROUP OF LEADING FIRE EXPERTS FROM THROUGHOUT THE OSU SYSTEM — THE OSU FIRE COUNCIL.

Assistant Dean of Outreach and Extension for CEAT Ed Kirtley led the initiative and served as chairman for the council’s inaugural year of 2015-2016. He currently plays a key role in developing and implementing the group’s goals to fulfill the university’s land-grant mission.

Kirtley says the council has a unified approach to leverage the reputation and research capacity of OSU in a magnitude not seen since the early years of the university’s first fire programs.

The council’s goals are structured into three pillars — education, research and outreach. The OSU Fire Council focuses on how to strengthen the existing fire education opportunities through a combined curriculum and a “Start Orange, Finish Orange” strategy.

“We’re promoting the ‘Start Orange, Finish Orange’ concept that allows a student to progress from a firefighter certificate to a Ph.D., all within the OSU system,” says Lynn Wojcik, OSU-OKC Public Safety department head and OSU Fire Council marketing committee chair. “No other university can offer a student the opportunity to go from a Firefighter 1 certificate to a doctorate in a firerelated field. That is unique to OSU.”

The council also participates in collaborative research projects, which include a broad range of subject matter.

For example, civil engineers from CEAT are developing a tool that fire ground commanders can use to access the structural integrity of steel buildings. This project will enhance the safety and efficiency of firefighting tactics by allowing firefighters to determine when and for how long they can be in a steel structure before the risk of it collapsing is too high.

Another ongoing project involves OSU faculty from the College of Human Sciences’ Apparel Design department working with CEAT’s outreach Fire

Service Training and academic Fire Protection and Safety Engineering Technology program. The team is working on bulletproof turnout gear and other materials for firefighters who find themselves in hostile situations. They have presented the idea to stakeholders in the manufacturing industry and are awaiting a response to put their designs into action.

The impact of these research projects ties directly into the council’s third pillar — outreach. OSU is home to several leading fire service entities, including Fire Protection Publications, the world’s leading producer of firefighting education materials; the International Fire Service

Accreditation Congress, the sole accrediting organization for fire curriculum, and Fire Service Training, the most prominent training organization in the state. All of these units are part of CEAT’s Outreach and Extension programs.

Kirtley says the council is ultimately a group of problem solvers. The industry comes directly to OSU seeking solutions to real-world issues, and the council is dedicated to working with those industry partners to find well-rounded answers.

“The nice thing about the council is that we are able to work with synergy without giving up our individual program’s identity,” says Kirtley. “We can take a problem presented to us, determine the players we need to address it and put them together under a single project to find the best solution.”

The group operates as a whole with experts adding their expertise and perspective to every topic. However, many say Kirtley’s leadership has been imperative to the group’s success.

“Dean Kirtley’s vision is what brought the group together,” says Wojcik. “His motivation is infectious, and it’s easy to pick up on his vision, adopt it and implement it because it’s positive and forward-thinking.”

“It’s humbling to be part of the fire heritage at OSU,” says Kirtley. “I never thought we would be where we are today when we started, and I never thought we would have the excitement that we have about it.”

Each member of the council plays a critical part in the success of the group and, as a whole, it continues its momentum into the future of the fire service industry.

For more information, visit ceat.okstate.edu/osufirecouncil

OSU’s fire service programs

Fire service education is steadily growing across three OSU campuses. The following programs are currently enrolling:

OSU-STILLWATER

Fire Protection and Safety Engineering Technology — Bachelor of Science

Fire and Emergency Management Administration — Master of Science

Fire and Emergency Management Administration — Doctorate of Philosophy

Fire Ecology and Management — Bachelor of Science

OSU-OKC

Municipal Fire Protection — Associate of Applied Science

Emergency Responder Administration — Bachelor of Technology

OSU-TULSA

Forensic Sciences — Master of Science

Forensic Sciences, Arson and Explosives Investigation — Master of Science

“No other university can offer a student the opportunity to go from a Firefighter 1 certificate to a doctorate in a fire-related field. That is unique to OSU.”

— LYNN WOJCIK, OSU-OKC PUBLIC SAFETY DEPARTMENT HEAD

Tulsa’s True Green Space

OVER THE LAST DECADE, TULSA’S GUTHRIE GREEN HAS BEEN TRANSFORMED FROM A PARKING LOT INTO A CROWN JEWEL OF AN URBAN GARDEN AND PERFORMANCE SPACE IN THE BRADY ARTS DISTRICT.

The park has been nationally recognized for its rejuvenation with the 2013 Henry Bellmon Sustainability award and the Brownfields for Energy award from Brownfield Renewal magazine. However, it’s not the awards on the shelf but what lies under the green space that makes Guthrie Green truly special.

A Rygan High Performance

Geo-Xchange (HPGX) system provides 600 tons of low-cost, low-emission heating and cooling for more than 80,000 square feet that formerly housed the Tulsa Paper Co. warehouse and is now home to various art installations including the Zarrow Center for Art and Education and the Woody Guthrie Center. The system utilizes 120 geothermal boreholes deep beneath the park that

circulate fluid through Climatemaster and WaterFurnace manufactured heat pumps.

OSU alumnus Lane Lawless is the co-founder of Broken Arrow-based Rygan Corp., whose HPGX pipe utilizes proprietary high-strength, low-weight and low-thermal resistance composite materials that yield unsurpassed performance. HPGX heat exchange fields require less than half the land space and drilling of older generation u-tube fields while delivering superior efficiency.

“Rygan uses specifically engineered piping that is stronger with a thinner wall that lowers thermal resistance and lowers thermal mass,” says Lawless. Special resins incorporated into the body

of the pipe create better heat exchange than anything else currently used, he says.

“It is also a bigger vessel, so we can go deeper without the penalty of pressure drop,” says Lawless. “We give the end user the ability to change design and reduce the footprint of the geo-exchange field.”

The downtown location of Guthrie Green came with extreme space restrictions for a geo-exchange borefield. The HPGX system was selected for its ability to work in a limited space. A traditional system would have required more than double the drilling, land space and pumping watts for comparable thermal performance.

“The real story is about the highperformance heat exchangers used by Rygan,” says John Turley, president of the IGSHPA board of directors.

There’s more than meets the eye to urban center

Turley, who worked with Jackson Geothermal at the time, handled the trench, manifolding and vault connections on the Guthrie Green project. Now with Middleton Geothermal Services, LLC, he says the project could not feasibly have been done on such a small footprint with HDPE loops.

Rygan products claim to provide the most efficient heat transfer of any closed system available. Pipe and chemically fused joints are three times stronger than traditional HDPE pipe, have less flow restriction and pressure drop that equates to lower pump energy use. The smaller ground exchange field requirement and less site disruption also reduce installation time.

“Even in the heat wave of 2012 the cooling tower didn’t come online to assist the system,” says Lawless. “How many commercial projects in Oklahoma can say they deliver entering water

temperatures in the 70s and 80s in August without a cooling tower?”

In addition to an $8 million investment from the George Kaiser Family Foundation, a $2.5 million American Recovery and Reinvestment Act Energy Demand Reduction grant and a $200,000 Oklahoma Department of Environmental Quality Brownfield Development grant helped fund the project.

“We wanted to establish the historical Brady Village as a model for the effective use of sustainable energy alternatives in Tulsa, and this was undoubtedly achieved through the installation of the geothermal field,” says Stanton Doyle, a senior program officer with the foundation.

Doyle says the project is meant to foster ground-source heat pump system installation at large in Oklahoma and to support businesses in the state that provide expertise in the design, installation and manufacturing of this equipment.

“Geothermal is a cost-effective way to heat and cool a space, and it makes sense, particularly in this urban district,

as it can substantially reduce costs for local residents and business owners,” says Doyle.

“There are a lot of positives about this project,” says Lawless. “The technology enabled a geo-based solution for a metropolitan venue which would have otherwise been off limits due to space constraints.

“We are now taking the geo solution where it has never gone before, into the condensed metropolitan and urban areas. We are giving more people the ability to choose geothermal.”

This content was originally published in the December 2015 issue of Geo Outlook magazine. It has been adapted by Drew Slattery to fit this publication.

The International Ground Source Heat Pump Association is a non-profit, member-driven organization established in 1987 as an outreach unit of CEAT to advance ground source heat pump technology on local, state, national and international levels. Its members include companies, professionals and end users. Its headquarters are on the OSU campus in Stillwater.

Extracting Oil

NPDC helps project to enhance the value of nuisance eastern redcedar trees

Over the decades, the invasive eastern redcedar tree has taken over more and more land in Oklahoma. Much of the managed eastern redcedar is burned, turned into mulch or fashioned into posts, but researchers are still looking for any value-added products that can be made from it.

The Oklahoma Department of Agriculture, Food and Forestry (ODAFF) and the New Product Development Center (NPDC) at OSU collaborated on a possible solution: to continuously extract oil from eastern redcedar.

“The NPDC aims to assist Oklahoma communities by providing value-added engineering and business services,” says Robert Taylor, NPDC director. “We employ a team of engineering and business professionals, coupled with undergraduate and graduate student interns, to identify and solve challenges that improve the economic, and sometimes societal, well-being of Oklahoma.”

Approximately 12.6 million acres in Oklahoma are considered forested. Eastern redcedar makes up 600,000 acres with an estimated total of 462 million trees. The

annual control of eastern redcedar is a $15 million investment, with $7.5 million from landowners and $7.5 million from the USDA Environmental Quality Incentives Program.

“The goal of the project with the NPDC was to create a unique continuous extraction process that would make it more viable to get oil out of the eastern redcedar tree and still have byproducts available to produce energy from the remaining fiber,” says Jim Reese, Oklahoma secretary of agriculture. “We wanted to make an existing process more valuable and effective for Oklahoma.”

With support from ODAFF, NPDC design engineers developed a model for

extracting oil from eastern redcedar. Terri Ventress, NPDC-Stillwater senior design engineer, analyzed an oil extraction process using redcedar shavings to produce a value-added product.

Ventress began the process by producing a batch experiment to test the temperature and residence times. She found that up to 2 percent of a cedar tree’s weight can be extracted for oil. The batch of cedar shavings was bathed in steam. From the steam, the oil rose to the surface and was collected. The process was adjusted by the dependent variables such as temperature profile and residence time. Each batch and test run provided a comparison of chemical analysis to improve the concept.

To complete the project, Ventress teamed with Tyler Worden, design engineer at NPDC-Tulsa. Worden provided mechanical engineering guidance, additional student support and the facilities for this project with his team of NPDC undergraduate interns.

“The facilities at the Helmerich Research Center at OSU-Tulsa offer diverse resources for the NPDC,” says Ventress. “With wet lab capabilities including reverse osmosis water, NPDC-Tulsa saw the opportunity to move forward with this project.”

Throughout the project, NPDC interns were heavily involved in the development and experimentation processes. Sean Freeman, a mechanical engineer senior at OSU-Tulsa, was instrumental in designing the support and holders for the project with a 3D printer, producing the exact size and shape specifications needed. Freeman says he has found value in working with projects that provide diverse skill development and design.

“Taking a conceptual idea and going through the hurdles provided me with software and mechanical experience,” he says. “I have a better feel

for what working as a professional engineer will be like.”

For the eastern redcedar oil extraction project, Freeman and other NPDC interns analyzed and modified the speed, power and size of the process to determine the best result.

“Continuous learning is always the objective,” says Ventress, who has worked with many student interns and has seen vast improvement of their personal and technical skills. The students working on the oil extraction process, and other projects at the NPDC, are exposed to realworld challenges. Through

client projects and design experimentation, each student gains hands-on learning experiences that go beyond the classroom.

“No student at the NPDC is a specialist in all areas of engineering,” says Worden. “As new clients come through, students become familiar with different processes and designs. They turn themselves into specialists with the help of our design engineers and the client, who are their mentors.”

The experience prepares students for future employment and exposes them to the professional engineering atmosphere.

“The student value behind the connection with the client and the project is fueled by their drive, interest and passion,” says Worden.

The eastern redcedar oil extraction project exemplifies how the NPDC can tackle challenges that affect Oklahoma, and it showcases the collaboration between ODAFF and the NPDC.

“The work performed at the NPDC was valuable and costeffective,” says Reese. “The intellectual investment adds to the future of the project. The next step is to refine the process to advance it further.”

Protecting the First Responders

WATER HAS ALWAYS BEEN A CRUCIAL FRIEND IN DEALING WITH FIREFIGHTING OPERATIONS, BUT WHAT HAPPENS WHEN THAT WATER TURNS AGAINST YOU? AS EMERGENCY RESPONDERS, FIREFIGHTERS RESPOND TO MEDICAL, HAZARDOUS MATERIALS AND TECHNICAL RESCUE INCIDENTS AS WELL AS FIRES. SWIFT-WATER RESCUE INCIDENTS HAVE BECOME AN EVER-PRESSING ISSUE, AS EXEMPLIFIED BY THE EVENTS THAT CAUSED THE DEATH OF CLAREMORE, OKLA., FIREFIGHTER JASON FARLEY IN MAY 2015. OKLAHOMA STATE UNIVERSITY’S FIRE SERVICE TRAINING IS BEGINNING A NEW PROGRAM TO TRAIN FIRST RESPONDERS TO HELP IN THESE DIFFICULT SITUATIONS.

FST is joining forces with the Oklahoma City Fire Department and Riversport Rapids began hosting swift-water rescue training for first responders in the summer of 2016. The new courses meet the rigorous job performance requirements of the National Fire Protection Association 1006 and 1670 training and response standards. The training will take place at the new Riversport Rapid facility in Oklahoma City.

“This facility is remarkable,” says Erick Reynolds, FST director. “Oklahoma fire responders are finally able to train in an environment that closely simulates what

can be faced in the real world, but with safety measures in place, to allow for safe and effective training.”

FST began instructor training in May with the Riversport staff. The Swiftwater Technician Level I and II courses will teach participants how to assemble as a team during incidents, assess moving water conditions, and efficiently and effectively perform a swift-water rescue of a victim trapped in a moving current.

FST looks to draw regional responders as well as those from Oklahoma to thi training.

JASON ERIC FARLEY

Capt. Jason Farley was a 20-year veteran of the Claremore, Okla., fire department.

His career and passion for the fire service industry began when he was a teenager and worked as a volunteer firefighter at the Jollyville department near Austin, Texas. After that, he pursed his dream and graduated from Oklahoma State University with a bachelor’s degree in fire protection and safety engineering technology.

Farley was a member of the Local 1077 of the International Association of Fire Fighters in association with the AFL-CIO. He was swept away by floodwaters while working a rescue operation on May 24, 2015.

With the proper training available for firefighters, incidents like the one that took Farley’s life may be reduced.

Outreach & Extension

Outreach & Extension units of the College of Engineering, Architecture and Technology bring Oklahoma State University to the community and make a difference in people’s lives with education, support and quality of life advancements.

• Applications Engineering Program

• Center for Local Government Technology

• Fire Protection Publications

• Fire Service Training

• International Fire Service Accreditation Congress

• International Ground Source Heat Pump Association

• New Product Development Center

• Professional Development

• Web Handling Research Center

Annually providing services to more than 60,000 people worldwide through the services of ceat.okstate.edu

CEAT Scholars Program opens doors for students

THE CEAT SCHOLARS PROGRAM IS A MAJOR CONTRIBUTOR TO THE OSU’S COLLEGE’S ABILITY TO RECRUIT OUTSTANDING STUDENTS.

The program admits 30 scholars each year who meet the minimum qualifications of a 31 ACT or 2060 SAT score and a 3.75 GPA. They receive $2,000 in scholarship money each year they remain in the program.

The CEAT Scholars Program also engages mentors, creates global awareness and develops leaders through unique enrichment activities in culture, professional development, industry tours and community service. CEAT Scholars also receive travel opportunities.

The CEAT Scholars Program is made possible by several scholarship funds and generous donors, such as the CEAT

Fund, the Sherman E. Smith Family Endowed Scholarship and the I. Edward Lynch Endowed Scholarship. The I. Edward Lynch Endowed Scholarship supports CEAT Scholars who are studying electrical and computer engineering. A recent contribution to this fund has increased the number of CEAT Scholars for the upcoming academic year from 25 to 30.

The past year started with a freshman CEAT Scholar retreat, where students assembled bicycles that were later donated to a local nonprofit.

The CEAT Scholars participated in cultural events such as Rent at the Tulsa PAC

and Diwali Night at the Student Union. The CEAT Scholars also participate in an “Adulting 101” class about retirement plans and investments as well as an event called “Mocktails” that focuses on cocktail-hour business etiquette.

CEAT Scholars took industry tours at Zeeco in Tulsa and Kicker in Stillwater. They served their community by helping build Habitat for Humanity homes in Stillwater. Sophomore CEAT Scholars visited Washington, D.C., touring the FBI education center, visiting the U.S. Naval Academy and meeting with Oklahoma Sens. James Inhofe and James Lankford. Junior CEAT Scholars visited China and Vietnam where they toured Google, received lectures from professors at

Southwest Jiatong University prior to visiting the National Laboratory for Rail Transit, visited the Duijangyan Irrigation Project, stopped at seven UNESCO sites and experienced an abundance of culture.

To support the CEAT Scholars Program activities, direct your contribution to the CEAT Fund 26-65000.

Also included in the CEAT Scholars Program activities are the W.W. Allen Scholars and W.W. Allen Boys and Girls Club Scholars Programs supported by Wayne Allen.

W.W. Allen Scholars Program

Elite award gives top students unique opportunities

The W.W. Allen Scholars Program develops some of the nation’s top engineering graduates. This elite award includes more than $135,000 in scholarship, enrichment activities, professional development and national and international travel, followed by full tuition and housing for one year to pursue a Master of Philosophy degree at the University of Cambridge in the United Kingdom. This unique opportunity truly distinguishes the program and is made possible from a generous donation by W. Wayne Allen, former chairman and CEO of Phillips Petroleum Co.

Also developed by Mr. Allen, the W.W. Allen Boys and Girls Club National Scholars program was designed to benefit a person who was an active member of a Boys & Girls Club in high school. This

is an exclusive OSU scholarship program, awarded to one incoming freshman per year, with more than $75,000 in scholarship, enrichment activities, professional development and national and international travel. Allen was once a member of the Boys & Girls Club of Fort Smith, Ark. He also served as a member of its National Advisory Board, and he credits the Boys & Girls Club with providing him an unusual opportunity for personal growth.

Both programs accelerate leadership and professional development, stimulate intellectual growth, develop interpersonal skills, develop career and cultural perspectives, and prepare graduates for a full awareness of global forces and opportunities.

The members of these prestigious programs for the 2016-17 academic year include:

Global competition is a reality for the nation’s leading industrial firms and a way of life for the intellectual leaders of those firms. Allen Scholars and Boys & Girls Club Scholars graduate fully prepared to walk into any organization with an understanding of the global marketplace and its impact on that industry and this country.

Through these scholarship programs and annual meetings with these scholars, Mr. Allen has had an enormous impact on the students’ perspective and professional development and has brought great prestige and honor to himself, his family and to Oklahoma State University.

ALEXIS VANCE

Leawood, Kan.

Freshman Allen Scholar, Chemical engineering at OSU

HS ACTIVITIES: Varsity girl’s golf team, varsity speech and debate team and equestrian club. National Honor Society and Mu Alpha Theta Math Honor Society.

SAVANNAH ROBISCH

Fulshear, Texas

Freshman Allen Scholar, Chemical engineering at OSU

HS ACTIVITIES: Future Business Leaders of America regional competition and National Honor Society.

SEAN HALL

Wichita Falls, Texas

Freshman Boys & Girls Club Scholar, Aerospace Engineering at OSU

HS ACTIVITIES: 4-H LEGO robotics, studied aerospace engineering online through NASA his junior year, member of the BGCA, and named the Citywide Youth of the Month and the Southeast BGC Youth of the Year.

MADDIE HAWKINS

Carrollton, Texas

Sophomore Allen Scholar, Industrial Engineering and Management with a minor in Computer Science at OSU

COLLEGE ACTIVITIES: CEAT Freshman Council, Freshman Representative Council, SWE, Secretary and Historian for her residence hall Community Council, CEVA logistics as a student intern. She is also a National AP Scholar and a National Merit Commended Scholar.

PATRICK STEICHEN

Tulsa, Okla.

Sophomore Allen Scholar, Mechanical Engineering at OSU

COLLEGE ACTIVITIES: CEAT Student Council, Student Government Association, CowboyThon philanthropy, and he served as a coach for the YMCA in the Stillwater community. He also directed and wrote for several musical philanthropy shows at OSU.

COLLEGE ACTIVITIES: in CEAT Student Council as the vice president of committees, Student Government as the treasurer, and FarmHouse Fraternity as the treasurer. This summer, he worked for Phillips66 as an environmental engineer. He is also a Wentz Research Scholar, working on mitigation of clathrate hydrates for a midstream petroleum application and was named a Top 10 Freshman at OSU.

PHILIP HALPERN

Tahlequah, Okla.

Senior Boys & Girls Club Scholar, Chemical Engineering with a minor in Petroleum Engineering at OSU

SETH CLEARY

Lindsay, Okla.

MS Allen Scholar, Master’s of Philosophy in Technology Policy at Cambridge University

TYLER GOLDSMITH

Texarkana, Texas

Junior Allen Scholar, Chemical Engineering at OSU

COLLEGE ACTIVITIES: Engineering intern at Trinity River Energy, undergraduate research as a member of the Aichele Research group, received a Wentz research grant, serves on the executive team of FarmHouse Fraternity as secretary and is an active member in CEAT Student Council. He was also named one of OSU’s Top 10 Freshmen.

RACHEL DAVIS

Fort Smith, Ark.

Senior Allen Scholar, Chemical Engineering with an emphasis in Pre-Medical Studies at OSU

COLLEGE ACTIVITIES: SGA, CEAT Student Council, Mortar Board and Alpha Epsilon Delta. She serves as the national vice president of finance for NAESC, a national nonprofit dedicated to connecting engineering student councils across the country. She also works as an undergraduate research assistant and has received multiple Niblack and Wentz grants and awards for her work.

COLLEGE ACTIVITIES: He is an active member in the Greek community and in several organizations on campus including the American Institute of Chemical Engineers and Society of Petroleum Engineers. He has had two internships in the oil and gas field and plans on pursuing a career in this field after graduation.

COLLEGE ACTIVITIES: In the fall, he will attend the University of Cambridge. He served in multiple capacities in his four years at OSU including with Student Government Association, CEAT Student Council, Student Alumni Board and ASABE. He was named a Senior of Significance, 2016 Dean’s Most Outstanding Student, and ASABE Member of the Year.

TYLER MARTIN

Omaha, Neb.

Junior Allen Scholar, Chemical Engineering with a minor in Petroleum Engineering at OSU

JACQUELYN LANE

Beulah, Col.

Senior Allen Scholar, Chemical Engineering at OSU

COLLEGE ACTIVITIES: Student Government Association serving as the budget chairwoman and senate vice chairwoman. She also enjoys supporting the Alumni Association and promoting OSU traditions through the Student Alumni Board, where she serves as the alumni relations executive. She was named “Student Philanthropist of the Year” by Women for OSU.

MALLORY HOSEY

Heath, Texas

Senior Boys & Girls Club Scholar, Architectural Engineering with an Entrepreneurship minor at OSU

COLLEGE ACTIVITIES: CEAT Scholars

Executive Board, Student Council Executive Board and helping recruit incoming freshman as a CEAT Ambassador. She was involved in her sorority throughout the past four years and has spent the last year teaching as a statics teaching assistant under professor Carissa Ramming.

CLAY NEWTON

Choctaw, Okla.

MS Allen Scholar, Master’s of Philosophy in Advanced Chemical Engineering at Cambridge University

COLLEGE ACTIVITIES: He was involved in the Navigators, CEAT Student Council, CEAT Scholars and Student Foundation. He was also a member of Phi Kappa Phi, the National Society of Collegiate Scholars, the American Institute of Chemical Engineers and was a National Merit Scholar.

CEAT Leadership

DEAN

DONALD AND CATHEY

HUMPHREYS CHAIR OF ENGINEERING

PROFESSOR OF CIVIL AND ENVIRONMENTAL ENGINEERING

DR. CHUCK BUNTING

ASSOCIATE DEAN OF RESEARCH AND SPONSORED PROGRAMS

HALLIBURTON PROFESSOR IN ENGINEERING

PROFESSOR OF ELECTRICAL ENGINEERING

COLLEGE HEADS

RANDY SEITSINGER, FAIA

ASSOCIATE DEAN OF ACADEMIC AFFAIRS

AT&T PROFESSORSHIP IN ENGINEERING

ED KIRTLEY, M.A.

ASSISTANT DEAN OF OUTREACH AND EXTENSION

SUZANNE BILBEISI, AIA, LEED, GA

Centennial Professor and Interim Head School of Architecture

DR. JOHN VEENSTRA, P.E.

Interim Head, School of Biosystems and Agricultural Engineering

EDUCATION: Bachelor’s degree in biology, Iowa State University; master’s in environmental engineering and doctorate in civil and environmental engineering, both University of Iowa.

HONORS: Outstanding Faculty at OSU; Sterling L. Burks award for Outstanding Environmental Research; and the Halliburton Outstanding Young Faculty Award at OSU, among others.

ALSO: Registered professional engineer in Oklahoma.

AREAS OF INTEREST: Studying increasing the participation and advancement of women in academic science and engineering with the National Science Foundation.

DR. JAMES (ROB)

WHITELEY, P.E.

Professor and Head, School of Chemical Engineering

Bartlett Chair in Chemical Engineering

EDUCATION: Bachelor’s degree in chemical engineering, Oklahoma State; master’s and doctorate in chemical engineering, both Ohio State University.

ALSO: Currently involved in three area projects.

AREAS OF INTEREST: Distillation, ethanol separation for biofuels and process monitoring, control and optimization.

School of Civil and Environmental Engineering

HERAGU

Regents Professor and Head, School of Industrial Engineering and Management

Donald and Cathey Humphreys Chair of Engineering

EDUCATION: Bachelor’s in mechanical engineering, Malnad College of Engineering in India; MBA, University of Saskatchewan, Canada; doctorate in industrial engineering, University of Manitoba, Canada.

AREAS OF INTEREST: Real-time decision support systems for emergency service sector operations, design of next-generation factory layouts, automated warehouse systems and integration of design and planning activities in advanced logistical systems.

Head, School of Mechnical and Aerospace Engineering

Albert H. Nelson Jr. Chair

EDUCATION: Bachelor’s degree, international business, Carthage College; second bachelor’s, master’s and doctorate in mechanical engineering, all University of Illinois at Urbana-Champaign.

AREAS OF INTEREST: Building and thermal systems research group, numerical head transfer and fluid flow, thermal system simulation and design, displacement ventilation and chilled ceiling systems and simulation of building systems.

experience as past president and board chair of several community and non-profit organizations around greater Atlanta.

Professor and Head, School of Computer and Electrical Engineering

OSURF Endowed Chair of Engineering

EDUCATION: Bachelor’s degree in electrical engineering from Ohio Northern University, 1981; master’s degree, 1984, doctorate in electrical engineering, 1989, both University of Arizona.

AREAS OF INTEREST: Antenna theory and design, microwave ferrite materials and devices, electromagnetic field theory, computational electromagnetics and EM waves in complex media.

Associate Dean for CEAT at OSU-Tulsa

Director, Helmerich Research Center

Helmerich Family Endowed Chair Professor of Engineering

Professor and Head, School of Materials Science and Engineering

Professor, School of Mechanical and Aerospace Engineering

Professor and Head, Division of Engineering Technology

HISTORY: Previously department chair, Tennessee State University.

Also: Chair of continuing education committee, American Society of Civil Engineers. While in industty, managed a $100 million project, including supervising more than 50 professionals, contract negotiation, budget control and execution. Community development

New Hires

The OSU/A&M Board of Regents has approved the following new faculty members for the College of Engineering, Architecture and Technology for the 2016-17 school year.

CHEMICAL ENGINEERING — ASSISTANT PROFESSORS

Marimuthu Andiappan

Yu Feng

INDUSTRIAL ENGINEERING AND MANAGEMENT — ASSISTANT PROFESSOR

Kalyani Nagaraj

ELECTRICAL AND COMPUTER ENGINEERING — ASSISTANT PROFESSORS

Sabit Ekin

Yanmin Gong

MECHANICAL AND AEROSPACE ENGINEERING — ASSISTANT PROFESSORS

Aurelie Azoug

Craig Bradshaw

Jerome Hausselle

Rushikesh Kamalapurkar

Kurt Rouser

DIVISION OF TECHNOLOGY — ASSISTANT PROFESSORS

Jonghoon Kim

Haejun Park

Avimanyu Sahoo

CIVIL ENGINEERING

M.R. Lohmann Endowed Professor and School Head

Norbett J. Delatte Jr.

CEAT Strategic Advisory Council

Members of the OSU College of Engineering, Architecture and Technology’s Strategic Advisory Council and their professional affiliations are:

Debbie Adams

Phillips 66

Stephen Allen

Anadarko Petroleum

Gregg Bradshaw

Lambert Construction Co.

Shay Braun

Mark Brewer

Seagate Technology LLC

Mike Carolina

Oklahoma Center for the Advancement of Science and Technology

John Doerner

XTO Energy

Garen Ewbank

Ewbank Geo Testing LLC

Jeff Fisher

Ascent Resources

Joe Hall

General Contractors LLC

Jim Hassenbeck

Studio Architecture

Steve Huckaby

Meritage Midstream

Jeff Hume

Continental Resources Inc.

Mitch Johnson

SpeedPro Imaging

Jack Lee

Jamco Aerospace Inc.

Stan Lingo

Lingo Construction Services

Jamie McAlpine

Chermac Energy Corp.

Bill Remy

TBM Consulting Group

Ty Ropp

OSU Foundation

Ed Stokes

ConocoPhillips

Paul Tikalsky

College of Engineering, Architecture and Technology

Rick Webb

Webb Consulting Group

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OSU hosts National Engineering Forum discussion

Industry, government and academic leaders from the greater Stillwater region gathered in February for a National Engineering Forum regional dialogue marking Stillwater’s place in American engineering.

Oklahoma State University and President Burns Hargis hosted the event on OSU’s campus, with Devon Energy CEO David Hager delivering the keynote address. Headquartered in Oklahoma City, Devon Energy is a leading independent oil and

natural gas exploration and production company employing hundreds of engineers in Oklahoma and nationwide.

The NEF regional dialogue series has concluded, and the movement is currently distilling down outcomes from the discussions in engineering hubs across the nation to reveal common themes and actionable, practical ideas. Later this year, the NEF will publish a report summing up the entire dialogue series and issue a call to action for the

engineers, business leaders, academicians and government officials who contributed to the discussions.

In 2012, Lockheed Martin launched the National Engineering Forum in partnership with the Council on Competitiveness and the National Academy of Engineering, which share a common vision for transforming the way we perceive, experience and prioritize American engineering. NEF is creating

solutions for the challenges facing the U.S. engineering enterprise — capacity, capability and competitiveness, also known as the 3Cs.

For more information on NEF, visit www.national engineeringforum.com

Supporting

It has never been a more exciting time for the College of Engineering, Architecture and Technology.

With record-setting enrollment, a mission to hire 50 new faculty members by 2020 and plans to begin construction for a new undergraduate laboratory building, the college is well-positioned to continue its rise as a national leader in educating and preparing engineers, architects and technologists.

This success does not happen in a vacuum. It takes resources that go beyond the state of Oklahoma. For us to continue on this

trajectory of success it will require the continued support of our loyal alumni and friends.

Your gifts help the college reach new heights. They help our state’s most promising students — tomorrow’s leaders — receive a world-class OSU education. They help build ideal learning environments for research, discovery and innovation in every department.

As you consider supporting the college, please know that the CEAT Development team is here to help. Regardless of the amount, we can help you tailor a gift that fulfills your long-term charitable and financial

CEAT

goals. Whether it be outright support or through your estate, we would be happy to discuss these and any other charitable giving options with you and your advisers.

Visit us at osugiving.com/yourpassion/ college-of-engineering-architecture-andtechnology or contact one of our development team members. We look forward to working with you.

TYLERR ROPP

Senior Director of Development

Team Lead, University Programs and CEAT

Phone: 405-385-5664

Email: tropp@OSUgiving.com

LISA SMITH

Senior Director of Development, CEAT

Phone: 405-385-5170

Email: lsmith@OSUgiving.com

59

BRYCE KILLINGSWORTH

Assistant Director of Development, CEAT

Phone: 405-385-5623

Email: bkillingsworth@OSUgiving.com

JILL BLAKE

Constituent Relations Associate, CEAT

Phone: 405-385-5156

Email: jblake@OSUgiving.com

College of Engineering, Architecture and Technology 2015 Donors

$100,000+

Airbus

Wayne Allen, MAE ’59 and IEM ’69, and Judith Allen

CEAT Student Council

ExxonMobil

Ali Fazel, CIVE ’83, and Jeni Fazel ’83

John Hatheway, MAE ’53, and Betty Hatheway

Phillips 66

XTO Energy

$50,000–$99,999

3M Co.

Deborah Adams, CHE ’83

CS Cho, CVE ’59, and Boksoo Cho

ConocoPhillips

Martin Family Foundation

Procter & Gamble Co.

Sunderland Foundation

$25,000–$49,999

Avery Dennison Corp.

John Brown, CIVE ’66, and Judy Brown

Brueckner Group USA Inc.

Chevron Phillips Chemical Co. LP

Credit Suisse AG

John Cusick, CEAT ’62, and Kathy Cusick

Mark Dickerson, CHE ’74, and Lee Ann Dickerson

Kenneth Dickson, CHE ’87, and Teresa Melendez

EI DuPont de Nemours & Co.

Federico and Elvia Faggin Foundation Inc.

Kimberly–Clark Co.

Kent Powers, IEM ’76, and Sheryl Powers

Gene and Lynne Smith

Gary Wilson, CHE ’89, and Kerri Wilson

Darton and Jamie Zink

$10,000–$24,999

AEP/Public Service Co. of Oklahoma/Tulsa

Gary Allen, ENGR TECH ’82, and Judy Allen

Thomas and Lenore Barber

Ken Barrett, MAE ’64, and Loretta Barrett

Jack Bobek, CHE ’49

Boeing Co.

Mark Brewer, ECEN ’83, and Beth Brewer

Chevron

Michael Damore, ARCH ’73, and Sharon Damore

Gerard Desormeau, ECEN ’71, and Patricia Desormeau

Dolese Bros. Co.

Scott Edwards, MAE ’86, and LouAnn Edwards

EnCana Oil & Gas USA Inc.

Fife Corp.

Gregory Geiser, CIVE ’80, and Nancy Geiser

Halliburton Foundation Inc.

Kerry Havner, CIVE ’55

Randy Kreie, ARCH ’76, and Valda Kreie

Donald Lippert, ENGR TECH, ’78

Matthew Nelson, MAE ’11

OG&E Energy Corp.

Ann Oglesby, CHE ’87, and Bill Oglesby

James Penn, CIVE, ’79

Ashley Price, CHE ’04

K. Kamalakar Rao, MAE ’61

Arthur Rigg, ECEN ’49

Martha Seabolt

Spirit Aerosystems Inc.

Kevin Stephney, ECEN ’79, and Tangye Stephney

Thai Nguyen University of Technology

Steven Wegener, ECEN ’79, and Linda Wegener

Gordon White, CHE ’63, and Carol White

Richard White, ECEN ’71, and Bettyjune White

Jim Williams, MAE ’80, and Lynne Williams

Brent Wooten, CIVE ’74, and Mary Jane Wooten

Derek Wrobbel, ECEN ’91, and Stacie Wrobbel

$5,000–$9,999

Abbott Laboratories

AGCO Corp.

Stephen Allen, ENGR TECH ’79, and Linda Allen

Anadarko Petroleum Corp.

Larry Blake, CHE ’71, and Kathy Cowan

BP America Inc.

Paul L. Caldwell, MAE ’70, and Mabel Caldwell

Chesapeake Energy Inc.

James Cobb, CIVE ’79, and LaVerna Cobb

Marjorie Cooke

Cooley Construction LLC

John Doerner, CHE ’83, and Cristy Doerner

Dow Chemical Foundation

Jacque Fowler, CHE ’83

Guy Engineering Services Inc.

David Hieronymus, CHE ’77

Home Builders Association of Greater Tulsa

Honeywell International

Kay Keithline

Koch Industries Inc.

Jay and Jeryn Laengrich

Larry Laengrich

John Lawrence, CHE ’81, and Carolyn Lawrence

Lockheed Martin

Mark Marston, CHE ’74

Keith Montgomery, CHE ’81, and Charlotte Muniz–Montgomery

Frank Narcomey, ENGR ’79, and Cindy Narcomey

National Fire Protection Association

Kurt Nelson

ONEOK Foundation

Bard Peevy

Gary and Joan Pope

Edward and Claudia Stokes

Texas Instruments Inc.

James D. Waggoner

Williams

$1,000–$4,999

ACP Sheet Metal Co.

Adolfson & Peterson Construction

AIA Oklahoma

Allen Contracting Inc.

John and Nancy Allford

Andres Construction Services LLC

Charles Bacon, ECEN ’61, and Jeanne Bacon

David and Sherrlyn Bardwell

Kenneth and Karen Bell

Benson Lumber Co.

Frank Berry, ENGR TECH ’62, and Diana Berry

Danny Blaakely, ENGR TECH, ’81, and Melanie Blakely

Anthony Blatt, ARCH ’93, and Julie Blatt

Edward and Lauren Bond

Lorraine and David Bouchard

Johnnie Boyle, MAE ’72

Russal Brawley, CIVE ’63, and Phyllis Brawley

Bruce W. Russell, Ph.D. P.E., & Associates PLLC

Richard Bush, IEM ’63

Trust of Donald C. & Mary M. Cameron

Cantera Concrete Co.

CapSpire

Donald Carpenter, ARCH ’79, and Gina Carpenter

John Carment, CHE ’98, and Carrie Carment

Center for Life Safety Education

Central OK Section

Illuminating Engineering Society

Cimmaron Technology Inc.

Brad Clowe, ECEN ’94, and Ronnie Clowe

Teresa Cooper

Krista and Kirk Courson

Jimmy Cox, MAE ’63

Crossland Construction Co. Inc.

Kenneth Davey, ARCH ’73, and Mary Davey

Raymond Davis

Cary DeHart, ENGR TECH ’74, and Bobbie DeHart

Kenneth Donaghey, ENGR TECH ’81

Mike Dossey, CIVE ’65, and Anita Dossey

Leslie Doty

Dunhill Homes DFW LLC

Ray Earley, ECEN ’80, and Sharon Earley

Billy Eddleman, IEM ’66, and Angeline Eddleman

Thomas Engle, ENGR TECH ’61, and Martha Engle

Gordon Eubanks, ECEN ’68, and Ronda Eubanks

David and Laura Eudey, MAE ’04

Susan and Robert Evans

FCI Constructors Inc.

Andrew Fickett, IEM ’10, and Tracy Fickett

Flintco LLC

Fluor Foundation

Food Source Solutions LLC

Sandra and Darrel Fry

GE Johnson Construction Co.

Barney Ghiglieri, CHE ’72

Michael Gilbert, CHE ’78, and Verna Gilbert

Earl Glimp, ECEN ’66, and Carolyn Glimp

Global Production Solutions

Jack Goertz, IEM ’73, and Susan Goertz

Graham Architects Inc.

John and Dolores Granito

Jack Graham, ECEN ’59

Thomas Graham, CIVE ’95, and Kimberly Graham

Richard Gray, ECEN ’61, and Rosemary Gray

Daniel Grischkowsky

John Groh, MAE ’60, and Nancy Groh

Steven Grundmann, MAE ’76, and Jonith Grundmann

Lisa Hamil

Syed Hamid, MAE ’76, and Zeba Hamid

John Harder, MAE ’67, and Mildred Harder

Michael Harris, MAE ’66, and Patricia Harris

Myron Hayden, CIVE ’75, and Judith Hayden

Charles Heller, CIVE ’59

David Heller, ENGR TECH ’80, and Paula Heller

William Henry, ECEN ’79, and Cindy Schultz

Lee J. Henderson, MAE ’82, and Marta Henderson

Henson Construction

Hensel Phelps Construction Co.

Sunderesh and Rita Heragu

Glen Hicks, MAE ’68, and Diane Hicks

Steve Huff, BAE ’11 IBM Corp.

William Johnson, ENGR TECH ’76, and Barbara Johnson

James Jones, MAE ’84

Karly Jurgensmeier, CHE ’10, and Brad Jurgensmeier

Montgomery Karns, CIVE ’77, and Vickie Karns

William Kelton, ENGR TECH ’60, and Barbara Kelton

Robert Kersten, CIVE ’56

Larry Kester, ARCH ’68, and Linda Kester

Jordan Kidd, CHE ’07, and Kristeen Kidd

Lambert Construction Co.

Samir Lawrence, CIVE ’63, and Lucille Lawrence

Donald Lehman, CHE ’69, and Laura Lehman

Stan Lingo, ARCH ’87, and Renee Lingo

Thomas Lippert, ENGR TECH ’84, and Mary Lippert

Lithko Contracting Inc.

Xiaobing Liu, MAE ’05, and Dongyi Xiao

Jill Long, CHE ’03

Shane Lupi, ENGR TECH ’14

Philip Maltby, ECEN ’73

Marathon Oil Co.

Melissa Martin, ENGR TECH ’71, and Donald Martin

Maurice McClain, ENGR TECH ’79, and Rita McClain

David McCaslin, CHE ’89, and Elizabeth McCaslin

Susan McKenzie, MAE ’80

Albert McWatters, ENGR TECH ’81, and Ann McWatters

Kurt Metzinger, MAE ’86, and Bernadine Metzinger

Albert Meyer, ECEN ’49, and Ruth Meyer

Michelin North America Inc.

John Middleton, CHE ’77

Jodie Millemon, CHE ’11

Motiva Enterprises

Nabholz Construction Corp.

James Nevels, CIVE ’89, and Sherry Nevels

John and Jeanne Norman

Kevin O’Brien, MAE ’76, and Judith O’Brien

OK Structural Engineer Association

Oklahoma State Firefighters Association

ONE Gas Inc.

Ronald Orr, IEM ’79, and Diana Orr

Raymond Pappe, MAE ’58, and Shirley Pappe

William Phelps, MAE ’60, and Dorotha Phelps

Brian Price, CHE ’72, and Brenda Price

Donald Pruitt, MAE ’62, and Mary Pruitt

Donald Purvis, ECEN ’78, and Janet Purvis

Ramachandra and Gokula

Ramakumar

Gilbert Randall, ECEN ’73

Dhananjaya Rao, IEM ’73, and Kathleen Rao

Thomas Ratzki, CIVE ’79, and Amy Ratzki

Raytheon Co.

Karl Reid, MAE ’56, and Verna Lou Reid

David Reser, CIVE ’87, and Corine Reser

Rick Scott Construction Inc.

Yvonne Roberts

Francis Rooney

Neil Ryan, ENGR TECH ’78, and Katherine Ryan

William Seider, ARCH ’74, and Amanda Miller

Richard Sievert, CHE ’77

Timothy and Zella Simmons

Alan Smith, MAE ’73, and Carol Smith

Stuart Smith, MAE ’76, and Linda Smith

Traci and James Smith

James Snyder

Society of American Military Engineers/OKC Post

Southern Company Services

SpawGlass Contractors Inc.

Terry Stewart, CHE ’72, and Karen Stewart

Laura Sugg, CHE ’83, and Charles Sugg

TEXO Education and Research Foundation

Textron Matching Gift Program

Sally Thomas, CHE ’77

Richard Thompson, IEM ’63

Paul and Julie Tikalsky

Leroy Tomlinson, MAE ’54, and Jacqueline Tomlinson

Alan and Rae Tree

Marcia Tuttle

University of Tulsa

U.S. Stone Industries LLC

Utopia Compression Corporation

Donald Vanlandingham, ECEN ’63, and Mary Vanlandingham

W&W AFCO Steel

Joe and Cynthia Wade

Walvoil Fluid Power Corp.

Thomas Wallace, ARCH ’75, and Susan Wallace

Alyssa Warner, CHE ’02, and Jeffery Warner

Steven Wear, ECEN ’85, and Judy Wear

Richard Weidner, ECEN ’78, and Mee Mong Lee

Barry West, IEM ’72, and Barbara West

WILLCO PAC

Charles Williams, ECEN ’81, and Yvonne Williams

Michael Wilcox, ECEN ’89, and Mary Wilcox

Womble Co.

Nathaniel Woody, MAE ’13

CEAT Hall of Fame inducts 3

Jack Corgan, Ed Stokes and Rao Surampalli were inducted into the CEAT Hall of Fame on Oct. 17, 2015.

JACK C. CORGAN

Jack C. Corgan can trace his family ties with Oklahoma State University back two generations.

His parents, Jack M. and Perk, both attended Oklahoma A&M, now Oklahoma State University. Elnore Gassaway, his grandmother, spent her life in Stillwater and was the varsity athletes dorm mother at Hanner Hall. By the time Jack was three months old, he had already spent the night on campus at Hanner Hall!

Corgan wanted to be an architect like his dad, so he went to OSU, where he met the love of his life, Carol, in freshman

English. After dating four years, he and Carol married, and he transferred to MIT, where he earned both undergraduate and master’s degrees. Corgan taught at the OSU School of Architecture before he joined his family’s firm in Dallas.

The firm was failing when he joined. After four years, Corgan became president and led the firm for 25 years, taking it from a local firm of eight employees to a national firm of more than 250 when he retired in 2000.

Corgan’s leadership began early: He was president of his junior high student council, Key Club, fraternity pledge class, fraternity chapter, MIT Club of Dallas, Corgan, American Institute of Architects

Dallas, chairman of The Dallas Plan organization and the CEAT “Branding Success” campaign committee. The Corgans have made significant contributions to Oklahoma State, and Jack is well known for his entrepreneurship, leadership and CEAT engagement.

ED STOKES

Edward “Ed” G. Stokes was born in Checotah, Okla., and grew up in Okemah. He earned his bachelor’s degree in civil engineering from OSU in 1975 after earning an associate degree in pre-engineering from Eastern Oklahoma State College in 1972. He earned an MBA from Houston Baptist University in 1998, graduating summa cum laude.

Stokes is a seasoned professional with a broad range of supervisory and managerial experience in the upstream and marine segments of the oil and gas

HONORARY HALL OF FAME INDUCTEES 1954–2014

1954 Laurence L. Dresser

1955 Gerald W. McCullough

1956 Richard K. Lane

1957 Thomas M. Lumly Jr.

1958 Guy H. James

1959 Francis J. Wilson

1960 Morrison B. Cunningham

1961 Lloyd E. Elkins

1962 Don McBride

1963 B. Harris Bateman

1964 William W. Caudill

1965 Myron A. Wright

1966 Charles Edwin Malzahn

1967 Eugene L. Miller

1968 David G. Murray

1969 Melvin A. Ellsworth

1970 Veldo H. Brewer

1971 Ralph M. Ball

1972 Richard O. Newman

1973 David B. Benham

1974 Carl G. Herrington

1975 James J. Kelly

1975 Gus L. Maciula

1976 Donald E. Adams

1976 James C. Phelps

1976 Fred H. Ramseur Jr.

1977 John S. Zink

1978 Sidney E. Scisson

1979 John L. Hatheway

1979 Eason H. Leonard

1979 Nicholas B. Mavris

1980 John B. Jones Jr.

1981 William J. Collins Jr.

1982 Floyd M. Bartlett

1982 H.H. McClure

1983 Bill N. Lacy

1983 George H. Lawrence

1984 Edward C. Joullian III

1984 Glenn E. Penisten

1985 Frank A. McPherson

1986 James E. Barnes

1986 Martin E. Fate

1987 Raymond A. Porter

1987 James D. Cobb

1988 Choong-Shik Cho

1988 Robert M. Penn

industry. He has visited or worked in 46 countries. His experience includes leadership roles in technical and business disciplines.

Stokes served as the Offshore Technology Conference program chairman in 2002, was elected to the board of directors in 2008 and served as board vice chairman in 2012 and 2013 and chairman in 2014 and 2015. He is the chairman of the Board of Visitors of the School of Civil and Environmental Engineering at Oklahoma State University. He also serves as a member of ConocoPhillips’ Global Marine Talent Management Team.

RAO Y. SURAMPALLI

Rao Y. Surampalli, Ph.D., is a professional engineer, board certified environmental engineer, diplomate of the American Academy of Water Resources Engineers, fellow of the American Association for the Advancement of Science and distinguished member of the American Society of Civil Engineers. He has contributed to addressing key environmental issues facing society today, from the occurrence and fate of pharmaceuticals, antibiotics and endocrine-disrupting chemicals in water and wastewater treatment plants to climate change, biodiesel production from sewage sludge and the environmental risk posed by increasingly prevalent nanomaterials and nanotechnology.

He serves on 70 national committees, review panels or advisory boards, has chaired or co-chaired numerous conferences for ASCE and the National Science Foundation, and is a distinguished, honorary and adjunct professor of environmental engineering at 12 leading universities.

In addition, Surampalli volunteers on international humanitarian efforts for environmental protection. He has provided technical assistance, facilitated technology transfer and lent to capacity building efforts for 22 countries on four continents. He is also providing technical assistance to two villages in India for sustainable development.

1989 W. P. “Bill” Schmoe

1989 Neal A. McCaleb

1991 Jim E. Shamas

1991 David J. Tippeconnic

1992 W. Wayne Allen

1992 Robert M. Lawrence

1993 Keith E. Bailey

1993 Kenneth J. Richards

1994 Donald R. Lehman

1995 Ted E. Davis

1995 Charles L. Hardt

1996 R. Gerald Bennett

1996 Marvin M. Johnson

1997 H.E. Cobb Jr.

1997 Donald L. Wickens

1998 Ronald D. Wickens

1999 Ronald L. Calsing

1999 John C. Mihm

2000 Jim W. Bruza

2000 Sherman E. Smith

2000 Thomas W. Wallace

2001 B.N. Murali

2001 Duane Wilson

2002 Donald W. Vanlandingham

2002 Frank W. Chitwood

2003 James R. Holland Jr.

2003 Kent E. Patterson

2004 J.D. “Denny” Carreker Jr.

2004 Steven D. Hofener

2004 David Kyle

2005 James Brooks Cummins

2005 Gordon E. Eubanks Jr.

2006 Sanjiv Sidhu

2006 James L. Vining

2007 Rand Elliott

2007 Michael Damore

2008 Ronald L. Hoffman

2008 Donald D. Humphreys

2009 Charles Kridler

2009 A. Joe Mitchell Jr.

2009 Sridhar Mitta

2010 Ray O. Johnson

2011 Jeffery Fisher

2011 Lakshmaiah Ponnala

2012 Wilson Shoffner

2012 Calvin Vogt

2012 Jerry Winchester

2013 Rixio Medina

2013 Robert Schaefer

2013 Rick Webb

2014 Debbie Adams

2014 Harold Courson

2014 Jeff Hume

2014 David Timberlake

2014 Janet Weiss

Joshi named Lohmann winner

Joshi had a distinguished career for the past 30 years with General Motors Corp. (16 years) and Delphi Corp. (14 years). Delphi is a $15 billion U.S. company that split from General Motors in 1999 and is engaged in the design and manufacturing of automotive systems and components.

Joshi holds 48 U.S. and international patents for his inventions and was a three-time recipient of the Kettering Award, the highest annual award for new product innovation in GM and Delphi. He is also the winner of the Delphi President’s Award and has been inducted into the Delphi Innovation Hall of Fame.

He received a GM corporate fellowship and pursued his MBA at the Massachusetts Institute of Technology (Sloan School of Management) in 1992.

He is a life member of the OSU Alumni Association and has been supporting and guiding OSU alumni who are interested in careers in the automotive industry.

He also served as a member of the board of directors for the Niagara County Community College Foundation (Sanborn, N.Y.) for five years and helped students who could not afford a university education attend community college.

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Outstanding CEAT Seniors

THREE SENIORS HAVE BEEN NAMED OUTSTANDING SENIORS FOR THE CLASS OF 2016 IN THE COLLEGE OF ENGINEERING, ARCHITECTURE AND TECHNOLOGY: JOHN HIETT, CONNOR MOJO AND EMMA ORTH.

JOHN HIETT

Class of 2016 Outstanding

Senior John Hiett graduated in May with a bachelor’s degree in chemical engineering and pre-medical studies.

At OSU, Hiett was a Senior of Significance, served as the CEAT Student Council president and freshman council coordinator and as a member of the OSU Student Foundation and OSU Mortarboard.

He also volunteered in the emergency room, surgery center and information center at Stillwater Medical Center, and on multiple philanthropic community events such as the polar plunge and Big Event.

His academic honors include being named an Oklahoma State Higher Education Regents Scholar, Mark and Lee Ann Dickerson Engineering Scholar and Dr. Esber Shaheen Scholar. He is an inductee of the Phi Kappa Phi Honor Society and Alpha Epsilon Delta Honor Society.

“The friendships that I have made and the relationships that have been formed at Oklahoma State University are the things I cherish the most; I owe a deep gratitude to all of my friends, family, professors and mentors who have allowed me to become who I am today,” says Heitt. “There is no success without support, and this university continually astounds me with how well it supports its students. Go Pokes!”

Hiett plans to attend medical school at the Texas A&M College of Medicine and enter the field of dermatology.

CONNOR MOJO

Connor Mojo is an industrial engineering and management major from Bakersfield, Calif.

At OSU, Mojo served as the Institute of Industrial Engineers president and vice president, Blue Key Honor society vice president, OSU Student Foundation vice president and stewardship chair,

Rooted Conferences finance chair and CEAT senator for SGA Senate.

He has received the 2015 IEM Undergraduate Student award, the General Honors College award and was named a Top 20 Freshman Man, CEAT Scholar, Phillips 66 Shield scholar and an OSU Senior of Significance.

Mojo went to Italy on a spring break study-abroad trip with CEAT, did mission work in Addis Ababa, Ethiopia and traveled to Japan with the

CEAT scholars program. He frequently attended Overflow at LifeChurch, was a part of multiple Bible studies and mentorship programs and regularly attended Eagle Heights Baptist Church in Stillwater.

“I have been very fortunate with the amazing opportunities OSU and the IEM department have given me,” says Mojo. “Growing up, I was always confused by my dad’s passion for OSU, but I am glad to say I now completely understand how someone can be so passionate about this

school. I love OSU and will cherish the memories I made here for the rest of my life.”

He is now a buyer for Phillips 66 in Bartlesville, Okla., as part of the Procurement New Hire Rotation Program.

EMMA ORTH

Emma Orth, a chemical engineering senior, is the daughter of Ted and Jamie Orth of Andale, Kan.

At OSU, Orth played a leading role in the reorganization and expansion of the

CEAT Ambassadors Program, which promotes both CEAT and STEM education to prospective students. She also served two terms as the vice president of finance for CEAT Student Council and allocated funding for the creation of a new student scholarship.

The Senior of Significance was a CEAT Scholar, served as chief administrative officer for the Beta Zeta chapter of Kappa Alpha Theta and worked as a teaching assistant for the biosystems and agricultural engineering and chemical engineering departments.

In her sophomore year, Orth studied in Montpellier, France, as part of the CEAT study-abroad program. She also traveled to Japan with the CEAT Scholars. Orth completed summer internships with Zeeco Inc. and ExxonMobil.

She is a member of the Order of Omega Honor Society and Tau Beta Pi Engineering Honor Society. She placed second in the R.N. Maddox Chemical Engineering Design contest and th first in the Phillips 66 Design Contest.

“My experience at OSU would not have been possible without financial assistance from the university, college and department of chemical engineering,” says Orth. “I would like to express my sincerest gratitude to the alumni who have so generously supported Oklahoma State University, and I look forward to continuing their legacy of service and leadership for the rest of my career.”

Orth is now working for ExxonMobil in Baytown, Texas.

3 represent CEAT in 3MT contest

ZEEL MAHESHWARI won first place in the 3MT Competition for the College of Engineering, Architecture and Technology with her thesis concentrated on smart integrated renewable energy systems (SIRES) for rural communities.

Her goal is to “energize” rural areas, not just “electrify” them. Smart integrated renewable energy systems provide basic needs such as biogas for cooking, water for domestic use and irrigation, and electricity for lighting, communication, cold storage, educational and smallscale industrial purposes by smartly matching the needs with available resources. The low-cost, renewable technologies and intelligent energy management systems would promote sustainable socio-economic development and improve the living environment.

Maheshwari is a doctoral student studying electrical and computer engineering. She received her bachelor’s

degree in electrical and electronics engineering from B.V. Bhoomaraddi College of Engineering and Technology (affiliated with Vishveshwaraya Technological University), India, in 2011, and completed her master’s degree in electrical and computer engineering at OSU in December 2013.

SAEED PIRI won second place for his research in health care analytics.

His dissertation involves developing a clinical decision support system for diabetic patients. His research group has access to Cerner Health Facts®, one of the largest health databases in the United States. Analyzing the data of more than 2 million diabetic patients using statistical and data mining techniques has allowed them to develop several predictive models that could detect and diagnose diabetic retinopathy. The next stage of his research involves suggesting the best course to manage the disease, which will be the result of

the decision support system he is developing. He plans to utilize optimization and simulation techniques to help physicians and clinicians apply optimal interventions for their patients.

Piri is a third-year doctoral student studying industrial engineering and management. He received both his undergraduate and master’s degrees in industrial and system engineering from universities in his native Iran. His bachelor’s degree is from the Amirkabir University of Technology, and his master’s is from the Sharif University of Technology.

KEVIN ROEHM won third place for his research on 3D printing nerves.

His thesis focused on the creation of a three-dimensional printer that could print living cells contained in unique ink he has developed in his laboratory. He is focused on increasing the number of cells that survive the printing process undamaged and investigating the interactions between the different cells printed in adjacent fibers.

Roehm is a second-year doctoral student studying chemical engineering. He received in his bachelor’s in biosystems engineering with a biomedical option and master’s in chemical engineering from OSU.

THREE MINUTE THESIS (3MT®) is a research communication competition developed by the University of Queensland. The exercise challenges research degree students to present a compelling oration on their thesis/dissertation topic and its significance in just three minutes using just one static slide.

3MT® develops academic, presentation and research communication skills and supports the development of research students’ capacity to explain their research effectively in language appropriate to a nonspecialist audience.

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