South Dakota Mines has created a new multidisciplinary Center for Sustainable Solutions. The center will be a hub for research and development around sustainability including water quality, emerging contaminants, agriculture, infrastructure, carbon capture, biofuels, bioplastics, environmental stewardship and more.

“As society faces increasingly complex problems, providing sustainable solutions requires integrative partnerships and approaches that build convergence of many disciplines with research and support for stakeholders at all levels,” says Lisa Kunza, Ph.D., an associate professor in the Department of Chemistry, Biology and Health Sciences and the director of the new center at Mines.

In the last five years leading up to establishing the Center for Sustainable Solutions, there have been nearly 50 faculty and researchers from eight departments on campus participating in the efforts. “As an institution of higher education, it is imperative to have many graduate and undergraduate students trained in the collaborative environment that the Center for Sustainable Solutions provides while tying the innovative efforts to support the needs of the people,” says Kunza.

The center will help serve the needs of a wide range of partners, from assisting the Department of Defense (DoD) in mitigating emerging ...

Sliding on ice at speeds exceeding 90 mph is terrifying for most people, but the USA Luge team is seeking assistance from the U.S. Army Engineer Research and Development Center (ERDC) along with academic and industry leaders to go even faster.

In the sport’s rule book, luge is afforded a great deal of engineering leeway to customize their sleds and runners. They have their own team of technicians to manufacture the sleds, and athletes routinely engage in the design/build process making luge not only a competition of technique but also one of technology.

It’s all about moving fast on ice, and as such, the team reached out to Dr. Emily Asenath-Smith, lead of the Ice Adhesion Facility at ERDC’s Cold Regions Research and Engineering Laboratory (CRREL).

“We first started discussions about high-speed ice friction research about six years ago,” said Asenath-Smith. “Ice adhesion and ice friction are both interface phenomena. They are essentially ice interacting with materials, and they are very related research areas."

“CRREL has worked in this space for a number of years,” she added. “The Army cares a lot about ice friction — whether they are pulling sleds in cold regions or driving vehicles across frozen ground.”

Unfortunately, when USA Luge first contacted Asenath-Smith, there wasn’t enough time to develop a productive collaboration.

“They were getting ready for the 20...

Cows, as many people know, have four stomachs. Cows also generate lots of methane.  So, if your goal is to describe a machine that turns food waste and cardboard into methane gas, the bovine digestive system is an analogy that makes some sense.  

“Our reactor is some ways a two-stomach cow,” says Jorge Gonzalez-Estrella, a post-doctoral research associate in the Chemical and Biological Engineering Department at Mines.

Gonzalez-Estrella is one of the researchers working on the Gas Cube project.  The semi-trailer-sized reactor is much larger than a cow, but it’s still portable. It’s one of the projects in development at Mines aimed at turning a range of remote base waste into energy. This is all thanks to a $4.8 million grant from the United States Air Force, $1.2 million of which funds the Gas Cube.  A remote Air Force Base can produce lots of waste. The Air Force seeks to save waste handling and fuel costs at mission-based remote bases. This is a challenge that the Gas Cube is designed to overcome. 

How does it work?  Back to the cow analogy. At the Gas Cube’s input, or mouth, a shredder grinds up the solid cardboard or food waste and deposits it in chamber number one. This is sort of like a cow chewing and swallowing its food. Then in that first chamber, or stomach number one, hydrolytic microorganisms break down the mix of food waste and cardboard into sugars, and fermenting microbes then break up those su...