Wittich Aims to Strengthen Grain Bins Against Earthquakes, Wind Storms

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Christine Wittich, assistant professor of civil and environmental engineering, has received a five-year, $615,387 Faculty Early Career Development Program award grant from the National Science Foundation to improve the structural engineering of steel grain bins. (Photo by Craig Chandler, University Communication and Marketing)

Wittich Aims to Strengthen Grain Bins Against Earthquakes, Wind Storms

When people think of structural engineering perils, they tend to imagine big-city bridges, skyscrapers and the like, but rural America has key vulnerabilities that could cause major economic upheaval regionally and even nationally.

A University of Nebraska–Lincoln researcher is focusing on a specific piece of structural engineering so ubiquitous across rural America, they are barely noticed — the humble steel grain bin.

Christine Wittich, assistant professor of civil and environmental engineering, has received a five-year, $615,387 Faculty Early Career Development Program award grant from the National Science Foundation to conduct this research.

With her CAREER award, Wittich aims to improve the resilience of rural infrastructure and communities in the face of natural disasters such as wind storms and earthquakes. She’s also integrating an education component to encourage rural students, who are generally less likely to go into engineering as a career, to see opportunities in the field right at home.

The project is an outgrowth of Wittich’s earlier research in the wake of a derecho that hit parts of Iowa in 2020. That storm caused an estimated $11 billion in damage, making it the most damaging thunderstorm event in American history. Much of that damage came to steel grain bins, with some 57 million bushels of stored grain destroyed.

Wittich began her career in California, where earthquake damage to statues was her initial interest. When she came to Nebraska in 2017, she noticed grain bins and center pivot irrigation systems as rural vulnerabilities.

“I was pretty quickly introduced to wind storms … I got interested in rural damage. These structures seemed fairly vulnerable,” and not much research was being done, Wittich said.

There are an estimated 750,000 grain bins across the country; they are designed to hold up to internal pressures, not winds or earthquakes. The failure of a single bin can lead to losses exceeding $250,000, not including the bin itself. To make matters worse, crop insurance policies do not typically cover stored grain.

The bins are a key piece of infrastructure in America’s agricultural economy and the food security of people across the nation and the world, Wittich said. They are susceptible to a range of damage, from even fairly moderate winds or earthquakes, from wall or roof buckling, to complete collapse and destruction.

“There is a critical need to understand the response of these agricultural infrastructure systems under extreme loads and to evaluate the role of these systems within rural community resilience,” she said.

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