UofL’s ‘energy crops’ harvested for research

Andrew Marsh
Andrew Marsh

Someday, a 3-D printed medical implant made from hemp oil may save your life, or a hemp-based biofuel may power your vehicle.

Those are just the tip of the iceberg of possible outcomes of work being done at the University of Louisville’s Conn Center for Renewable Energy Research, where on Oct. 31 and Nov. 1 students and staff harvested “energy crops” planted near the J.B. Speed School of Engineering.

2017 marked the second year that hemp and kenaf, an African fiber plant, were planted near Phoenix House, the Conn Center’s solar-powered administrative office building. The plants were an unusual site along the Eastern Parkway overpass, where they were sown in May and were the background of many a selfie.

The plants, both highly suitable to Kentucky’s growing conditions, are part of the Conn Center’s research into biofuels and biomass conversions. The UofL crop was one of eight at Kentucky colleges and universities grown as part of the state’s pilot program into field-scale industrial hemp, but the only one that will be used for energy research.

Industrial hemp is a variety of Cannabis sativa and is of the same plant species of marijuana. However it doesn’t contain high levels of THC, the psychoactive chemical found in marijuana that causes the marijuana high. Both hemp and marijuana are classified as Schedule 1 drugs under the Controlled Substances Act, and are illegal to produce in the United States.

In Kentucky, only those who are part of a Department of Agriculture research program into field-scale industrial hemp production may grow hemp. More than 3,200 acres of industrial hemp was grown in Kentucky in 2017, the department said.

The UofL crop expanded this year to a total area of just over one tenth of an acre, said Andrew Marsh, assistant director of the Conn Center.

The Conn Center’s hemp/kenaf crops were planted near Eastern Parkway, making an unusual sight for those walking along the path to and from the J.B. Speed School of Engineering.

Marsh planted the seeds in three plantings beginning in May. He had help from groundskeepers from Physical Plant and researchers from the University of Kentucky’s industrial hemp program.

After cutting down the plants, Marsh and students bundled and transported them to the Conn Center’s Science & Innovation Garage for Manufacturing Advancement, where they will dry.

“Once dried, the Conn Center’s Biofuels & Biomass Conversion group, led by Jagannadh Satyavolu, and faculty from chemical engineering, such as Noppadon Sathitsuksanoh, will work with the biomass,” Marsh said.  

Andrew Marsh

Marsh said the center plans to expand the crop in 2018 and hopes to improve soil quality to ensure the plants do well in their urban environment.

“In 2016 and 2017, the tendencies of different seed types to prosper in our climate and soil conditions over those that do not have become apparent,” Marsh said. “So far, we have been growing in unconditioned ‘urban clay,’ not farm soils. This year gave a better look at the nutrient deficiencies, so 2018 will include soil-conditioning strategies. There are hemp varieties that we grew that just didn’t do very well with our mix of soil, available nutrient and water, but others did great. We’ll be diversifying our seed types next year too, looking for greater yield with minimal soil modifications. This was our first full season of growing, and the results are pretty good for both kenaf and hemp.”            

The state’s hemp research program is looking into whether hemp can once again become an economic driver in the state, where it was once grown primarily for making rope.

Satyavolu, the center’s leader for biofuels and biomass conversion, along with assistant chemical engineering professor Sathitsuksanoh and students, are studying whether hurd, the innor core of the hemp plant stem, has potential for use in fuels, chemicals and polymers. Hurd is a byproduct after the outer fibers of the hemp are removed.

About the Conn Center’s research

The Conn Center research is specifically focused on

  1. Converting hemp into high value, functionalized carbons that can be used as catalyst supports and energy storage media
  2. Transforming hemp seed oil into biocompatible resins for 3-D printed medical implants
  3. Extracting sugars from hemp to convert into diesel additives and other chemicals.

In collaboration with the state, UofL established the Conn Center for Renewable Energy Research at the J.B. Speed School of Engineering in 2009. The center leads research that increases homegrown energy sources to meet the national need while reducing energy consumption and dependence on foreign oil. The center promotes partnerships among Kentucky’s colleges and universities, private industries and non-profit organizations to actively pursue federally and privately funded R&D resources dedicated to renewable energy solutions.

Researchers at the Conn Center are studying advanced energy materials manufacturing; solar energy conversion; renewable energy storage; biofuels/biomass conversions; and energy efficiency and conservation.

Mahendra Sunkara is director of the center, named in honor of Henry “Hank” and Rebecca Conn, who pledged $20 million for its formation. Hank Conn is a UofL alumnus who received his bachelor’s and master’s degrees in mechanical engineering from the Speed School and also an MBA from the College of Business.

Check out more about this year’s harvesting process in the video below:

Source: UofL’s ‘energy crops’ harvested for research (UofL News, Nov. 1, 2017)