University of Nevada researchers look to gumweed as military aviation biofuel feedstock

On the trail of finding biofuels that could genuinely be called “sustainable”, researchers at a project at the University of Reno, in Nevada, have come up with curly top Gumweed – which is Grindelia squarrosa. The plant grows naturally in arid areas in Nevada, and along the sides of freeways. It can tolerate low levels of water, though it does need water – the university says it needs only one fifth as much as alfalfa.  The university is growing a trial crop using minimal water and fertilizer resources. After growing and harvesting the gumweed, it went through biomass processing where it was broken down to liquid that smells like tar. The hope is that the plant would not compete with land or resources for growing food or animal feed. The university claims it can “produce up to 122 gallons per acre on a biennial basis on the semi-arid lands of Nevada.” The US military is interested – they are the largest fuel consumer in the United States. The US navy is interested in using it as jet fuel. “The project received $500,000 in grant funding from the United States Department of Agriculture and has the potential to supply up to 20% of fuel demand for the military.” The project hopes if “even 10% of sagebrush-covered lands in Nevada are used to grow gumweed for aviation biofuels, 400 to 600 million gallons per year of jet biofuels could be produced.” If the price of oil rises enough.
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Roadside gumweed in Nevada could be used as jet fuel for the military

College of Ag, Biotech and Natural Resources leads research project at University of Nevada, Reno

16.11.2015
By: Whip Villarreal

Prof Glenn Miller is leading the effort in a project at the University of Nevada, Reno to convert roadside gumweed into biofuel, which could help contribute to fuel supplies for the military.

“The plant Grindelia squarosa, known as curly top gumweed, has extractable hydrocarbons with the potential use as a biodiesel or biomaterials crop,” Miller, a professor in the College of Agriculture, Biotechnology and Natural Resources, said.

“Gumweed is native in Nevada and grows on the side of freeways and, more importantly, is an arid land crop that requires less water than other substitutes like alfalfa. Alfalfa takes five feet of water to grow while gumweed uses no more than a foot of water.”

The collaborators on the project planted the gumweed at the University’s Valley Road Field Laboratory and the Main Station Field Laboratory using minimal water and fertilizer resources. After growing and harvesting the gumweed, it went through biomass processing where it was broken down to liquid that smells like tar.

“We are looking at breaking it down because it uses less water and it’s already acclimated to Nevada conditions,” Miller said. “It would be beneficial generating this arid-land crop because it doesn’t compete with food or animal feed. The primary resource for diesel fuel is soy beans and ethanol for corn which are always in direct competition with food.”

The final biofuel product from the chemical engineering process can produce up to 122 gallons per acre on a biennial basis on the semi-arid lands of Nevada. The crops would require minimum inputs of nutrients and water and have the potential to be converted into jet fuel, which has garnered the interest from the military – the largest fuel consumer in the United States.

Miller said the U.S. Navy is interested in using the biofuel as jet fuel. The project received $500,000 in grant funding from the United States Department of Agriculture and has the potential to supply up to 20% of fuel demand for the military.

“It is estimated that if even 10% of sagebrush-covered lands in Nevada are used to grow gumweed for aviation biofuels, 400 to 600 million gallons per year of jet biofuels could be produced,” Hongfei Lin, a collaborator from the College of Engineering, said. “That’s definitely incredible. There’s lots of potential.”

Lin, a professor of chemical and materials engineering is working on the project with Miller to identify a catalyst that can be used to convert biomass into fuel using an unconventional approach to biofuel production. Instead of adding hydrogen to biomass, Lin is exploring a more cost-effective manner using an oxidation process.

In nature, oxidation occurs when substances come in contact with oxygen molecules. For example, oxidation occurs when a freshly-cut apple turns brown, a bicycle fender becomes rusty or a copper penny turns green. Lin is trying to mimic the natural process for biomass deconstruction when converting the gumweed into biomatter for jet fuel.

Lin will be speaking at the American Institute of Chemical Engineers Annual Meeting in Salt Lake City where the group’s project is being presented. AIChE is the world’s leading organization for chemical engineering professionals which promotes excellence and advancement in the practice.

The highly drought- and salt-tolerant crop can be harvested twice in its second year of growth, with the first harvest in July-August when the milky white, sticky buds turn into yellow flowers. The second harvest is in early October of the same year.

The project to develop drought-tolerant energy crops capable of surviving in Nevada’s desert climate is a collaborative effort between the University of Nevada’s College of Agriculture, Biotechnology and Natural Resource and College of Engineering.

The research team includes Miller, professor of natural resources and environmental sciences, David Shintani, associate dean and professor of biochemistry and molecular biology, and Lin and Chuck Coronella, both professors in the College of Engineering.

Also included in the research team are graduate students Xiaokun Yanghe, chemical engineering major; Bishnu Neupane, and Di Ma, environmental sciences and health majors.
Miller said that the research that the three graduate student are contributing to the project is essential to the project and that they are coming up with independent ideas that are helping move the project forward very nicely.

“The efforts of Dr. Miller and his colleagues to develop new generation biofuels from gumweed and other Nevada plant species are well aligned with our efforts to establish CABNR and NAES as world leaders in sustainable dryland agriculture,” said Bill Payne, dean of the College of Agriculture, Biochemistry, and Natural Resources.

“Today’s historically low oil prices cannot last indefinitely and will eventually once again rise due to policy, limited supply, or other factors. As prices once again reach $80 or more per barrel, this type of technology will look increasingly attractive to an industrial world struggling to reduce its carbon emissions.”

http://www.unr.edu/nevada-today/news/2015/gumweed-glenn-miller


 

Wikipedia says of it:

Grindelia squarrosa is often found in disturbed roadsides, streamsides; 700–2,300 metres (2,300–7,500 ft) in elevation. It is a decumbent to erect, much-branched perennial herb of subshrub up to 100 cm (40 inches) tall. The 1.5–7 cm leaves are gray-green, crenate with each tooth having a yellow bump near its tip, and resinous.[5][7]

Grindelia squarrosaproduces numerous flower heads in open, branching arrays. Each head usually contains 12-40 yellow ray flowers, though sometimes the rays are absent. These surround many small disc flowers. The plant blooms from July through late September.[5][8][7]

Grindelia squarrosa is a notable native pollinators plant in its natural habitats, listed by the Lady Bird Johnson Wildflower Center Native Plant Information Network—NPIN, to be of “Special Value to Native Bees.”[6]

The plant concentrates selenium, and can be toxic when ingested by cattle, humans, and other mammals.[5]

Varieties

  • Grindelia squarrosa var. quasiperennis [9]
  • Grindelia squarrosa var. serrulata [10]
  • Grindelia squarrosa var. squarrosa [11] 

https://en.wikipedia.org/wiki/Grindelia_squarrosa

The plant contains the carcinogen safrole  link

 


 

University of Nevada researchers look to gumweed as military aviation biofuel feedstock

November 17, 2015
By  (Biofuels Digest)