Tag Archives: potential
Perennial Potential: Wheatgrass Shows Promise As Biofuel, Food
Posted: 12:57 pm Fri, October 18, 2013 By Todd Nelson University of Minnesota researchers are working to domesticate a perennial grain crop known as intermediate wheatgrass that one day could appear in your car’s fuel tank, your pantry or even distinctive new craft brews. Intermediate wheatgrass, which is related to wheat, rye and barley, has the potential to be the first perennial crop to produce both biomass for energy and grain for food, according to Donald Wyse, a professor of agronomy and plant genetics in the University of Minnesota’s College of Food, Agricultural and Natural Resource Sciences. “It’s a species that has a wide range of possibilities,” Wyse said of intermediate wheatgrass, which also has value as forage for cattle. “To get this material out there it has to have that level of flexibility, it has to create some profit for somebody for that to happen.” As a biofuel, intermediate wheatgrass straw is a promising northern-climate alternative to switchgrass, a warm season perennial, according to a report from the U of M’s Center for Integrated Natural Resources and Agricultural Management, which Wyse co-directs. Perennial grain biofuel crops such as intermediate wheatgrass also offer significant environmental benefits, including reducing soil erosion and the release of soil carbon, Wyse said. Further, they require less energy, pesticide and fossil-fuel based fertilizer to produce than annual grain crops. Intermediate wheatgrass, however, faces the same market challenge as many other biofuel sources, Wyse said, in the form of cheap natural gas. “This plant produces a lot of biomass,” Wyse said. “As renewable fuels develop, we’re there, we’re ready to go. This plant would fit directly into that supply, but that’s not going to carry it. You know how much they want to pay for biomass — they’re not going to pay very much.” To overcome that, Wyse and other researchers are working to improve intermediate wheatgrass as a food source, concentrating on increasing both yield and seed size. A primary aim is to produce a perennial grain that will compete with annual crops such as corn, soybeans and wheat. “The grain’s going to carry the system,” Wyse said. “Because it’s competing for land you’re planting corn, soybeans and wheat on, so it has to have close to that same yield and return on investment.” Intermediate wheatgrass already has drawn interest from three food companies, including a major one based in the Twin Cities, and from five breweries, based both in Minnesota and in California, Wyse said. Food companies see potential in building product lines that incorporate intermediate wheatgrass and tout its environmental benefits, Wyse said. Specialty food marketers, meanwhile, believe they can charge a premium for intermediate wheatgrass-based products, citing the environmental positives and the potential to produce the grain organically. One hundred acres of intermediate wheatgrass have been planted at the U of M’s Rosemount Research and Outreach Center, and researchers are giving away the seed to food companies to evaluate, Wyse said. “We’re working with a company that’s interested in making a food product out of this grain that’s currently being grown at Rosemount,” Wyse said. “They’re looking at developing a product over the next year. They’re hoping to have enough grain produced from that 100 acres to do a small release of a product on a really limited basis next year.” Craft brewers already have tested intermediate wheatgrass in new brews, Wyse said. “These small breweries that are developing around the country, they’re looking for uniqueness,” Wyse said. “We’re hearing back from brewers that it produces a nice flavor in the beer that their customers really like. They’re really excited about it.” The intermediate wheatgrass development project received a $695,000 grant in 2011 from the U of M’s Initiative for Renewable Energy and the Environment. Food companies are handling product development costs, Wyse said, adding that he expected at least one to invest in the work. He estimated that the effort would need $250,000 a year over the next five years to continue genetic and environmental research on the plant, although he emphasized that today’s lines are ready for commercial use. “We need another five to six years to put the best product out there in the landscape and into the marketplace but the materials now are adequate for consideration in the food system and they’re more than ideal for producing the (environmental benefits) we would expect,” Wyse said. “And obviously, the biomass could also be used as the technology develops.” Collaborating in the research is the plant breeder Lee DeHaan of the Land Institute, a Kansas-based nonprofit, who has been studying intermediate wheatgrass for a decade and was a graduate student of Wyse. DeHaan said he is focusing on developing intermediate wheatgrass plants that produce larger seeds and higher seed yield, which would improve its harvestability and boost potential biofuel use. “If we can get the system to yield a maximal amount of grain, then the biomass will become relatively affordable, because then it’s just a byproduct of the grain production system and only has to cover the cost of harvesting it to make a profit,” Wyse said. “We need to get the grain part working, then the biomass part can follow, whether it’s converted to a liquid fuel, burned or put into a cow.” Read more: http://finance-comme…/#ixzz2iLqGcGkh Continue reading
Calculator Estimates Biomass Potential
Matthew Weaver Published: October 10. 2013 Matthew Weaver/Capital Press University of Washington research scientist and engineer Luke Rogers demonstrates use of the biomass calculator during a workshop Oct. 9 in Spokane. A biomass calculator is designed to help determine the amount of woody biomass available for potential biofuel development. University of Washington research scientist and engineer Luke Rogers says the tool helps determine the viability of bringing in a biofuel facility. The tool also indicates that the U.S. Forest Service needs to step up forest health efforts if they are to have an impact. SPOKANE — A new calculator can be used to estimate the amount of biomass materials available on forest lands. University of Washington research scientist and engineer Luke Rogers developed the calculator as part of the Washington Forest Biomass Supply Assessment in 2012. The calculator determines the amount of material that would be left over after a commercial timber harvest, Rogers said. That material is typically left behind or burned. Potential users include investors interested in building a new biomass facility or infrastructure like chippers to remove material from the forest land, policy makers supporting legislation to help the biomass industry and the DNR. The calculator shows that if the U.S. Forest Service doubles or triples its current program to treat federal forest lands in Washington, it could “substantially resolve” the majority of forest health issues on eligible lands by 2025 or 2030, Rogers said. “The existing program of treating about 6,000 acres a year doesn’t ever get us to the point where we’ve tackled the majority of forest health issues,” he said. “There needs to be some more aggressive treatments going on in order to get us there any time soon.” The calculator is meant for a watershed scale or larger. It has less use for private landowners, Rogers said, because it’s impossible to model individual landowners and their specific operations. But the tool could be useful to a group of landowners interested in developing a new industry on a countywide or watershed-wide basis. Rogers said landowners could compare the cost of the current practice of burning slash piles, including obtaining air quality permits, to bringing in somebody to take the material to a biofuel facility. “Even if you had to pay to have somebody come in and do that, and it was less than you’re paying now to get your air quality permits and pay to burn, that would be a win as well,” Rogers said. “There is a real opportunity for landowners to be able to change the way they do business and provide a product, rather than carbon into the atmosphere and smoke.” He sees the calculator as a good start toward understanding the floor-source biomass available in Washington. Future companion tools could be expanded to hardwood biofuels, such as planting short-rotation poplars, and all agricultural, municipal or construction wastes as feedstock for biofuels. Online http://wabiomass.cfr.washington.edu – See more at: http://www.capitalpress.com/article/20131010/ARTICLE/131019987#sthash.W6RmmWse.dpuf Continue reading
Bulgaria Has Big Potential For Biomass Energy Production
October 7, 2013 Photo by globalresourceadvisorsllc.com Energy consumption in Bulgaria will double by 2035 and a possible increase in biomass production could be a way to meet growing demand for electricity . Bulgaria has huge potential for biomass production and could benefit from it to satisfy its future energy needs, according to Royal Dutch Shell expert, Vim Thomas. Thomas recently presented in Sofia an analysis on energy needs and consumption in the next 20 years. Bulgaria’s energy consumption will double in the next 20 years and the country’s energy strategy will depend on a choice made between two main scenarios, pointed out the expert. The first scenario is that a political elite will made the important decisions regarding Bulgaria’s energy policy, while the second one is that a business elite will be in charge of the country’s energy strategy. Bulgaria’s increased demand for electricity in the future will be either met by nuclear power and natural gas, if politicians will make the calls, or by coal-fired plants, which will become main sources of energy , if it’s up to business to make the decisions on energy development, said Thomas. In both cases, Bulgaria could benefit from developing further its renewable energy resources, such as solar and wind power , but especially biomass , because biomass is available essentially everywhere in the country, pointed out the expert. – See more at: http://www.novinite….h.ojP7rXjw.dpuf Continue reading