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The Bioenergy Feedstock Library contains no books. What it does contain is information about biomass — organic material such as corn stover, switchgrass, wood chips and wheat straw. Nearly 50,000 biomass database entries and more than 35,000 physical samples reside in a repository located at the Department of Energy's Biomass Feedstock National User Facility.

The library got its start in 2009, when Idaho National Laboratory lab technician Marnie Cortez got a strange assignment: Go to an eastern Idaho field and organize hundreds of boxes of biomass.

There were cargo containers full of biomass samples,†she said.

The samples came from efforts to develop new technologies that turn raw biomass into processed material — called feedstock — that is easily stored, transported and converted into renewable energy.

Over the next few years, the samples and database became known as the Bioenergy Feedstock Library, and Cortez got a new title: librarian.

Now, the library is taking another leap forward. Upgrades are turning it into a global research and development tool.

The Energy Department estimates that by 2030, the U.S. could produce 1.1 billion tons of biomass for energy production, enough to offset 30 percent of the nation's current petroleum needs.

But complex technical challenges stand in the way of turning that possibility into reality. One culprit stands out: variability. Two bales of corn stover harvested from the same field may have vastly different chemical and physical characteristics.

These differences — moisture or ash content, for example — cause headaches for bioenergy developers, including inconsistent particle sizes, clogged augers and problems during conversion.

The library is an extensive source of information for researchers attempting to solve such challenges, for example, by developing new biomass processing technologies to make bioenergy feedstocks more consistent. Processing can include drying, chemical treatments and forming biomass into pellets.

Researchers often investigate samples at each step in the process to learn more about their chemical and physical properties. The library offers searchable access to data from these intermediate samples and the ultimate end product.

The resulting information can help ind...