Green Car Congress

FEBRUARY 14, 2009

A US Department of Energy (DOE) team of regional partners has begun injecting carbon dioxide into coal seams in the Central Appalachian Basin to determine the feasibility of CO 2 storage in unmineable coal seams and the potential for enhanced coalbed methane recovery. feet in thickness. trillion cubic feet.

Virginia 150

Virginia Coal West Virginia CO2 150

Green Car Congress

JUNE 21, 2010

Earlier, an existing coalbed methane well operated by El Paso Exploration & Production had been converted for CO 2 injection, and four wells drilled to monitor reservoir pressure, gas composition, water quality, and the CO 2 plume. Coal in the Black Warrior Basin has the potential to sequester 1.1 gigatons to 2.3

Alabama 186

Alabama El Paso CO2 Mississippi 186

Green Car Congress

APRIL 30, 2010

Today’s technologies for making biofuels all rely on photosynthesis—either indirectly by converting plants to fuels or directly by harnessing photosynthetic organisms such as algae. This process is less than 1% efficient at converting sunlight to stored chemical energy. Electrofuels: Biofuels from Electricity. Engineering E.

Carbon 249

Carbon Li-ion Batteries Battery 249

Green Car Congress

DECEMBER 23, 2016

Department of Energy’s Savannah River National Laboratory in South Carolina and the Georgia Institute of Technology in Atlanta. The so-called autothermal process increases the rate that biomass can be converted to products, allowing construction of smaller and simpler reactors suitable for modular systems.

Iowa 150

Iowa USA Manufacturer St. Louis 150

Green Car Congress

MARCH 15, 2010

Osage Bio Energy (OBE) is a Virginia-based company that will use regional grain, primarily winter barley, to produce ethanol and high value co-products for East Coast markets via a fairly conventional pathway of converting starch to sugar, followed by fermentation. Longer term, OBE expects to have as many as four plants in the Mid-Atlantic.

Energy 186

Energy EPA Virginia Carbon 186

Green Car Congress

AUGUST 7, 2009

Dramatically increase our fundamental knowledge of the physical structure of biopolymers in plant cell walls to provide a basis for improved methods for converting biomass into fuels. Discover, understand, and control efficient chemical pathways for the conversion of coal and biomass into chemicals and fuels. Purdue University.

Energy 150

Energy Energy Storage Conversion Universal 150