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Purdue Engineers Proposing Mobile Biomass to Biofuels Plants Using H2Bioil Process

Chemical engineers at Purdue University have developed a new method to process agricultural waste and other biomass into biofuels— fast-hydropyrolysis-hydrodeoxygenation, called the H2Bioil process (earlier post)—and are proposing the creation of mobile processing plants that would rove the Midwest to produce the fuels.

The approach sidesteps a fundamental economic hurdle in biofuels: Transporting biomass is expensive because of its bulk volume, whereas liquid fuel from biomass is far more economical to transport, said Rakesh Agrawal, the Winthrop E. Stone Distinguished Professor of Chemical Engineering.

Material like corn stover and wood chips has low energy density. It makes more sense to process biomass into liquid fuel with a mobile platform and then take this fuel to a central refinery for further processing before using it in internal combustion engines.

—Rakesh Agrawal

The H2Bioil process works by adding hydrogen into a high-pressure biomass-processing reactor subjected to extremely fast heating, rising to as hot as 500 °C (932 °F) in less than a second. The hydrogen for the mobile plants would be reformed from natural gas or from a syngas from the gasification of the biomass itself. However, Agrawal envisions the future use of solar power to produce the hydrogen by splitting water, making the new technology entirely renewable.

The new method would produce about twice as much biofuel as current technologies when hydrogen is derived from natural gas and 1.5 times the liquid fuel when hydrogen is derived from a portion of the biomass itself.

The biomass will break down into smaller molecules in the presence of hot hydrogen and suitable catalysts. The reaction products will then be subsequently condensed into liquid oil for eventual use as fuel. The uncondensed light gases such as methane, carbon monoxide, hydrogen and carbon dioxide, are separated and recycled back to the biomass reactor and the reformer.

—Rakesh Agrawal

Purdue has filed a patent application on the method.

The researchers previously developed an approach called a “hybrid hydrogen-carbon process,” or H2CAR. Both H2CAR and H2Bioil use additional hydrogen to boost the liquid-fuel yield. However, H2Bioil is more economical and mobile than H2CAR, according to former chemical engineering doctoral student Navneet R. Singh.

The research was funded by the US Department of Energy, the National Science Foundation and the US Air Force Office of Scientific Research, and is affiliated with the Energy Center at Purdue’s Discovery Park.



Research driven by practical economic considerations - I like it!


"with a mobile platform"

Take the plant to the biomass. I proposed plants all across the farm belt every 10 mile by 10 mile area. The average distance to transport biomass is about 5 miles. 100 square miles is more than 60,000 acres or enough for more than 6 million gallons of fuel per year per plant.


Good on this idea. And for urban areas roaming used-oils & waste processing plants could be viable.


Cleaner, lower cost methods to convert wastes into usable liquid fuel would be an acceptable way to reduce crude imports.

Would these plants be able to convert domestic and industrial wastes? If so, every city and town should have at least one plant (or more) running 24/7.


Gas Flaring:

"A world bank review states that over 5.3 trillion cubic feet of natural gas are wasted annually, which equals about 25% of the United States total gas consumption."


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