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New process extracts pure hydrogen from contaminant in unrefined oil


ARGONNE, Ill. (Aug. 2008) — A commercial-scale process to extract and reuse pure hydrogen from the hydrogen sulfide that naturally contaminates unrefined oil, including oil sands, is one step closer to reality thanks to a collaboration between the U.S. Department of Energy’s Argonne National Laboratory and Kingston Process Metallurgy Inc. (KPM) of Kingston, Ontario.

Argonne and KPM researchers have invented a molten copper reactor, an innovative process technology that is more energy-efficient than existing methods, according to Gregory Krumdick, an engineer in Argonne’s Energy Systems Division. Moreover, the pure hydrogen gas stream that it extracts can be used to upgrade and clean crude oil and petroleum products and aid in a number of refining processes, KPM President Boyd Davis said. Krumdick, Davis, Alain Roy, KPM’s vice president of operations, and former Argonne researcher John Hryn invented the technology.

In the reactor, hydrogen sulfide gas is first separated from the crude oil stock, using technology already in place. This gas is then bubbled though molten copper, which releases pure hydrogen. The hydrogen is then captured for use as a valued product. As the sulfur reacts with the copper, the copper is gradually turned into copper sulfide.

Argonne is collaborating with KPM, a bench-scale process development firm, under a work-for-others agreement. KPM is supported in part by Natural Resources Canada (NRCan), which has provided $600,000 (Canadian) for the research over the last three years.

In addition to generating pure hydrogen, the process creates another valuable product, concentrated sulfuric acid, which is used widely in the chemical industry and which has become a valued agricultural commodity. The concentrated sulfuric acid is created when copper sulfide is reacted with air to recover the pure copper, releasing a concentrated stream of sulfur dioxide which is then reacted with water. The copper is then reused in the process with negligible losses, Krumdick said.

The reactions between the hydrogen sulfide and copper and the copper sulfide and air release energy that helps to heat the system, enabling the researchers to harvest the products efficiently, Krumdick said. The system operates at a temperature of about 1,200 degrees Celsius.

“Technologies that are in use today, including the widely used Claus process, are more energy- and capital-intensive,” Krumdick said. “In addition, they also lose the hydrogen in the process. Instead of capturing the hydrogen from the hydrogen sulfide, the Claus process ends up converting it into water.”

The multi-step Claus process was invented more than 100 years ago and is the most widely used method for removing the hydrogen sulfide that is present in crude oil and raw natural gas. The Claus process is also believed to be more limited than the Argonne-KPM process in terms of the other types of impurities it can handle. Costly energy-intensive modules that scrub other contaminants, such as ammonia, methane and carbon dioxide from raw oil and natural gas must be separately attached to Claus processing facilities.

Argonne computer modeling strongly indicated that the Argonne-KPM process would deal with those other impurities, a conclusion that was later experimentally proven. Contaminants such as ammonia and various hydrocarbons are reformed to their elemental constituents, providing an added benefit to the process, Krumdick said.

Argonne and KPM continue to scale up their experimental work to further test the process. “Our goal is to develop a pilot scale reactor,” Krumdick said. “If a pilot plant demonstrates that the process is a major improvement over existing technology – and we believe it is – it will spur the interest of industries that use a process to separate hydrogen sulfide,” Davis added.

“Companies will be able to retrofit their facilities with the process technology or construct new plants that incorporate it,” Davis added. “In the meantime, we are working with Argonne to use the technology for other energy applications, such as gas cleanup for Integrated Gassification Combined Cycle plants.”

Argonne and KPM began working on the technology in 2003 as a laboratory-directed research and development proof-of-concept project.

Kingston Process Metallurgy is an industrial process research and development company. It focuses on providing quantitative data to support the development of novel processes and explores business opportunities in collaboration with customers and partners. It has clients from around the world who use KPM’s expertise in process development and laboratory experimentation.

Natural Resources Canada (NRCan) works to ensure the responsible development of Canada’s natural resources, including energy, forests, minerals and metals. It has expertise in earth sciences that it uses to build and maintain an up-to-date knowledge base of Canada’s landmass and resources. NRCan develops policies and programs that enhance the contribution of the natural resources sector to the economy and improve the quality of life of residents, and represents Canada at the international level to meet the country’s global commitments related to natural resources.

Argonne National Laboratory brings the world’s brightest scientists and engineers together to find exciting and creative new solutions to pressing national problems in science and technology. The nation’s first national laboratory, Argonne conducts leading-edge basic and applied scientific research in virtually every scientific discipline. Argonne researchers work closely with researchers from hundreds of companies, universities, and federal, state and municipal agencies to help them solve their specific problems, advance America ’s scientific leadership and prepare the nation for a better future. With employees from more than 60 nations, Argonne is managed by UChicago Argonne, LLC for the U.S. Department of Energy’s Office of Science.

By Jared Sagoff.


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