ExxonMobil and FuelCell Energy advancing carbon capture
Published by Harleigh Hobbs,
FuelCell Energy Inc. and Exxon Mobil Corp. have concluded an agreement where the companies will work together to pursue novel technology in power plant carbon dioxide capture through a new application of carbonate fuel cells, which could substantially reduce costs and lead to a more economical pathway toward large-scale application globally.
"Advancing economic and sustainable technologies to capture carbon dioxide from large emitters, such as power plants, is an important part of ExxonMobil's suite of research into lower-emissions solutions to mitigate the risk of climate change," said Vijay Swarup, Vice President for Research and Development at ExxonMobil Research & Engineering Company. "Our scientists saw the potential for this exciting technology for use at natural gas power plants to enhance the viability of carbon capture and sequestration while at the same time generating additional electricity. We sought the industry leaders in carbonate fuel-cell technology to test its application in pilot stages to help confirm what our researchers saw in the lab over the last two years."
Chip Bottone, President and CEO of FuelCell Energy, Inc., said his company is pleased to bring its global leadership in the development of carbonate fuel cells to this project.
"Carbon capture with carbonate fuel cells is a potential game-changer for affordably and efficiently concentrating carbon dioxide for large-scale gas and coal-fired power plants," Bottone said. "Ultra-clean and efficient power generation is a key attribute of fuel cells and the carbon capture configuration has the added benefit of eliminating approximately 70%p of the smog-producing nitrogen oxide generated by the combustion process of these large-scale power plants."
Two years of comprehensive laboratory tests have demonstrated that the unique integration of two existing technologies — carbonate fuel cells and natural gas-fired power generation — captures carbon dioxide more efficiently than existing scrubber conventional capture technology. The potential breakthrough comes from an increase in electrical output using the fuel cells, which generate power, compared to a nearly equivalent decrease in electricity using conventional technology.
The resulting net benefit has the potential to substantially reduce costs associated with carbon capture for natural gas-fired power generation, compared to the expected costs associated with conventional separation technology. A key component of the research will be to validate initial projected savings of up to one-third.
The scope of the agreement between ExxonMobil and FuelCell Energy will initially focus for about one to two years on how to further increase efficiency in separating and concentrating carbon dioxide from the exhaust of natural gas-fired power turbines. Depending on reaching several milestones, the second phase will more comprehensively test the technology for another one to two years in a small-scale pilot project prior to integration at a larger-scale pilot facility.
ExxonMobil is a leader in carbon capture and sequestration and has extensive experience in all of the component technologies of carbon capture and storage, including participation in several carbon dioxide injection projects over the last three decades. In 2015, ExxonMobil captured 6.9 million t of carbon dioxide for sequestration – the equivalent of eliminating the annual greenhouse gas emissions of more than 1 million passenger vehicles.
"We are continually researching technologies that have an ability to reduce carbon dioxide emissions," Swarup said. "Most solutions that can make an impact of the scale that is required are not found overnight. Our research with FuelCell Energy will be conducted methodically to ensure that all paths toward viability are explored."
Using fuel cells to capture carbon dioxide from power plants results in reduced emissions and increased power generation. In the carbon capture context, power plant exhaust is directed to the fuel cell, replacing air that is normally used in combination with natural gas during the fuel cell power generation process. As the fuel cell generates power, the carbon dioxide becomes more concentrated, allowing it to be more easily and affordably captured from the cell's exhaust and stored.
Edited from press releases by Harleigh Hobbs
Read the article online at: https://www.worldcoal.com/power/09052016/exxonmobil-and-fuelcell-energy-advancing-carbon-capture-734/
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