The pilot will help determine the operating limits of the proprietary process, which relies on a patented catalyst to selectively crack methane and produce structured graphitic platelet fibers and pure hydrogen, with no other byproducts.
The press material on this launch is interesting. The company believes itself to be the first to produce carbon nanomaterials on a large scale from methane. To further distinguish itself from its competitors, however, "management has made a conscientious decision to embrace a corporate social responsibility and sustainability attitude and therefore optimize, rather than maximize, profits by using renewable sources of methane, such as landfill gas and biogas, for feed materials," says the company's press release.
"Previously, we have operated a commercial-scale nanofiber plant using natural gas as the feed. We wanted to use this 'downtime' in the economy to achieve our next milestone of using renewable sources of methane as the feed to produce 'green' nanofibers and hydrogen," stated Mustafa Jangbarwala, Catalyx Nanotech VP of Business Development.
"We understand that landfill gas and biogas may end up costing us a bit more than natural gas, but the difference in costs is affordable, and regard for our environment is far more important than capturing that difference," Mustafa Jangbarwala noted. "We believe corporations need to be responsible in these arenas now, rather than wait for government mandates before they take the steps that will help ensure a healthy environment for future generations."
"Our advantage is that we are able to produce nanofibers at greater than 99% purity, as well as 100% green hydrogen in a one-step process," says Yinan Jin, Catalyx Nanotech Chief Research Scientist. "Purification of nanomaterials from typical carbon batches is an extremely expensive undertaking for commercial applications. Catalyx Nanotech is eliminating the extra work and, consequently, the expense of separating nanofibers from byproducts, such as amorphous carbon, soot, etc., that make nanomaterials so costly today. We expect to commoditize nano-scale graphite materials at prices comparable to high quality synthetic graphite used in electrodes and refractory applications. After some preliminary test runs, we will also integrate a small fuel cell to demonstrate how the electrochemical reaction of hydrogen and oxygen can produce electrical energy, as opposed to the direct combustion of hydrogen and oxygen to produce thermal energy. This in situ generation of green electricity with a zero-carbon footprint is just one possible use of the hydrogen."
"The key to the success of a hydrogen economy is affordability and the availability of the hydrogen infrastructure," explains Juzer Jangbarwala, Catalyx Nanotech Founder and Chairman. "By default, the number of landfills is directly proportional to urban population centers. These landfills could provide LOCAL sources of low-cost 'green' hydrogen to nearby filling stations. By using renewable landfill gas, not only is the carbon footprint of the hydrogen production process eliminated, but also much of the footprint associated with transportation of hydrogen -- often hundreds of miles -- is also eliminated.
Catalyx Nanotech's technology could make hydrogen affordable, company execs suggest, by eliminating transportation costs from the hydrogen equation. They claim that the plants are low-cost and easy to build, which could make them appealing.
The pilot will run through June 30.
More info about Catalyx Nanotech Inc. can be found at www.catalyxnano.com.
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