Arvinmeritor pursues a different hydrogen strategy."Plasmatron" is a name that smacks of the sort of advancement in technology that the unit that ArvinMeritor (Troy, MI; www.arvinmeritor.com) is working to commercialize really is. Although that name was used by the researchers at the MIT MIT - Massachusetts Institute of Technology Plasma Science and Fusion Center In intelligence usage, a physical location to accomplish fusion. It normally has sufficient intelligence automated data processing capability to assist in the process. , from which the auto supplier has licensed the technology, they're calling it the "Plasma Fuel Reformer," a more descriptive, if mundane, moniker (1) A name, title or alias. See alias. (2) A COM object that is used to create instances of other objects. Monikers save programmers time when coding various types of COM-based functions such as linking one document to another (OLE). See COM and OLE. . This system, explains Pedro Ferro, vice president and general manager, ArvinMeritor Commercial Vehicle Emissions, "produces hydrogen onboard and on demand from the vehicle's fuel." That fuel can be either diesel or gasoline. With the system there's no need for a hydrogen infrastructure, as the system does the job. [ILLUSTRATION OMITTED] As "Plasmatron" implies, a plasma cloud of ionized i·on·ize tr. & intr.v. i·on·ized, i·on·iz·ing, i·on·iz·es To convert or be converted totally or partially into ions. i gas is generated, through which atomized fuel is passed. That induces a partial oxidation In chemistry, a partial oxidation reaction occurs when a substoichiometric fuel-air mixture is partially combusted in a reformer, creating a hydrogen-rich syngas, which can then be put to further use, for example in a fuel cell. reaction, which results in H and CO. The hydrogen can then be mixed in the vehicle combustion chamber Combustion chamber The space at the head end of an internal combustion engine cylinder where most of the combustion takes place. See Combustion with gasoline. As a result, says Garrick Hu, vp of Advanced Engineering, ArvinMeritor Commercial Vehicle Systems, "You're extracting more of the energy from the fuel than you do in a normal gasoline engine." He explains, "It gives you flame stability, so you have the ability to operate in a lean condition. Your lean limit can move. Your knock limit can move. You can go to higher compression ratios. Higher compression ratios give you more power." He adds, "Typically that yields a higher NOx production--but not in this case." This results in a 20% to 25% improvement in fuel efficiency. What's more, because of the efficiency of the burn, there is less aftertreatment of the exhaust involved, which can reduce the cost of catalysts. When could we see a Plasmatron on an engine? John M. Grace, vp, Engineering and Technology, ArvinMeritor, suggests that it could be "within two to five years."--GSV |
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