Xref: utzoo sci.physics:6381 sci.research:727 sci.space:10220 sci.chem:17 sci.space.shuttle:2696 Path: utzoo!utgpu!jarvis.csri.toronto.edu!mailrus!ukma!rutgers!att!mtuxo!tee From: tee@mtuxo.att.com (54317-T.EBERSOLE) Newsgroups: sci.physics,sci.research,sci.space,sci.chem,sci.space.shuttle Subject: Re: Room Temperature fusion - possible indications? Summary: Could it work with other fusion reactions? Keywords: fusion deuterium power Message-ID: <4380@mtuxo.att.com> Date: 24 Mar 89 19:32:32 GMT References: <290@vlsi.ll.mit.edu> Distribution: sci Organization: AT&T, Middletown NJ Lines: 32 In article <290@vlsi.ll.mit.edu>, glenn@vlsi.ll.mit.edu (Glenn Chapman) writes: > > A very astounding breakthrough just may have been made in nuclear > fusion. According to both the Financial Times (Mar 23, pg. 1, 26, and 22) -----Stuff deleted---- > The process they are using consists of the following. Consider an > electrochemical cell (like a battery) with a platinum electrode, a heated > palladium electrode in a bath of heavy water (deuterium oxide). Flow current I read somewhere not very authoritative (I can't remember, but I don't read autoritative magazines much) that "cold," or muon-catalyzed, fusion would be expected to occur at about 900 C or so. I can hardly wait for real news on how this "Pd-Pt catalyzed" fusion can be sustained with essentially no rise in temperature. Any speculations available? My trusty dictionary indicates Palladium is used as a catalyst in hydrogenation processes, so there is some justification for why it might be useful in a process involving Deuterium. However, this reaction is not all that interesting to me since it produces nasty fast neutrons. I know there are reactions which eject fast-moving ions (electrons, etc.) with no gamma rays or neutrons; I seem to recall these involve carbon as one of the "reactants." Anyone know what these particular fusion reactions are, or have a reference I could look this up in? Perhaps this fusion-catalyzing process will turn out to be more general once it's understood. (I like to leap before I look.) I'd even accept a process which had to occcur at 100 C, if it was clean in a non-gamma ray, non-neutron producing sort of way. If I had any choice in the matter. =============== -- Tim Ebersole ...!att!mtuxo!tee or {allegra,ulysses,mtune,...}!mtuxo!tee