Patent Number: 043702970
Section: claims

1. Apparatus for dissociation of steam which comprises a fusion reactor central chamber housing capable of supporting a fusion reaction from a D-T fusion fuel charge placed therein, an energy source directed into said housing to achieve a fusion reaction in said fusion fuel placed in said central chamber to produce among other fusion products alpha and neutron radiation, means for introducing steam to said central chamber in the presence of said fusion reaction to absorb alpha-particle energy therefrom causing decomposition of the steam to release molecular hydrogen, and supersonic effusion filter means for removing the molecular hydrogen from other molecules including molecular oxygen in said central chamber, said supersonic effusion filter means forming an outlet from said central chamber and comprising a zirconium dioxide tube and a zirconium dioxide nozzle on said tube enlarging from said tube to a relatively wide outlet for cooling said molecular hydrogen, said nozzle having a hollow conically shaped zirconium dioxide member pointing in the direction of said central chamber, the zirconium dioxide walls of said nozzle and said conically shaped member allowing oxygen to preferentially diffuse therethough, thereby effecting the separation of the oxygen from the hydrogen. 2. Apparatus as defined in claim 1 in which said effusion outlet separates particles travelling at different speeds. 3. Apparatus as defined in claim 1 wherein said steam has a predetermined density and said central chamber has a size approximating the range of alpha-particles in said steam, thereby substantially absorbing that alpha-particle energy produced by said fusion reaction before it strikes the central chamber wall. 4. Apparatus as defined in claim 1 wherein said energy source is a laser source, and including protective means directing the laser energy to said fusion fuel through said steam without substantial refraction and attenuation by said steam. 5. Apparatus as defined in claim 1, wherein the pressure of said steam introduced in said central chamber is in the order of 2.8 atmospheres. 6. A method of utilizing nuclear laser fusion reactor energy to decompose water vapor into hydrogen and oxygen which comprises: (a) introducing a quantity of fusion fuel into a fusion reactor central chamber in the form of a D-T pellet,  (b) directing laser energy toward said pellet to effect a fusion reaction producing among other fusion products alpha and neutron radiation,  (c) introducing a predetermined quantity of water vapor into said reactor central chamber prior to the reaction,  (d) decomposing the water vapor into molecular hydrogen and oxygen by exposure to said alpha radiation,  (e) separating the hydrogen and oxygen decomposition products, by effusing said decomposed products through a zirconium dioxide supersonic expansion nozzle having a hollow conically shaped zirconium dioxide member positioned substantially concentrically therein, said nozzle forming on outlet form said central chamber and wherein the zirconium dioxide walls of said nozzle and said conically shaped member allow oxygen to preferentially diffuse therethrough, thereby effecting the separation of the oxygen from the hydrogen,  (f) extracting from said expansion nozzle the decomposition product hydrogen as an output product. 7. The method as defined in claim 6 in which the separating step includes cooling said products as they are effused from a reactor to reduce recombination. PG,18 8. The method as defined in claim 6 including the steps of shaping the central reaction chamber spherically, and introducing a quantity M of water vapor in the form of steam related to the radius R of the spherical reaction chamber as follows: EQU M&lt;0.109R.sup.2. 9. The method as defined in claim 6 including the steps of providing predetermined reactor central chamber dimensions substantially limited to a known path length of alpha-particles released from said fusion reaction through said steam that utilizes substantially the entire alpha-particle energy in dissociating the water vapor into hydrogen and oxygen before it reaches the central chamber periphery.