Patent Number: 
Section: claims

1. A process for converting hydrocarbon-containing material into a resultant gas, comprising the steps of:a. providing a finely-ground hydrocarbon-containing solid;b. providing a light hydrocarbon gas;c. mixing said hydrocarbon-containing solid and said hydrocarbon-containing gas together to form a hydrocarbon mixture;d. preheating said hydrocarbon mixture;e. providing a gasifier, said gasifier including an acceleration tube and a heat source configured to heat said acceleration tube and the contents thereof;f. feeding said hydrocarbon mixture through said gasifier tube;g. further heating said hydrocarbon mixture emerging from said gasifier tube by passing said mixture through a microwave, wherein the heat added to said mixture in said gasifier and said microwave is sufficient to crack carbon bonds within said hydrocarbon mixture in order to form a resultant mixture containing shortened hydrocarbon chains, free hydrogen, and free electrons;h. providing a magnetohydrodynamic generator, said magnetohydrodynamic generator having a conduit fluidly connected with said microwave;i. passing said resultant mixture through said magnetohydrodynamic generator, said magnetohydrodynamic generator containing an anode configured to collect said free electrons from said resultant mixture passing through said conduit, said anode configured to transmit said free electrons away from said conduit;j. providing a decelerator/heat exchanger;k. after said resultant mixture gas stream has passed through said magnetohydrodynamic generator, passing said resultant mixture through said decelerator/heat exchanger wherein a velocity and a temperature of said resultant mixture are reduced in the absence of said free electrons;l. removing solids from said resultant mixture to create a resultant gas;m. removing hydrogen gas and hydrocarbon gas from said resultant gas; andn. storing said hydrogen gas and said hydrocarbon gas. 2. The process of claim 1, wherein said gasifier and said microwave heats said resultant gas stream to at least approximately 1700 degrees Celsius before transmitting said resultant gas stream through said magnetohydrodynamic generator. 3. The process of claim 1, wherein said decelerator/heat exchanger cools said resultant gas stream to at least approximately 700 degrees Celsius. 4. The process of claim 1, wherein said hydrocarbon-containing gas comprises methane. 5. The process of claim 4, wherein said gasifier breaks hydrocarbon bonds of said methane and thereby dissociates said methane into hydrogen atoms, carbon atoms, and said free electrons. 6. The process of claim 4, wherein said magnetohydrodynamic generator removes a sufficient quantity of said free electrons to prevent the reformation of said methane downstream of said magnetohydrodynamic generator. 7. The process of claim 5, further comprising the steps of:a. providing a separator configured to separate said carbon atoms from said hydrogen atoms in said resultant mixture, said separator downstream of said magnetohydrodynamic generator; andb. separating said carbon atoms from said hydrogen atoms present in said resultant mixture in said separator such that said hydrogen atoms and said carbon atoms are separately recovered from said resultant mixture. 8. A process for converting hydrocarbon-containing material into a resultant gas as recited in claim 1, wherein said step of preheating said hydrocarbon mixture is performed by passing said hydrocarbon mixture through the convergence of a plurality of laser beams. 9. A process for converting hydrocarbon-containing material into a resultant gas as recited in claim 1, wherein said step of preheating said hydrocarbon mixture is performed by supplying a second microwave and passing said hydrocarbon mixture through said second microwave before introducing said hydrocarbon mixture into said accelerator/gasifier.