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A method for generating syngas having a H 2 :CO ratio of less than 2:1 including selecting a predetermined desired syngas H 2 :CO molar ratio, selecting a hydrocarbon with a natural H 2 :CO molar ratio less than the desired ratio, selecting a hydrocarbon with a natural H 2 :CO molar ratio greate

A method for generating syngas having a H 2 :CO ratio of less than 2:1 including selecting a predetermined desired syngas H 2 :CO molar ratio, selecting a hydrocarbon with a natural H 2 :CO molar ratio less than the desired ratio, selecting a hydrocarbon with a natural H 2 :CO molar ratio greater than the desired ratio, mixing the two hydrocarbons such that the natural H 2 :CO molar ratio of the mixture is the desired ratio, and catalytically partially oxidizing the mixture to produce syngas with the desired ratio.

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1. A method for producing a syngas product stream with an H 2 :CO molar ratio of a predetermined desired molar ratio less than about 2:1, the method comprising:providing a methane source;providing a higher hydrocarbon source;providing an oxygen source;providing a partial oxidation reactor;calculati

1. A method for producing a syngas product stream with an H 2 :CO molar ratio of a predetermined desired molar ratio less than about 2:1, the method comprising:providing a methane source;providing a higher hydrocarbon source;providing an oxygen source;providing a partial oxidation reactor;calculating a desired feed ratio of the methane and the higher hydrocarbon;mixing the methane and the higher hydrocarbon in the desired feed ratio to create a hydrocarbon mixture;partially oxidizing the mixture in the partial oxidation reactor to produce a syngas stream with a hydrogen to carbon monoxide molar ratio substantially equal to the predetermined desired molar ratio. 2. A method for producing a syngas product stream with a predetermined H 2 :CO molar ratio, the method comprising:providing a first hydrocarbon source with an actual natural H 2 :CO molar ratio of greater than the predetermined H 2 :CO ratio;providing a second hydrocarbon source with an actual natural H 2 :CO molar ratio of less than the predetermined H 2 :CO ratio;providing an oxygen source;mixing the first hydrocarbon source and the second hydrocarbon source into a mixed feed stream in such proportions such that an expected actual natural H 2 :CO molar ratio of the mixed feed stream is substantially equal to the predetermined H 2 :CO molar ratio; andpartially oxidizing the mixed feed stream in a partial oxidation reactor to produce a product stream;wherein the H 2 :CO molar ratio of the product stream is substantially equal to the predetermined H 2 :CO molar ratio. 3. The method of claim 2 wherein the first hydrocarbon source comprises primarily methane. 4. The method of claim 2 wherein the first hydrocarbon source comprises natural gas. 5. The method of claim 2 wherein the oxygen source comprises air, oxygen-enriched air, or substantially pure oxygen. 6. The method of claim 2 wherein the partial oxidation reactor comprises a catalyst material supported on a support material. 7. The method of claim 6 wherein the catalyst material comprises a Group VIII metal, iron, nickel, cobalt, ruthenium, rhodium, palladium, iridium, platinum, cerium, samarium, or combinations thereof. 8. The method of claim 6 wherein the catalyst material comprises rhodium. 9. The method of claim 6 wherein the support material comprises granules. 10. The method of claim 6 wherein the support material is a monolithic support. 11. The method of claim 6 wherein a contact time of the mixed feed stream with the supported catalyst material is no more than about 200 ms. 12. The method of claim 11 wherein the contact time of the mixed feed stream with the supported catalyst material is no more than about 10 ms. 13. A method for controlling the H 2 :CO molar ratio in a syngas product stream, the method comprising;predetermining a desired product stream H 2 :CO molar ratio;providing a first hydrocarbon source with an actual natural H 2 :CO molar ratio less than the desired product stream H 2 :CO molar ratio;providing a second hydrocarbon source with an actual natural H 2 :CO molar ratio greater than the desired product stream H 2 :CO molar ratio;calculating the relative proportions of the first and second hydrocarbon sources needed to produce a mixture with an expected actual natural H 2 :CO molar ratio substantially equal to the desired product stream H 2 :CO molar ratio;mixing the first and second sources in the calculated relative proportions to produce a mixture;net partially oxidizing the mixture to produce a product stream;measuring the H 2 :CO molar ratio in the product stream;adjusting the relative proportions of the first and second hydrocarbon sources, if necessary, until the product stream H 2 :CO molar ratio is substantially equal to the desired product stream H 2 :CO molar ratio. 14. The method of claim 13 wherein the first hydrocarbon source comprises primarily methane. 15. The method of claim 13 wherein the first hydrocarbon source comprises natural gas. 16. The method o f claim 13 wherein the oxygen source comprises air, oxygen-enriched air, or substantially pure oxygen. 17. The method of claim 13 wherein the partial oxidation reactor comprises a catalyst material supported on a support material. 18. The method of claim 17 wherein the catalyst comprises rhodium. 19. The method of claim 17 wherein the catalyst material comprises a Group VIII metal, iron, cobalt, nickel, ruthenium, rhodium, palladium, iridium, platinum, cerium, samarium, or combinations thereof. 20. The method of claim 17 wherein the support material comprises granules. 21. The method of claim 17 wherein the support material is a monolithic support. 22. The method of claim 17 wherein a contact time of the mixed feed stream with the supported catalyst material is no more than about 200 ms. 23. The method of claim 17 wherein a contact time of the mixed feed stream with the supported catalyst material is no more than about 10 ms.