Using fossil fuels to increase biomass-based fuel benefits

What is claimed is: 1. A method comprising (A) providing a gaseous product stream which is formed from fossil-fuel-based hydrocarbon feed and which comprises hydrogen and carbon monoxide at a mole ratio of H2:CO of at least 2.0:1; (B) forming a syngas stream that is derived from carbonaceous feed material and subjecting this syngas stream to partial oxidation; and (C) adding the gaseous product stream provided in step (A) to the partially oxidized syngas stream derived from carbonaceous feed material and containing hydrogen and CO, in a sufficient amount to form a mixed syngas stream having a H2:CO mole ratio higher than that of said partially oxidized syngas stream derived from carbonaceous feed material. 2. A method according to claim 1 , wherein up to 100% of a byproduct stream obtained from the conversion of said mixed syngas stream to form product fuel is reacted in said formation of said gaseous product stream that is provided in step (A), wherein said byproduct stream comprises one or more of hydrogen, CO, water vapor, methane and hydrocarbon containing at least 2 carbon atoms and 0 to 2 oxygen atoms. 3. A method comprising (A) providing fossil-fuel-based hydrocarbon feed; (B) forming from said fossil-fuel-based hydrocarbon feed a gaseous product stream comprising hydrogen and carbon monoxide at a mole ratio of H2:CO of at least 2.0:1; (C) forming a syngas stream that is derived from carbonaceous feed material and subjecting this syngas stream to partial oxidation; and (D) adding the gaseous product stream formed in step (B) to the partially oxidized syngas stream derived from carbonaceous feed material, in a sufficient amount to form a mixed syngas stream having a H2:CO mole ratio higher than that of said partially oxidized syngas stream derived from carbonaceous feed material. 4. A method according to claim 3 , also including the step of (D) reacting up to 100% of a byproduct stream obtained from the conversion of said mixed syngas stream to form product fuel in said formation of said gaseous product stream in step (B), wherein said byproduct stream comprises one or more of hydrogen, CO, water vapor, methane and hydrocarbon containing at least 2 carbon atoms and 0 to 2 oxygen atoms. 5. A method comprising (A) deriving a syngas stream from carbonaceous feed material, wherein the syngas stream contains hydrogen and CO and subjecting the syngas stream to partial oxidation; and (B) adding to the syngas stream derived in step (A) a gaseous product stream comprising hydrogen and carbon monoxide, wherein the mole ratio of H2:CO of said gaseous product stream is at least 2.0:1, and wherein said gaseous product stream is formed from fossil-fuel-based hydrocarbon feed, wherein adding said gaseous product stream to said partially oxidized syngas stream forms a mixed syngas stream having a H2:CO mole ratio higher than that of said partially oxidized syngas stream derived from carbonaceous feed material. 6. A method according to claim 5 , wherein up to 100% of a byproduct stream obtained from the conversion of said mixed syngas stream to form product fuel is reacted in said formation of said gaseous product stream that is added in step (B), wherein said byproduct stream comprises one or more of hydrogen, CO, water vapor, methane and hydrocarbon containing at least 2 carbon atoms and 0 to 2 oxygen atoms.