Black powder catalyst for hydrogen production via bi-reforming

What is claimed is: 1. A method of bi-reforming hydrocarbon, comprising: collecting a black powder from a natural-gas pipeline system, wherein the black powder formed on an inside surface of a natural gas pipeline that is a steel pipeline in the natural-gas pipeline system, the black powder comprising magnetite and hematite; disposing a reforming catalyst comprising the black powder in a bi-reformer vessel after heating the black powder, wherein heating the calcined black powder comprises heating the black powder at a temperature of at least 500° C. to remove carbon from the black powder and subjecting the black powder to air calcination at a temperature of at least 775° C. to give the black powder comprising at least 50 weight percent of hematite, wherein the black powder after the heating comprises more hematite than in the black powder as collected from the natural-gas pipeline system; and reacting hydrocarbon comprising methane with steam and carbon dioxide in the bi-reformer vessel via the reforming catalyst at a temperature in a range of 500° C. to 1100° C. and at a pressure in a range of 1 bar to 28 bar to generate synthesis gas comprising hydrogen and carbon monoxide. 2. The method of claim 1 , wherein the natural gas pipeline is disposed between a wellhead and a natural gas processing plant. 3. The method of claim 1 , wherein collecting the black powder comprises collecting the black powder via a filter disposed along the natural gas pipeline between a wellhead and a gas processing plant or in an upstream portion of the gas processing plant. 4. The method of claim 1 , wherein collecting the black powder comprises collecting the black powder from the natural-gas pipeline system via a filter, a filter bag, a separator, or a cyclone, or any combinations thereof. 5. A method of bi-reforming hydrocarbon, comprising: receiving a black powder collected from a natural-gas pipeline system and that formed on an inside surface of a natural gas pipeline of the natural-gas pipeline system, the black powder as collected comprising magnetite and hematite, wherein the natural gas pipeline is a steel pipeline; treating the black powder to give the black powder comprising at least 50 weight percent of hematite, wherein treating the black powder comprises heating the black powder at a temperature of at least 500° C. to remove carbon from the black powder and subjecting the black powder to air calcination at a temperature of at least 775° C., wherein the black powder as treated comprises more hematite than in the black powder as collected; providing hydrocarbon, carbon dioxide, and steam to a bi-reformer vessel, the hydrocarbon comprising methane, wherein a reforming catalyst comprising the black powder as treated giving the black powder comprising at least 50 weight percent of hematite is disposed in the bi-reformer vessel; bi-reforming the hydrocarbon in the bi-reformer vessel via the reforming catalyst at a temperature in a range of 500° C. to 1100° C. and at a pressure in a range of 1 bar to 28 bar to generate hydrogen and carbon monoxide; and discharging the hydrogen and carbon monoxide from the bi-reformer vessel. 6. The method of claim 5 , comprising collecting the black powder from the natural-gas pipeline system via a filter, a filter bag, a separator, or a cyclone, or any combinations thereof, wherein the bi-reforming comprises reacting the hydrocarbon with the steam. 7. The method of claim 5 , comprising: collecting the black powder from the natural-gas pipeline system via a filter disposed along the natural gas pipeline between a wellhead and a gas processing plant or in an upstream portion of the gas processing plant; and providing heat to the bi-reformer vessel for the bi-reforming comprising reacting of the hydrocarbon with the steam and the carbon dioxide, wherein the reacting of the hydrocarbon with the steam and the carbon dioxide is endothermic.