Biomass pyrolysis integrated with bio-reduction of metal ores, hydrogen production, and/or activated-carbon production

What is claimed is: 1 . A metal product produced by a process comprising: (a) providing a biomass feedstock; (b) pyrolyzing the biomass feedstock, thereby generating a biogenic reagent, wherein the biogenic reagent comprises carbon, and a pyrolysis off-gas; (c) optionally, oxidizing the pyrolysis off-gas, thereby generating heat; (d) reacting the biogenic reagent with a selected reactant, thereby generating a reducing gas; (e) chemically reducing a selected metal oxide in the presence of the reducing gas from step (d), thereby generating a reduced form of the selected metal oxide; (f) recovering a metal product comprising the reduced form of the selected metal oxide; and (g) optionally, recovering the biogenic reagent continuously or periodically during step (d), or ultimately after step (d), thereby generating a recovered biogenic reagent, wherein the recovered biogenic reagent is activated carbon. 2 . The metal product of claim 1 , wherein step (e) is conducted at a reduction temperature of at least about 500° C. to at most about 2000° C. 3 . The metal product of claim 1 , wherein the reduction temperature of at least about 700° C. to at most about 1800° C. 4 . The metal product of claim 1 , wherein step (e) is conducted for a reduction time of at least about 30 minutes to at most about 48 hours. 5 . The metal product of claim 1 , wherein the selected metal oxide comprises iron oxide, copper oxide, nickel oxide, magnesium oxide, manganese oxide, aluminum oxide, tin oxide, zinc oxide, cobalt oxide, chromium oxide, tungsten oxide, molybdenum oxide, or a combination thereof. 6 . The metal product of claim 1 , wherein the selected metal oxide is iron ore. 7 . The metal product of claim 6 , wherein the iron ore is selected from hematite, magnetite, limonite, taconite, or a combination thereof. 8 . The metal product of claim 1 , wherein the reduced form of the selected metal oxide is a fully reduced metal. 9 . The metal product of claim 1 , wherein the reduced form of the selected metal oxide is a second metal oxide having a lower oxidation state than the selected metal oxide. 10 . The metal product of claim 1 , wherein the selected reactant in step (d) is water. 11 . The metal product of claim 1 , wherein the selected reactant in step (d) is oxygen, and wherein the oxygen is comprised within air, pure oxygen, enriched oxygen, ozone, or a combination thereof. 12 . The metal product of claim 1 , wherein the selected reactant in step (d) comprises a combination of water and oxygen. 13 . The metal product of claim 1 , wherein the reducing gas comprises at least about 10 mol % hydrogen. 14 . The metal product of claim 1 , wherein the reducing gas comprises at least about 25 mol % hydrogen. 15 . The metal product of claim 1 , wherein the reducing gas comprises at least about 10 mol % carbon monoxide. 16 . The metal product of claim 1 , wherein the reducing gas comprises at least about 25 mol % carbon monoxide. 17 . The metal product of claim 1 , wherein the process further comprises increasing hydrogen content of the reducing gas via the water-gas shift reaction. 18 . The metal product of claim 1 , wherein the pyrolysis off-gas is partially oxidized, thereby generating additional reducing gas and the heat. 19 . The metal product of claim 18 , wherein step (e) further comprises chemically reducing the selected metal oxide in the presence of the additional reducing gas. 20 . The metal product of claim 1 , wherein the metal product comprises iron, copper, nickel, magnesium, manganese, aluminum, tin, zinc, cobalt, chromium, tungsten, molybdenum, or a combination thereof.