Systems and apparatus for production of high-carbon biogenic reagents

1 .- 24 . (canceled) 25 . A process for producing a high-carbon biogenic reagent, the method comprising: performing a first carbonization of a feedstock, thereby producing a first carbonized material, wherein the feedstock comprises biomass; applying an additive to the first carbonized material, thereby achieving penetration of the additive into the first carbonized material, and thereby producing a treated first carbonized material; drying the treated first carbonized material, thereby reducing a moisture content of the treated first carbonized material, thereby producing a dried material; performing a second carbonization, of the dried material, thereby producing a second carbonized material, wherein the second carbonization is achieved using a sweep gas; and cooling the second carbonized material. 26 . The process of claim 25 , wherein the additive comprises an about 1% aqueous solution of potassium hydroxide. 27 . The process of claim 25 , wherein achieving penetration of the additive into the feedstock is achieved by allowing the additive to penetrate the feedstock for about 30 minutes. 28 . The process of claim 25 , wherein the performing the first carbonization is achieved using a temperature of about 650° C., a residence time of about 30 minutes, and a pressure of at least about −2 psi to at most about +2 psi. 29 . The process of claim 25 , where the performing the second carbonization is achieved using a temperature of about 680° C., a residence time of about 30 minutes, and a pressure of at least about −0.1 psi to at most about −2 psi. 30 . The process of claim 25 , further comprising removing interstitial oxygen from the feedstock or the dried material, thereby removing oxygen from the feedstock or dried material. 31 . The process of claim 30 , wherein the removing is achieved by penetrating the biomass feedstock with a gas that has at most about 21 vol % of O 2 . 32 . The process of claim 31 , wherein the gas comprises nitrogen, CO, CO 2 , or a combination thereof. 33 . The process of claim 25 , further comprising, before the second carbonization: introducing the biomass feedstock, treated feedstock, or dried treated feedstock into an enclosed material transport unit; and introducing an inert gas into the enclosed material transport unit, thereby forcing ambient air out of the enclosed material transport system. 34 . The process of claim 33 , further comprising heating the inert gas, wherein the heating the inert gas occurs before the introducing the inert gas into the enclosed material transport unit. 35 . The process of claim 33 , wherein the forcing ambient air out of the enclosed material transport system achieves an oxygen level in the enclosed material transport unit of not more than about 2% oxygen, not more than about 1% oxygen, not more than about 0.5% oxygen, or not more than about 0.2% oxygen may not be achieved. 36 . The process of claim 25 , wherein the oxygen level of the environment for the first carbonization, second carbonization, or the cooling is about 0.5% to about 1.0%. 37 . The process of claim 25 , wherein the sweep gas comprises a substantially inert gas. 38 . The process of claim 25 , wherein the sweep gas comprises about 32% carbon dioxide, 8% steam, 10% carbon monoxide, and 50% nitrogen. 39 . The process of claim 25 , wherein a solids residence time for the first carbonization is at least about 5 min to at most about 60 min. 40 . The process of claim 25 , wherein a solids residence time for the second carbonization is at least about 10 min to at most about 120 min. 41 . The process of claim 25 , wherein the second carbonization is achieved using a temperature of at least about 250° C. to at most about 700° C. 42 . The process of claim 25 , wherein the cooling is achieved using a temperature of at least about 100° C. to at most about 550° C. 43 . The process of claim 25 , wherein, during the cooling, secondary pyrolysis reactions occur, wherein the secondary pyrolysis reactions comprise: condensation of carbon-containing gases, thereby forming additional fixed carbon, formation of bonds between adsorbed species and the fixed carbon, or conversion of carbon monoxide to carbon dioxide plus fixed carbon (Boudouard reaction).