Processes and systems for recapturing carbon from biomass pyrolysis liquids

We claim: 1 . A process for producing a biocarbon composition, the process comprising: pyrolyzing a feedstock in a first pyrolysis reactor, wherein the feedstock comprises biomass, thereby generating a first pyrolysis solid and a first pyrolysis vapor; condensing, utilizing a condenser, the first pyrolysis vapor, thereby generating a condenser liquid and a condenser vapor, wherein the condenser comprises multiple condenser stages, and wherein the condenser liquid comprises less than 1 wt % ash; thermally treating the condenser liquid in a second reactor, thereby generating a solid material; blending the first pyrolysis solid with the solid material, thereby generating a biogenic reagent; and recovering the biogenic reagent as a biocarbon composition, wherein the biocarbon composition is characterized by at most 20 wt % water uptake at 25° C. after 24 hours of soaking in water. 2 . The process of claim 1 , wherein the feedstock is selected from softwood chips, hardwood chips, timber harvesting residues, tree branches, tree stumps, leaves, bark, sawdust, corn, corn stover, wheat, wheat straw, rice, rice straw, sugarcane, sugarcane bagasse, sugarcane straw, energy cane, sugar beets, sugar beet pulp, sunflowers, sorghum, canola, algae, miscanthus, alfalfa, switchgrass, fruits, fruit shells, fruit stalks, fruit peels, fruit pits, vegetables, vegetable shells, vegetable stalks, vegetable peels, vegetable pits, grape pumice, almond shells, pecan shells, coconut shells, coffee grounds, food waste, commercial waste, grass pellets, hay pellets, wood pellets, cardboard, paper, paper pulp, paper packaging, paper trimmings, food packaging, construction and/or demolition waste, railroad ties, lignin, animal manure, municipal solid waste, municipal sewage, or a combination thereof. 3 . The process of claim 1 , further comprising drying or thermally treating the biogenic reagent. 4 . The process of claim 1 , further comprising pelletizing the biogenic reagent. 5 . The process of claim 1 , further comprising drying or thermally treating the biogenic reagent, and further comprising pelletizing the biogenic reagent, wherein the pelletizing and the drying or thermally treating are integrated. 6 . The process of claim 4 , wherein the blending and the pelletizing are integrated. 7 . The process of claim 4 , further comprising introducing a binder to the biogenic reagent. 8 . The process of claim 7 , wherein the binder is selected from starch, thermoplastic starch, crosslinked starch, starch polymers, cellulose, cellulose ethers, hemicellulose, methylcellulose, chitosan, lignin, lactose, sucrose, dextrose, maltodextrin, banana flour, wheat flour, wheat starch, soy flour, corn flour, wood flour, coal tars, coal fines, met coke, asphalt, coal-tar pitch, petroleum pitch, bitumen, pyrolysis tars, gilsonite, bentonite clay, borax, limestone, lime, waxes, vegetable waxes, baking soda, baking powder, sodium hydroxide, potassium hydroxide, iron ore concentrate, silica fume, gypsum, Portland cement, guar gum, xanthan gum, polyvidones, polyacrylamides, polylactides, phenol-formaldehyde resins, vegetable resins, recycled shingles, recycled tires, derivatives thereof, or a combination of the foregoing. 9 . The process of claim 4 , wherein no external binder is introduced to the biogenic reagent during the pelletizing. 10 . The process of claim 1 , wherein the condenser liquid is a condensed product of a first stage of the multiple condenser stages. 11 . The process of claim 1 , wherein the condenser liquid is a condensed product of a plurality of stages of the multiple condenser stages. 12 . The process of claim 11 , wherein the plurality of stages does not include a final stage of the multiple condenser stages. 13 . The process of claim 1 , wherein the second reactor is a second pyrolysis reactor, and wherein the second pyrolysis reactor generates the solid material as well as a pyrolysis off-gas. 14 . The process of claim 1 , wherein the second reactor is a non-pyrolytic thermal reactor. 15 . The process of claim 1 , wherein the second reactor is a non-pyrolytic catalytic reactor. 16 . The process of claim 13 , further comprising conveying, to the condenser, the pyrolysis off-gas. 17 . The process of claim 13 , wherein the first pyrolysis reactor is distinct from the second pyrolysis reactor. 18 . The process of claim 13 , wherein the first pyrolysis reactor and the second pyrolysis reactor are the same unit, and wherein the pyrolyzing the feedstock and the thermally treating the condenser liquid occur at different times. 19 . The process of claim 1 , wherein at least 25 wt % of total carbon comprised in the condenser liquid is converted to fixed carbon in the solid material. 20 . The process of claim 1 , wherein at least 50 wt % of total carbon comprised in the condenser liquid is converted to fixed carbon in the solid material. 21 . The process of claim 1 , wherein at least 75 wt % of total carbon comprised in the condenser liquid is converted to fixed carbon in the solid material. 22 . The process of claim 1 , wherein the solid material forms at least 5 wt % of the biogenic reagent on an absolute basis. 23 . The process of claim 1 , wherein the solid material forms at least 10 wt % of the biogenic reagent on an absolute basis. 24 . The process of claim 1 , wherein the solid material forms at least 20 wt % of the biogenic reagent on an absolute basis. 25 . The process of claim 1 , wherein at least about 10 wt % to at most about 80 wt % of fixed carbon in the biogenic reagent is derived from the condenser liquid. 26 . The process of claim 1 , wherein at least about 20 wt % to at most about 60 wt % of fixed carbon in the biogenic reagent is derived from the condenser liquid. 27 . The process of claim 1 , wherein all of the condenser liquid is thermally treated in the second reactor. 28 . The process of claim 1 , wherein less than all of the condenser liquid is thermally treated in the second reactor. 29 . The process of claim 1 , wherein the condenser liquid is thermally treated in the second reactor without any intermediate chemical processing between the condenser and the second reactor. 30 . The process of claim 1 , wherein the condenser liquid is chemically processed prior to thermally treating in the second reactor. 31 . The process of claim 30 , wherein the condenser liquid is subjected to a purification step prior to thermally treating in the second reactor. 32 . The process of claim 30 , wherein the condenser liquid is subjected to a reaction step prior to thermally treating in the second reactor. 33 . The process of claim 1 , wherein the pyrolyzing the feedstock is conducted at a first pyrolysis temperature of at least about 250° C. to at most about 1250° C. 34 . The process of claim 33 , wherein the first pyrolysis temperature is at least about 300° C. to at most about 700° C. 35 . The process of claim 1 , wherein the second reactor is a second pyrolysis reactor operated at a second pyrolysis temperature, and wherein the second pyrolysis temperature is at least about 250° C. to at most about 1250° C. 36 . The process of claim 35 , wherein the second pyrol