Porous carbon materials for co2 separation in natural gas

What is claimed: 1 . A material for use in CO 2 capture in high pressure environments, the material comprising, a porous carbon material containing a plurality of pores for use in a high pressure environment having a total pressure in the environment between about 2.5 to about 100 bar, to selectively capture CO 2 over hydrocarbons in the environment, wherein a majority of the plurality of pores in the porous carbon material have a diameter of about 3 nm or less, wherein the surface area of the porous carbon material is between about 2,500 m 2 /g and about 4,500 m 2 /g, wherein the density of the porous carbon material is between about 0.3 g/cm 3 to about 4 g/cm 3 , and wherein the CO 2 absolute sorption capacity of the porous carbon material is between about 50 wt % and about 200 wt %. 2 . The material of claim 1 , wherein the porous carbon material is an asphalt-derived porous carbon. 3 . The material of claim 1 , wherein the porous carbon material is produced from a high fixed carbon content precursor selected from a group consisting of biochar, hydrochar, coal, lignite, biomass, organic substances containing heteroatoms such as nitrogen or sulfur, and combinations thereof; wherein the precursor is heated at temperatures greater than 600° C.; and wherein CO 2 selectivity and CO 2 capacity of the porous carbon material is enhanced by functionalization of the porous carbon material surface during such heating. 4 . The material of claim 1 , wherein the porous carbon material is produced from a high fixed carbon content precursor selected from a group consisting of biochar, hydrochar, coal, lignite, biomass, organic substances containing heteroatoms such as nitrogen or sulfur, and combinations thereof; and wherein the precursor is activated at a temperature between about 650° C. and about 1000° C. and in the presence of an amount of activating agent, to create and maintain micropores within the porous carbon material. 5 . The material of claim 1 , wherein, after capture, the CO 2 forms poly(CO 2 ) or a matrix of CO 2 within the porous carbon material. 6 . The material of claim 1 , wherein the porous carbon material has a CO 2 uptake of between about 0.92 g/g to about 1.50 g/g, at a CO 2 pressure or partial pressure of about 30 bar. 7 . The material of claim 1 , wherein the porous carbon material selectively captures CO 2 over CH 4 , such that the molecular ratio between CO 2 /CH 4 is between about 2 and about 10. 8 . A method of capturing CO 2 , the method comprising: associating a CO 2 containing environment with a high surface area, porous carbon material that includes a plurality of moieties; wherein the environment is selected from the group consisting of industrial gas streams, natural gas streams, natural gas wells, industrial gas wells, oil and gas fields, and combinations thereof, wherein the environment is pressurized to a total pressure between about 2.5 bar to about 100 bar; wherein the majority of the pores in the porous carbon material having a diameter of about 3 nm or less, wherein the density of the porous carbon material is between about 0.3 g/cm 3 to about 4 g/cm 3 , and wherein the CO 2 sorption absolute capacity of the porous carbon material is between about 50 wt % and about 200 wt %; and selectively capturing CO 2 over hydrocarbon species in the environment with the porous carbon material. 9 . The method of claim 8 , wherein the selectively capturing comprises: sorption of CO 2 to the porous carbon material between atmospheric pressure and 100 bar total or partial pressure, and selectively capturing CO 2 from the hydrocarbons in the environment; wherein the sorption of the CO 2 occurs without heating the porous carbon material or the environment; and wherein, after sorption, the CO 2 forms poly(CO 2 ) or a matrix of CO 2 within the porous carbon material. 10 . The method of claim 8 , further comprising releasing the CO 2 from the porous carbon material after it has been captured; wherein the release of the CO 2 occurs at total pressures ranging from about 0.01 bar to about atmospheric pressure; and wherein the release of the CO 2 occurs without heating the porous carbon material or the environment. 11 . The method of claim 8 , where in the release of the CO 2 is enhanced by the addition of heat to the porous carbon material or to the environment. 12 . A method of capturing CO 2 , the method comprising: associating a CO 2 containing environment with a high surface area, porous carbon material that comprises a plurality of moieties; selectively capturing CO 2 over hydrocarbon species with the porous carbon material; releasing the CO 2 from the porous carbon material after it has been captured; and reusing the porous carbon material for CO 2 capture subsequent to the releasing step, wherein the environment has a total or partial pressure between about 2.5 to about 100 bar, and wherein the majority of the pores in the porous carbon material have a diameter of about 3 nm or less. 13 . The method of claim 12 , wherein the environment is selected from the group consisting of industrial gas streams, natural gas streams, natural gas wells, industrial gas wells, oil and gas fields, and combinations thereof. 14 . The method of claim 12 , wherein, after selective capture, the CO 2 forms poly(CO 2 ) or a matrix of CO 2 within the porous carbon material. 15 . The method of claim 12 , wherein the porous carbon material has a CO 2 uptake of between about 0.92 g/g to about 1.50 g/g, at a CO 2 partial pressure of about 30 bar. 16 . The method of claim 12 , wherein the porous carbon material selectively captures CO 2 over CH 4 , such that the molecular ratio between CO 2 and CH 4 is between about 2 and about 10.