초록 ▼

Gases are vented from a waste site such as a landfill, and the gases are separated into at least three streams comprising a hydrocarbon stream, a carbon dioxide stream, and residue stream. At least a portion of the carbon dioxide stream and hydrocarbon stream are liquefied or converted to a supercri

Gases are vented from a waste site such as a landfill, and the gases are separated into at least three streams comprising a hydrocarbon stream, a carbon dioxide stream, and residue stream. At least a portion of the carbon dioxide stream and hydrocarbon stream are liquefied or converted to a supercritical liquid. At least some of the carbon dioxide gas stream (as a liquid or supercritical fluid) is used in a cleaning step, preferably a polymer cleaning step, and more preferably a polymer cleaning step in a polymer recycling process, and most preferably in a polymer cleaning step in a polymer recycling system where the cleaning is performed on-site at the waste site.

대표청구항 ▼

What is claimed is: 1. A process for use of gases collected from a solid/liquid material waste site comprising: collecting gases from the material waste site separating the collected gases into at least three streams comprising a hydrocarbon stream, a carbon dioxide stream, and residue stream, cond

What is claimed is: 1. A process for use of gases collected from a solid/liquid material waste site comprising: collecting gases from the material waste site separating the collected gases into at least three streams comprising a hydrocarbon stream, a carbon dioxide stream, and residue stream, condensing at least a portion of the carbon dioxide stream or hydrocarbon stream to a liquid or supercritical liquid, using at least a portion of the hydrocarbon stream to generate energy, and using energy from the hydrocarbon stream to power a commercial process comprising cleaning with carbon dioxide as a cleaning material and optionally at least one process selected from the group consisting of carbon dioxide liquefaction, hydrogen production, carbon black production, cleaning with carbon dioxide as a cleaning material, molding polymeric materials, and pelletizing polymeric materials; wherein prior to cleaning with carbon dioxide, material to be cleaned is exposed to a solvent comprising at least one C1-C6 alkyl lactate. 2. The process of claim 1 wherein the solvent comprises a cosolvent system comprising at least one first cosolvent selected from the group consisting of terpene alcohol, d-Limonene, and isoparaffinic hydrocarbons and the least one cosolvent selected from the group comprising of C1-C6 alkyl lactate. 3. The process of claim 2 wherein the solid material waste site comprises a landfill. 4. The process of claim 3 wherein the commercial process includes at least on-site cleaning use of liquid carbon dioxide or supercritical carbon dioxide. 5. The process of claim 2 wherein the commercial process includes using liquid carbon dioxide or supercritical carbon dioxide in a polymeric material cleaning process. 6. The process of claim 3 wherein the commercial process includes using liquid carbon dioxide or supercritical carbon dioxide in a polymeric material cleaning process that is part of a solid polymer recycling process. 7. The process of claim 3 wherein the commercial process includes using liquid carbon dioxide or supercritical carbon dioxide in a polymeric material cleaning process that is part of a polymer recycling process wherein venting of gases, separating of gases into at least three streams, burning of a portion of the hydrocarbon stream, and use of energy from burning to power a process that takes place within an 18 km radius from the separation of gases into at least three gas streams. 8. The process of claim 6 wherein the commercial process includes using liquid carbon dioxide or supercritical carbon dioxide in a polymeric material cleaning process that is part of a polymer recycling process wherein venting of gases, separating of gases into at least three streams, burning of a portion of the hydrocarbon stream, and use of energy from burning the hydrocarbon stream in a process that takes place within an 18 km radius from the separation of gases into at least three gas streams. 9. The process of claim 7 wherein plastic is reduced in size to smaller segments of solid plastic during the polymer recycling process, and the smaller segments of plastic are cleaned with carbon dioxide from the carbon dioxide stream. 10. The process of claim 9 wherein the carbon dioxide stream used to clean the smaller segments comprises supercritical liquid carbon dioxide. 11. The process of claim 10 wherein a solvent is used to remove material from the smaller segments of polymer in advance of or at the same time as the use of carbon dioxide used to clean the smaller segments of polymer. 12. The process of claim 11 wherein the solvent is an organic solvent to assist in the dissolving of adhesive or glue on the smaller segments of polymer. 13. The process of claim 1 wherein at least some hydrocarbon gas is used in a carbon black production process. 14. A system of combined processes, in combination with at least one carbon dioxide cleaning process, at least one of the combined processes operating from a power source of at least three gas streams from a waste gas stream site are selected from the group consisting of; a) energy production, carbon black production, and hydrogen production; b) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation, and apparel cleaning; c) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation, and plastic cleaning; d) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation, plastic cleaning and pellitization of cleaned plastic; e) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation, plastic cleaning, plastic pellitization, and plastic molding or extrusion; f) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation, and aluminum cleaning; g) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation, aluminum cleaning, and cleaned aluminum ingot/sheeting formation; h) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation, and glass/ceramic cleaning; and i) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation, glass cleaning and glass melting processes, j) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation and solvent distillation processes wherein energy production comprises providing at least some energy derived from combustion of hydrocarbon gases from at least one of said three gas streams; and wherein in the cleaning process prior to cleaning with carbon dioxide, material to be cleaned is exposed to a solvent comprising at least one C1-C6 alkyl lactate and then exposed to the cleaning carbon dioxide. 15. The system of claim 14 wherein the solvent is a cosolvent system of at least one first cosolvent selected from the group consisting of terpene alcohol, d-Limonene, and isoparaffinic hydrocarbons and the least one cosolvent selected from the group comprising of C1-C6 alkyl lactate. 16. The system of claim 14 where the waste gas stream site comprises a site having distinct cells of landfill waste mass and controls are present so that waste gas stream sites may be opened and closed from selected cells to control waste gas flow through the system. 17. The system of claim 16 where the waste gas stream site comprises a site having distinct piping to areas of a landfill waste site and controls are present so that waste gas stream sites may be opened and closed from selected areas of the landfill waste site to control waste gas flow through the system. 18. A process for the cleaning of waste polymeric material comprising: providing solid polymer material, reducing the size of the solid polymeric material into segments of solid polymeric material, at least surface contacting the segments of solid polymeric material with a cleaning solvent, removing cleaning solvent to provide partially cleaned segments of solid polymeric material, and cleaning the partially cleaned segments of solid polymeric material with densified carbon dioxide; wherein the solvent is a solvent system comprising C1-C6 alkyl lactate or a cosolvent system of at least one first cosolvent selected from the group consisting of terpene alcohol, d-Limonene, and isoparaffinic hydrocarbons and the least one second cosolvent selected from the group comprising of C1-C6 alkyl lactate. 19. The process of claim 18 wherein the densified carbon dioxide comprises liquid carbon dioxide or supercritical carbon dioxide. 20. The process of claim 19 wherein the solid polymeric material comprises polymeric material having label material adhered thereto. 21. A liquefied-gas cleaning system in combination with the system of claim 14 in which gas cleaning material is recycled within the system comprising: a liquefied-gas cleaner storage tank; a vent from the liquefied-gas cleaner storage tank to assist in conveying gas phase of the liquid cleaner to a cleaning region when the cleaning region is not cleaning with liquid gas so that vented gas may be stored as stored gas, a second venting system for transporting stored gas to a cooling tank where gas cleaner is cooled to a liquid as recycled liquefied gas and a further conveying system by which recycled liquefied-gas is introduced into the cleaning tank as a cleaning solvent or is placed into the liquefied-gas cleaner storage tank. 22. A system of combined processes operating from a source of at least three gas streams from a waste gas stream site are selected from the group consisting of: k) energy production, carbon black production, and hydrogen production; l) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation, and apparel cleaning; m) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation, and plastic cleaning; n) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation, plastic cleaning and pellitization of cleaned plastic; o) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation, plastic cleaning, plastic pellitization, and plastic molding or extrusion; p) energy production, carbon dioxide liquification, supererifical or liquid carbon dioxide formation, and aluminum cleaning; q) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation, aluminum cleaning, and cleaned aluminum ingot/sheeting formation; r) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation, and glass/ceramic cleaning; and s) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation, glass cleaning and glass melting processes, t) energy production, carbon dioxide liquification, supercritical or liquid carbon dioxide formation and solvent distillation processes wherein energy production comprises providing at least some energy derived from combustion of hydrocarbon gases from at least one of said three gas streams where the waste gas stream site comprises a site having distinct cells of landfill waste mass and controls are present so that waste gas stream sites may be opened and closed from selected cells to control waste gas flow through the system wherein at least some carbon dioxide from a carbon dioxide stream is used in a polymeric cleaning process, and cleaned polymer from the polymer cleaning process is pelletized and label removed from pelletized polymer using a cosolvent system comprising at least a first cosolvent selected from the group consisting of terpenes, D-limonene and parafinnic hydrocarbons, and at least one second cosolvent selected from the group consisting of C1-C6 alkyl lactates; and; carbon dioxide cleaning material is recycled within a cleaning and recycling portion of the system that comprises; a liquefied carbon dioxide storage tank; a vent from the liquefied carbon dioxide storage tank to assist in conveying a gas phase of the carbon dioxide cleaning material to a cleaning region when the cleaning region is not in a cleaning mode with liquid gas so that vented gas may be stored as stored gas, a second venting system for transporting stored gas to a cooling tank where gas cleaner is cooled to a liquid as recycled liquefied carbon dioxide and a further conveying system by which recycled liquefied carbon dioxide is introduced into the cleaning tank as a cleaning solvent or is placed into the liquefied carbon dioxide storage tank.