An apparatus, system, and method for processing hydrocarbon-containing wastes are described. The system and method include the use of a gasification apparatus comprising a rotary kiln reactor and a gas distributor. The rotary kiln reactor and gas distributor are configured to generate multiple reaction environments within the gasification apparatus. Each of the reaction environments has unique temperature reaction conditions to suit various physical and chemical properties associated with processing of the varied-source hydrocarbon-containing wastes.

An apparatus, system, and method for processing hydrocarbon-containing wastes are described. The system and method include the use of a gasification apparatus comprising a rotary kiln reactor and a gas distributor. The rotary kiln reactor and gas distributor are configured to generate multiple reaction environments within the gasification apparatus. Each of the reaction environments has unique temperature reaction conditions to suit various physical and chemical properties associated with processing of the varied-source hydrocarbon-containing wastes.

The invention relates to a method for hydrothermal carbonisation of biomass containing organic matter, the method comprising: —injecting the biomass, a heat transfer fluid and a reagent into a reactor (1), —circulating a mixture consisting of the biomass, the heat transfer fluid and the reagent under specific pressure and temperature conditions for transforming the organic matter by hydrothermal carbonisation. The invention consists in: 1) determining the production rate of the emitted gas T.sub.e during the hydrothermal carbonisation reaction; 2) comparing the determined production rate of the emitted gas T.sub.e with a predefined value for the set gas production rate T.sub.c, and 3) adjusting at least one of the reaction control parameters chosen from among the temperature within the reactor (1), the quantity of injected reactant, and the residence time in the reactor in order to adjust the production rate of the emitted gas T.sub.e, such that the value of said production rate of the emitted gas Te tends to be equal to the value of the set gas production rate T.sub.c. The invention is applicable to treatment of biomass containing organic matter.

The invention relates to a method for hydrothermal carbonisation of biomass containing organic matter, the method comprising: —injecting the biomass, a heat transfer fluid and a reagent into a reactor (1), —circulating a mixture consisting of the biomass, the heat transfer fluid and the reagent under specific pressure and temperature conditions for transforming the organic matter by hydrothermal carbonisation. The invention consists in: 1) determining the production rate of the emitted gas T.sub.e during the hydrothermal carbonisation reaction; 2) comparing the determined production rate of the emitted gas T.sub.e with a predefined value for the set gas production rate T.sub.c, and 3) adjusting at least one of the reaction control parameters chosen from among the temperature within the reactor (1), the quantity of injected reactant, and the residence time in the reactor in order to adjust the production rate of the emitted gas T.sub.e, such that the value of said production rate of the emitted gas Te tends to be equal to the value of the set gas production rate T.sub.c. The invention is applicable to treatment of biomass containing organic matter.

The present invention proposes a plant (110) for producing reaction products. The plant (110) comprises at least a preheater (114). The plant (110) comprises at least one raw material supply (118) which is adapted for supplying at least one raw material to the preheater (114). The preheater (114) is adapted for preheating the raw material to a predetermined temperature. The plant (110) comprises at least one electrically heatable reactor (122). The electrically heatable reactor (122) is adapted for at least partially converting the preheated raw material into reaction products and byproducts. The plant (110) comprises at least one heat integration apparatus (132) which is adapted for at least partially supplying the byproducts to the preheater (114). The preheater (114) is adapted for at least partially utilizing energy required for preheating the raw material from the byproducts.

The present invention proposes a plant (110) for producing reaction products. The plant (110) comprises at least a preheater (114). The plant (110) comprises at least one raw material supply (118) which is adapted for supplying at least one raw material to the preheater (114). The preheater (114) is adapted for preheating the raw material to a predetermined temperature. The plant (110) comprises at least one electrically heatable reactor (122). The electrically heatable reactor (122) is adapted for at least partially converting the preheated raw material into reaction products and byproducts. The plant (110) comprises at least one heat integration apparatus (132) which is adapted for at least partially supplying the byproducts to the preheater (114). The preheater (114) is adapted for at least partially utilizing energy required for preheating the raw material from the byproducts.

Provided is a method of manufacturing syngas including (S1) heat-treating organic wastes under a catalyst in a first reactor to produce a first mixed gas; (S2) separating the catalyst and carbon dioxide (CO.sub.2) from the first mixed gas, and recovering a mixed gas from which the catalyst and the carbon dioxide (CO.sub.2) have been removed; (S3) converting the carbon dioxide (CO.sub.2) separated in (S2) into carbon monoxide (CO) by a reverse Boudouard reaction in a second reactor; and (S4) mixing the mixed gas recovered in (S2) and the carbon monoxide (CO) converted in (S3) to produce syngas.

Provided is a method of manufacturing syngas including (S1) heat-treating organic wastes under a catalyst in a first reactor to produce a first mixed gas; (S2) separating the catalyst and carbon dioxide (CO.sub.2) from the first mixed gas, and recovering a mixed gas from which the catalyst and the carbon dioxide (CO.sub.2) have been removed; (S3) converting the carbon dioxide (CO.sub.2) separated in (S2) into carbon monoxide (CO) by a reverse Boudouard reaction in a second reactor; and (S4) mixing the mixed gas recovered in (S2) and the carbon monoxide (CO) converted in (S3) to produce syngas.

An application for a recycler includes a pressure and temperature resistant metal vessel that is filled with a liquid. Within the vessel is at least one submerged electric arc between a pair of electrodes (e.g. carbon based electrodes) powered by either a DC or AC current. The electric arc produces a combustible gas as the liquid is pumped through a bore in one or both of the electrodes, delivering the liquid directly to the location of the arc, thereby reducing or eliminating any ignition of the gas by the arc. Should ignition occur, at least one vent in the electrode(s) or electrode holder(s) vents pressure from within the bore to the vessel area outside of the electrode(s).

An application for a recycler includes a pressure and temperature resistant metal vessel that is filled with a liquid. Within the vessel is at least one submerged electric arc between a pair of electrodes (e.g. carbon based electrodes) powered by either a DC or AC current. The electric arc produces a combustible gas as the liquid is pumped through a bore in one or both of the electrodes, delivering the liquid directly to the location of the arc, thereby reducing or eliminating any ignition of the gas by the arc. Should ignition occur, at least one vent in the electrode(s) or electrode holder(s) vents pressure from within the bore to the vessel area outside of the electrode(s).