Abstract: The invention relates to a process for the production of hydrogen and carbon dioxide from a hydrocarbonaceous feedstock, comprising: a) supplying a gaseous hydrocarbonaceous feedstock and steam to a reaction zone comprising a steam reforming catalyst and catalytically reforming the hydrocarbonaceous feedstock to produce a reformed gas comprising hydrogen and carbon dioxide; b) supplying a molecular oxygen-comprising gas to the permeate side of a first hydrogen separation membrane; c) contacting a part of the hydrogen with a first hydrogen separation membrane, allowing the hydrogen to permeate through the first hydrogen separation membrane and combusting the hydrogen with the molecular oxygen at a permeate side of the first hydrogen separation membrane to produce all heat necessary for catalytic reforming the hydrocarbonaceous feedstock; d) contacting the remainder of the hydrogen with a second hydrogen separation membrane, which is separate from the first hydrogen separation membrane, and allowing the hydroge

Abstract: The invention provides a process for the separation of CO2 from a gaseous feed stream, comprising the subsequent steps of: a) cooling a porous body in the form of a fixed bed (101,102,103) to a temperature below the sublimation temperature of CO2 to obtain a cold body; b) contacting a gaseous feed stream (120) comprising CO2 and one or more other gaseous compounds with the surface of the cold body to obtain a body comprising solid CO2 and a CO2-depleted effluent gas (124); and c) removing the solid CO2 by exposing the porous body comprising solid CO2 to a fluid CO2 stream (130) having a temperature above the sublimation temperature of CO2 whereby fluid CO2 (136) and a warm porous body are obtained.

Abstract: The invention relates to a process for the production of hydrogen and carbon dioxide from a hydrocarbonaceous feed-stock, comprising: a) supplying a gaseous hydrocarbonaceous feedstock and steam to a reaction zone comprising a steam reforming catalyst and catalytically reforming the hydrocarbonaceous feedstock to produce a reformed gas comprising hydrogen and carbon dioxide; b) supplying a molecular oxygen-comprising gas to the permeate side of a first hydrogen separation membrane; c) contacting a part of the hydrogen with a first hydrogen separation membrane, allowing the hydrogen to permeate through the first hydrogen separation membrane and combusting the hydrogen with the molecular oxygen at a permeate side of the first hydrogen separation membrane to produce all heat necessary for catalytic reforming the hydrocarbonaceous feedstock; d) contacting the remainder of the hydrogen with a second hydrogen separation membrane, which is separate from the first hydrogen separation membrane, and allowing the hydrog

Abstract: This invention concerns methods and apparatus for processing Fischer-Tropsch off-gas comprising the following steps: a) subjecting Fischer-Tropsch off-gas to at least a water gas shift reaction and partial CO2 removal resulting in a Fischer-Tropsch off-gas with significantly reduced levels of carbon dioxide and a CO2 rich stream; and optionally b) subjecting part of the carbon dioxide depleted Fischer-Tropsch off-gas to synthesis gas manufacturing; and c) using another part of the carbon dioxide depleted Fischer-Tropsch off-gas for generating energy.

Abstract: The invention provides a process for the separation of CO2 from a gaseous feed stream, comprising the subsequent steps of: a) cooling a porous body in the form of a fixed bed (101,102,103) to a temperature below the sublimation temperature of CO2 to obtain a cold body; b) contacting a gaseous feed stream (120) comprising CO2 and one or more other gaseous compounds with the surface of the cold body to obtain a body comprising solid CO2 and a CO2-depleted effluent gas (124); and c) removing the solid CO2 by exposing the porous body comprising solid CO2 to a fluid CO2 stream (130) having a temperature above the sublimation temperature of CO2 whereby fluid CO2 (136) and a warm porous body are obtained.

Abstract: The invention relates to a catalyst or a precursor therefor in the form of a fixed arrangement, wherein the fixed arrangement comprises at least two layers, the first layer comprising as a catalytically active metal or precursor therefor rhodium or a rhodium compound and the second layer comprising as a catalytically active metal or precursor therefor iridium, osmium or platinum or a compound thereof. The invention also relates to catalyst particles or catalyst precursor particles comprising a first, outer layer comprising as a catalytically active metal or precursor therefor rhodium or a rhodium compound and a second layer comprising as a catalytically active metal or precursor therefor iridium, osmium or platinum or a compound thereof. The invention further relates to the use of the catalyst or the catalyst particles, especially in a process for the catalytic partial oxidation of a hydrocarboneous feedstock.