摘要:
A process for purifying a light hydrocarbon stream containing H2S is disclosed in which the selective catalytic partial oxidation of the H2S component is carried out while the hydrocarbon components slip through substantially unconverted. A catalyst that favors the partial oxidation of H2S over conversion of the hydrocarbon component of a gaseous H2S-light hydrocarbon mixture is employed. Apparatus for selectively cleaning up light hydrocarbon streams containing low concentrations (e.g., less than 25 vol. %), and apparatus for selectively cleaning up light hydrocarbon streams having higher concentrations (e.g., greater than 25 vol. %) of H2S are also disclosed.
摘要翻译:公开了一种用于纯化含有H 2 S的轻质烃流的方法,其中进行H 2 S 2组分的选择性催化部分氧化,同时烃组分滑过 基本未转换 采用有利于H 2 S 2部分氧化的催化剂超过气态H 2 S-S / S轻烃混合物的烃组分的转化。 用于选择性清洁含有低浓度(例如小于25体积%)的轻质烃流的装置,以及用于选择性清洗具有较高浓度(例如大于25体积%)H 2的轻烃流的装置 还公开了S。
摘要:
A process for purifying a light hydrocarbon stream containing H2S is disclosed in which the selective catalytic partial oxidation of the H2S component is carried out while the hydrocarbon components slip through substantially unconverted. A catalyst that favors the partial oxidation of H2S over conversion of the hydrocarbon component of a gaseous H2S-light hydrocarbon mixture is employed. Apparatus for selectively cleaning up light hydrocarbon streams containing low concentrations (e.g., less than 25 vol. %), and apparatus for selectively cleaning up light hydrocarbon streams having higher concentrations (e.g., greater than 25 vol. %) of H2S are also disclosed.
摘要翻译:公开了一种用于纯化含有H 2 S的轻质烃流的方法,其中进行H 2 S 2组分的选择性催化部分氧化,同时烃组分滑过 基本未转换 采用有利于H 2 S 2部分氧化的催化剂超过气态H 2 S-S / S轻烃混合物的烃组分的转化。 用于选择性清洗含有低浓度(例如小于25体积%)的轻烃流的装置,以及用于选择性清洗具有较高浓度(例如大于25体积%)H 2的轻质烃流的装置 还公开了S。
摘要:
A process of combusting a gaseous volatile organic compound over a modified alumina catalyst at a temperature below 5° C. while exothermically producing CO2 and H2O at a temperature from about 5° C. to about 1100° C.
摘要翻译:在低于5℃的温度下在改性氧化铝催化剂上燃烧气态挥发性有机化合物的过程,同时在约5℃至约1100℃的温度下放热产生CO 2和H 2 O.
摘要:
This application provides an H2S scrubbing system, a column packed with an inert material, wherein an inert gas passes counter to a flow of a hydrotreated product containing H2S through said column. There is also provided a method for scrubbing H2S from a hydrotreated product, comprising providing a hydrotreated product containing H2S; and passing the hydrotreated product over a column packed with an inert material, wherein an inert gas passed counter to a flow of the hydrotreated product.
摘要:
A process for removing naphthenic acids from an aqueous stream using a composition comprising calcium and activated carbon, and optionally a process for removing naphthenic acid and selenium compounds from an aqueous stream, is disclosed.
摘要:
This application provides an H2S scrubbing system, a column packed with an inert material, wherein an inert gas passes counter to a flow of a hydrotreated product containing H2S through said column. There is also provided a method for scrubbing H2S from a hydrotreated product, comprising providing a hydrotreated product containing H2S; and passing the hydrotreated product over a column packed with an inert material, wherein an inert gas passed counter to a flow of the hydrotreated product.
摘要:
It has been discovered that the residence time of oils/fats in metal apparatus, particularly in the upstream of a hydrotreating unit, for example, a heat exchanger and/or a storage/feed tank, can impact significantly on corrosiveness of oils/fats in combination with and without conventional hydrocarbons. In addition, it is also found that the presence of hydrogen in the metal apparatus can also inhibit the corrosion rate of oils/fats.
摘要:
The present invention provides novel catalysts for accomplishing catalytic decomposition of undiluted light hydrocarbons to a hydrogen product, and methods for preparing such catalysts. In one aspect, a method is provided for preparing a catalyst by admixing an aqueous solution of an iron salt, at least one additional catalyst metal salt, and a suitable oxide substrate support, and precipitating metal oxyhydroxides onto the substrate support. An incipient wetness method, comprising addition of aqueous solutions of metal salts to a dry oxide substrate support, extruding the resulting paste to pellet form, and calcining the pellets in air is also discloses. In yet another aspect, a process is provided for producing hydrogen from an undiluted light hydrocarbon reactant, comprising contacting the hydrocarbon reactant with a catalyst as described above in a reactor, and recovering a substantially carbon monoxide-free hydrogen product stream. In still yet another aspect, a process is provided for catalytic decomposition of an undiluted light hydrocarbon reactant to obtain hydrogen and a valuable multi-walled carbon nanotube coproduct.