Disclosed is an absorbing liquid for separating and capturing carbon dioxide from a carbon dioxide-containing gas, the absorbing liquid containing: at least one alkanolamine represented by formula (1)

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wherein R.sup.1 represents hydrogen or C.sub.1-4 alkyl, R.sup.2 and R.sup.3 are identical or different and each represent hydrogen or C.sub.1-3 alkyl, R.sup.1, R.sup.2, and R.sup.3 are not all hydrogen, and n is 1 or 2; a low-molecular-weight diol compound and/or glycerin; and water.

The present invention concerns a method for oxidizing reactant sulfur(S) and/or reactant sulfur dioxide (SO2) by means of carbon dioxide (CO2), comprising the steps of: a) decomposing CO2 to form carbonyl (CO) radicals and oxygen (O) radicals by igniting a plasma in a plasma process fluid stream comprising said CO2: b) contacting reactant sulfur and/or reactant sulfur dioxide with said oxygen radicals, thereby: oxidizing said reactant sulfur to product sulfur dioxide and/or product sulfur trioxide (SO3), and/or oxidizing said reactant sulfur dioxide to product sulfur trioxide, thereby obtaining an outlet fluid stream comprising said product sulfur dioxide and/or said product sulfur trioxide.

A bottom fraction of a product of a hydrocatalytic reaction is gasified to generate hydrogen for use in further hydrocatalytic reactions. In one embodiment, an overhead fraction of the hydrocatalytic reaction is further processed to generate higher molecular weight compounds. In another embodiment, a product of the further processing is separated into a bottom fraction and an overhead fraction, where the bottom fraction is also gasified to generate hydrogen for use in further hydrocatalytic reactions.

Disclosed is a method for purifying a main gas, in particular helium, from a source gas stream comprising the main gas, a main impurity, in particular nitrogen, and optionally another, secondary impurity, in particular oxygen, the method comprising a step of partial condensation of the gas stream in order to extract therefrom impurities in liquid form, in particular the main impurity, and to produce a gas stream enriched with main gas, characterized in that the method comprises, before the partial condensation step, a step of injecting into the gas stream a compound in which the main impurity of the gas to be treated is soluble and having a saturation vapor pressure lower than the saturation vapor pressure of the main impurity.

The apparatus includes one or more cylindrical housings connected to one another, a jacket on an outer side of a housing, an inner cylinder disposed at least in an interior of a first cylindrical housing, a heat insulation gasket, inner members, a corrosive high temperature gas inlet disposed on the heat insulation gasket, a gas and liquid phase outlet disposed at a bottom of the housing or a bottom of a last housing and a coolant inlet and outlet connected to an interior of the jacket. The heat insulation gasket seals the first cylindrical housing and a top of the inner cylinder in the interior of the first cylindrical housing. The inner members are distributed along a wall of the housing, communicate an interior of the jacket with an interior of the housing, and distribute a liquid in the interior of the jacket to the interior of the housing.

A facility (100) for storing hydrogen in an organic liquid is disclosed. The facility (100) comprises an absorption chamber (190) adapted to hold the organic liquid, to receive synthesis gas such that the organic liquid sorbs the synthesis gas, separates the hydrogen from other components of the synthesis gas and bounds the hydrogen to store the hydrogen in the organic uid, and to release the other components of the synthesis gas from the organic liquid. Further, a method for storing hydrogen in an organic liquid is disclosed.