Membrane cascade with falling separation temperature

1 . Process for separating a composition of matter with the aid of a membrane cascade having at least two stages, in which a separation is effected in each stage at at least one membrane at a separation temperature set for the particular stage, characterized in that the particular separation temperature falls from stage to stage in the direction of the incoming composition of matter. 2 . Process according to claim 1 , characterized in that the membrane cascade is an enriching cascade. 3 . Process according to claim 2 , characterized in that the permeate that results from the membrane cascade has permeated through all the stages of the membrane cascade. 4 . Process according to claim 2 , characterized in that at least the retentate of one stage is recycled into the feed to the same stage and/or into the feed to another stage positioned counter to the direction of the incoming composition of matter. 5 . Process according to claim 1 , characterized in that the membrane cascade has exactly two or exactly three or exactly four stages. 6 . Process according to claim 1 , characterized in that each stage of the membrane cascade has a dedicated temperature control unit which sets the temperature of the feed to the particular stage to the particular temperature set for that stage. 7 . Process according to claim 6 , characterized in that at least one temperature control unit is a cooler. 8 . Process according to claim 1 , characterized in that the composition of matter originates from a homogeneously catalyzed chemical reaction, and in that it comprises at least one product of the reaction, at least one reactant unconverted in the reaction, and the catalyst system present in the reaction and/or at least one constituent and/or a degradation product thereof, the catalyst system or constituent thereof or degradation product thereof being dissolved in the composition of matter. 9 . Process according to claim 8 , characterized in that the reaction is a hydroformylation, the product being an aldehyde or an alcohol, the reactant being an olefin or synthesis gas, and the catalyst system being rhodium complexed with an organometallic complex, especially with an organophosphorus complex. 10 . Membrane cascade, especially enriching cascade, for separating a composition of matter, comprising at least two stages arranged in series, characterized in that each stage of the membrane cascade has a dedicated temperature control unit, by mean of which the temperature of the feed to the particular stage is set to a particular temperature set for that stage, and the particular separation temperatures are set such that—viewed in the direction of the incoming composition of matter—the particular separation temperature falls from stage to stage. 11 . Use of a membrane cascade according to claim 10 for separation of a dissolved catalyst complex and/or at least one constituent and/or degradation product thereof from a composition of matter originating from a chemical reaction homogeneously catalysed in the presence of the catalyst complex. 12 . Process for hydroformylating ethylenically unsaturated compounds by reaction with carbon monoxide and hydrogen in the presence of a catalyst system comprising a dissolved metal complex of a metal of the eighth transition group of the Periodic Table of the Elements with at least one organophosphorus compound as ligands, in which a reaction mixture comprising not only hydroformylation products but also unconverted reactants and the catalyst system or at least constituents and/or degradation products thereof in dissolved form is obtained, wherein the reaction mixture is sent to a catalyst separation in which the catalyst system or constituents and/or degradation products thereof are separated from the reaction mixture at least partly by means of membrane technology for the purpose of recycling into the hydroformylation, characterized in that the catalyst separation comprises a membrane cascade having at least two stages, in which a separation is effected in each stage at at least one membrane at a separation temperature set for that particular stage, the particular separation temperature falling from stage to stage—viewed in the direction of the incoming reaction mixture. 13 . Process according to claim 3 , characterized in that at least the retentate of one stage is recycled into the feed to the same stage and/or into the feed to another stage positioned counter to the direction of the incoming composition of matter.