Process for purifying raw-material gases by fractionation

The invention claimed is: 1. A process for cleansing a raw material having a content of contaminants by fractionation, with which a raw material is split up into a stream of gas with a high purity and a stream of gas with a low purity, the contaminants having a higher boiling-point than the raw material, and at least one of the contaminants being an explosive substance, comprising: I. evaporating the raw material in a first evaporator to yield a raw-material gas, or making available a raw-material gas from a supply source, II. introducing the raw-material gas into a wash column in which a washing liquid for diminishing the content of contaminants trickles towards said gas, III. removing and partially condensing the raw-material gas purified in this way at the head of the wash column to form a condensate that is returned as washing liquid to the head of the wash column, and drawing off remaining raw-material gas from the wash column, the remaining raw-material gas having a lower content of contaminants than the raw-material gas yielded or made available in step I, IV. removing the washing liquid as a stream of liquid at the bottom of the wash column, the washing liquid having a higher content of contaminants than the washing liquid used in step II, V. introducing the washing liquid removed from the bottom of the wash column into the top of a second evaporator comprising vertically arranged tubes, wherein the washing liquid removed from the bottom of the wash column flows in the tubes from top to bottom and completely evaporates before reaching the bottom of the second evaporator to generate a vapour, VI. guiding the vapour and not yet evaporated washing liquid in co-current flow through the tubes in the second evaporator, and VII. removing the vapour from the second evaporator as a stream of gas that exhibits a higher content of contaminants than the raw-material gas yielded or made available in step I. 2. The process of claim 1 , wherein the raw material is evaporated completely to yield the raw-material gas. 3. The process of claim 1 , wherein in step V the vapour that is generated is drawn off below in the bottom. 4. The process of claim 1 , wherein in step V the washing liquid removed from the bottom of the wash column is routed only through one part of the tubes of the second evaporator and after redirection does not issue in the bottom but again flows upwards through the other part of the tubes, is thereby superheated, and issues from the second evaporator at the top. 5. The process of claim 1 , wherein the raw material is chlorine and the contaminants are bromine and NCl 3 . 6. The process of claim 1 , wherein prior to entering the wash column the raw-material gas is routed through a recuperator in which it is cooled, and on the other side of the recuperator the purified stream of gas remaining after condensation at the head of the wash column is conducted and superheated. 7. The process of claim 1 , wherein the wash column is arranged above the second evaporator, the raw-material gas from the first evaporator is conducted only partly into the wash column and into the recuperator, whereas the residual portion of the raw-material gas is mixed directly with the stream of gas of low purity from the second evaporator, the loss of pressure of the stream of gas of low purity that arises in the course of flowing through the apparatuses being compensated by a liquid-filled vertical section of the connecting line between column bottom and second evaporator. 8. The process of claim 1 , wherein the raw material in the first evaporator is only partially evaporated, and the evaporated portion of the raw material is routed into the wash column and into the recuperator, the washing liquid trickling towards it in the column is routed into the first evaporator and from there, together with the non-evaporated portion of the raw material, arrives at the second evaporator.