DE3816041C2 - - Google Patents

Description

The invention relates to a method for separating or ganic compounds, especially halogenated coals hydrogen, from water by liquid-liquid extraction, wherein the water flows through an extraction vessel, which a solid filling with a large inner surface and fill out at least part of the solid filling layer of a liquid, water-immiscible Contains extractant.

A method of this type is known from DE 36 18 698 A1. With him, the water is supported on many by the support structure fine flow channels divided and thereby intimate Contact with that in the gaps of the support structure brought existing liquid extractant. Man he maintains an effective mass transfer of the organic compound in the extractant, and the extractant Droplets are largely removed from the support structure retained so that the treated water has no or only  small proportions of dispersed extractant with it leads.

An extraction method is also known from DE 27 04 569 A1 knows, in which the water ent the extractant holding solid filling, namely a pumice stone tion, flows through, but the extractant none forms the layer filling the spaces between the fill, but only contained in the pores of the pumice stone. Out DE 34 15 464 A1 discloses an extraction method in the extractant to the water as temporarily stable Dispersion added and by flowing through an absorbent tion filter bed is removed from the water again.

While predominantly non-volatile verb by extraction separated from water is used for removal volatile organic compounds from water preferably the stripping process with a stripping gas or applied with steam, as in the book by F. Meinck "Industrial Wastewater" Stuttgart, 1968, pages 145 to 150 and in cav April 1987, pages 85, 86 described in more detail becomes. The wastewater contains both non-volatile as well volatile impurities, there is a Kombina extraction and stripping. From DE 31 20 109 A1 and US-27 73 003 A methods are known in which from Industrial wastewater first volatile organic pollution cleaning by stripping with steam or with a stripping  gas is removed and the wastewater is then extracted existing non-volatile impurities in a ge countercurrent extraction column or in an extraction vessel brought into contact with a liquid extractant becomes. Conversely, one is known from US-45 18 502 A. Proceeded procedure in which the water is first through a Counterflow extraction column for extracting the not volatile contaminants and then through a stripper to remove the volatile impurities with Nitrogen is passed as stripping gas. All of them got The processes are two-stage or multi-stage processes.

From the above-mentioned DE 36 18 698 A1 it is also known, the method also for the separation of gaseous organic contaminants from a gas stream to use. For this purpose, the gas flow is simultaneous with the Wastewater passed through the extraction vessel; the gaseous Connections are partly through direct Contact with the extractant eliminated, partially loosened They first sit in the water and then become together with the connections already existing in these Extractant extracted. An improvement of the Reini supply of water from the organic compound contained therein However, it is not aimed at or achieved in this way.

The invention has for its object the effectiveness the above-mentioned method for separating organi  to further improve connections from water and to expand its scope.

The achievement of the object is in claim 1 specified. By performing both the Liquid-liquid extraction as well as stripping or Expulsion of volatile organic compounds from the water by means of air as stripping gas are effective in mer wise and without much additional effort Wastewater cleaned with a combination of heavy and volatile hydrocarbons, especially as Chlorinated hydrocarbons used as solvents, unsettled are nigt.

Further advantageous embodiments of the invention are in specified in the subclaims.

An embodiment of the invention is based on the drawing tion explained in more detail. This shows the flow diagram of one Plant for carrying out the separation separator according to the invention driving.

In Fig. 1, the thick lined line 1 indicates the path of the water to be treated by the process stages. The water is first pre-cleaned in a heavy liquid separator 3 and a light liquid separator 5 by gravity from sinking heavy liquids or from floating light liquids such as petrol and fat, and then fed to two extraction vessels 7 , 9 connected in cascade. Each of the extraction vessels 7 , 9 contains a solid filling 11 held between porous support bases and of good permeability and high inner surface. It can be, for example, a filling made of loose packing or a filling made of knitted metal or a filling made of a plastic skeleton foam. The solid filling offers a multitude of flow channels for the incoming wastewater. In each extraction vessel 7 , 9 there is also a floating layer 13 of a liquid extractant, which extends from above into the solid filling 11 , so that at least the upper region of the solid filling 11 is constantly flooded with the liquid extracting agent 13 . The respective Ex traction vessel 7 and 9 supplied water must flow through the extraction medium layer 13 and is divided into many fine flow threads when flowing into the solid filling 11 , each of the flow threads in the upper region being filled with the extractant 13 . This results in a particularly effective and intensive interaction of the water with the extractant. Depending on the thickness of the extractant layer 13 , a lower region of the solid filling 11 remains free of extractants and acts as a filter for collecting and retaining droplets of extractant which are entrained by the water from the layer 13 .

Via a line 15 , air is introduced as stripping gas into the extraction vessels 7 and 9 below the respective solid filling 11 and is blown in through a distributor 17 so that it flows through the extraction vessel 7 or 9 in countercurrent to the water. Volatile portions of the organic compounds contained in the water or in the extractant 13 are absorbed by the air serving as stripping gas. The air withdrawn from the closed extraction vessels 7 , 9 in each case is fed to a treatment stage 19 for retaining the organic compounds absorbed by the air. In particular, treatment stage 19 can be an activated carbon filter.

The water drawn off from the second extraction vessel 9 and now cleaned of organic compounds is still passed through an adsorption coalescence filter 21 which contains a solid filling 23 made of a material with a high inner surface that is absorbent and coalescing for the extractant 13 . This can also be a plastic skeletal foam. Any droplets of the extraction agent entrained by the wastewater from the extraction vessel 9 will adhere to the solid filling 23 of the adsorption coalescence filter, combine there to form larger droplets and finally float to the surface. The cleaned water is drawn off via the drain line 25 with shut-off device 27 . The adsorption coalescence filter 21 is connected via the line 20 to the activated carbon filter 19 , so that this vessel can also be operated without pressure.

Can be used as extractant in the extraction vessels in particular such sorption liquids used that are oleophilic and insoluble in water. Also the extractant should be not very volatile, so that it is not absorbed by the air serving as stripping gas. Preferably, the extractant should also be through low specific weight easily separable from water  be. Modified paraf have proven particularly suitable fin or silicone oils proven.

Claims (8)

1. A method for separating organic compounds, in particular halogenated hydrocarbons, from water by liquid-liquid extraction, the water flowing through an extraction vessel which has a solid filling with a large inner surface and an at least part of the solid filling layer of a liquid , With what water immiscible extractant contains, characterized in that for simultaneous separation of volatile organic compounds from the water air is passed through the extraction vessel as a stripping gas in a fine bubble. 2. The method according to claim 1, characterized records that the air used as stripping gas after deduction from the  Extraction vessel of a treatment stage for separating the added organic compounds to be led. 3. The method according to claim 2, characterized records that the treatment stage is an activated carbon contains filter. 4. The method according to claim 1, characterized records that the air is countercurrent to the Water is passed through the extraction vessel. 5. The method according to claim 1, characterized records that the water passes through two or more interconnected extraction vessels, the same or contain different extractants becomes. 6. The method according to claim 1, characterized records that the water after withdrawal from the Ex traction vessel through a separation stage for separation mitgeris sener or dispersed portions of the extractant is directed. 7. The method according to claim 6, characterized  records that the separation stage from an ad sorption coalescence filter. 8. The method according to claim 1, characterized records that the extractant in the Ex traction vessel circulated continuously or intermittently becomes.