NL8601350A - METHOD FOR REMOVING AND RECOVERING UNDISSOLVED ORGANIC SUBSTANCES AND ANY DISSOLVED ORGANIC SUBSTANCES FROM WATER. - Google Patents

Description

ΐ - 1 -? HP / AB / 99

Method for removing and recovering undissolved organic substances and any dissolved organic substances from water

The invention relates to a process for removing and recovering undissolved organic substances and any dissolved organic substances from water, using a column filled with an adsorber resin.

In many branches of industry, preferably in the chemical industry, wastewater is formed containing mineral, paraffin oil, long chain alcohols or compounds such as alkyl benzole, etc.. These substances are only slightly soluble in water and are often present in water in very finely divided droplet form.

Wastewater with alkylbenzol / paraffin oil mixtures are generated, for example, in vacuum distillation to clean starting materials for the detergent manufacturing industry. The organic impurities in the form of paraffin oil and alkylbenzol can be up to 10 g / l, the majority being in undissolved form.

The dissolved proportion, on the other hand, is relatively small and ranges from approximately 10 to 100 mg / l.

Oil scrapers or sheet separators are conventionally used for cleaning such waste water, but these systems have some serious drawbacks.

In principle, a separation of the oil-25 / water mixture takes place on the basis of a difference in density. Although oil shearers normally do not include further internal structures, plates or baffles are placed differently in the separators. The divorce . between the organic and aqueous phase, this preferably takes place on the plate surface, because here the mixing of fine oil droplets is most favorable.

Owing to the high stability of the oil / water emulsion, oil separators have a relatively low degree of effectiveness, so that they are used sporadically.

5 The separating effect of separators is better in many cases sufficient. However, a biological mat forms on the plates and between the oil / water interface within a short period of time, so that flow-technical problems occur in the separator, and so that the resolution is greatly reduced.

In addition, both systems are unable to separate the dissolved organic components from the wastewater.

It is also possible to remove such organic substances from the water, for example by ultrafiltration, centrifugation, extraction or adsorption on active carbon. The first two methods are relatively expensive and uneconomical for large amounts of waste water.

The effectiveness of an extraction mainly depends on good phase separation? however, in many cases this does not always occur. In addition, due to the water solubility of the extractant, residues thereof accumulate in the aqueous phase, naturally deteriorating the cleaning effect. The drawback of adsorption on active carbon relates to the poor regenerability of carbon after deposition of low volatiles thereon. Activated carbon must be reactivated or stored or burned after treatment with expensive methods.

Methods are known in which plastic granulates are used in the form of polystyrene or polyurethane particles. These systems are preferably used for an additional separation, for example after oil separators. Of course, only the undissolved organic components are removed from the water. Filters or filter aids of this kind are only suitable for the removal of organic substances present in undissolved form and then only up to a certain droplet size. Other dissolved organic compounds present, such as benzene, toluene, etc., cannot be removed.

Furthermore, it is known that adsorber resins based on poly-5-styrene copolymers without functional end groups and with a certain porosity are able to adsorb organic substances from water with a different effectiveness. The loaded resin can be regenerated and reused with solvents, for example acetone or methanol, see for example the applicant's patent application P 33 35 995.4.

The object of the invention is therefore to provide a method which does not have the described drawbacks of the known working methods and is able to purify the waste water in a corresponding manner and actually deliver the required residual concentrations and whereby at a given volume a larger amount of water or waste water can be treated on adsorber resin.

This is achieved in accordance with the method according to the invention, in that a column partially filled with the adsorber resin is agitated with the water to be cleaned until a part of the undissolved organic substances forms a separated layer of an organic phase. simultaneously separating residual, undissolved organics directly on the resin surface and adsorbing any residual, undissolved organics in the pores of the resin, and dissolving organic matter and any dissolved organics, if any, separated from the water are recovered.

Preferred embodiments of the method according to the invention are further described in patent claims 2-12.

The method according to the invention is not only useful for good adsorption capacity of the resin, but surprisingly it has been found that the undissolved organic substances on the surface of a resin bed in the form

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- 4 - are separated from depth filtration and rise or sink in the aqueous phase, depending on their density, to form a separated layer of an organic phase. This separating organic phase serves as an additional pre-cleaning for the waste water flowing through this separated layer, because drops of undissolved organic substances are thereby separated from water in the same manner as during extraction.

The method according to the invention will be further elucidated in the following detailed description: 1. Pre-cleaning for a floating phase; 2. Depth filtration at the resin surface; 3. Adsorption of any dissolved constituents present in the pores of the resin, insofar as these are not already retained in the separated layer of the organic phase.

Technically, the method according to the invention is carried out in a column or column at no great cost.

The separated layer, which consists of an organic phase, which either floats or sinks downwards, is rinsed with water from the column or column after certain time intervals, while the remaining undissolved organics and any residues, if any, are directly separated from the resin surface. dissolved organics present in the pores of the resin are advantageously removed from time to time by solvent treatment. Thereby, it is not required that the time interval for removing the separated layer consisting of an organic phase coincide with the time intervals for the treatment with a solvent.

The method according to the invention is further elucidated with reference to the figure of the drawing appended to the appendix, wherein the removal and recovery of organic substances with a density below 1 is further described.

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In figure I 1 represents the floating, separated layer consisting of an organic phase, 2 represents a slotted bottom, 3 represents the part of the resin surface on which the very fine oil droplets of the organic substances 5 are agglomerated, which subsequently top slit bottom 2 steps to form the separated layer consisting of the floating organic phase 1, and 4 means the actual adsorption zone of the adsorption resin, in which residual dissolved organics are retained in the pores 10 of the resin, respectively, on its surface.

In a pilot experiment, a resin bed volume of 30 L in a suitable column corresponding to the column shown in the drawing was used, the height of the resin bed was 0.6 m and its diameter was 0.25 m. height of the column was 2.0 m.

As the contaminated water, water containing paraffin oil, benzene and alkylbenzene was used in a ratio of about 1: 0.1: 1 at a concentration of 200 to 1000 ppm (ppm = parts per million).

The contaminated water was passed through the column at an amount of 450 l / h, after equilibration in the column the total concentration of paraffin oil, benzene and alkylbenzene in the leaving, purified water was on average below 1 mg / l, i.e. below 1 ppm.

This shows that not only the undissolved paraffin oil and alkyl benzene are removed with good effectiveness, but also the benzene dissolved in the water is almost completely bound to the adsorber resin.

In addition, a test was carried out in which a number of loading cycles with waste water of the above-mentioned composition were carried out. Regenerations are performed after 72, 168, 240, 336 and 480 operating hours. The concentration of organic substances in the wastewater to be treated varied between 200 and 800 ppm, in the purified wastewater the maximum concentration of non-removed, -v Λ 0, Λ - · * - 1! ν 'j ν j w 3--' V; · ·. · _. . '*. Organics about 2 ppm, but very low values of 0.2 ppm were also obtained from time to time. The floating, separated layer consisting of an organic phase was removed by backwashing with water after time intervals of 24 to 48 hours, depending on the starting concentrations.

The resin must be cleaned after a certain time interval. This preferably takes place with a suitable solvent, whereby the adsorbed amount is eluted.

The solvent remaining after regeneration is removed from the resin surface by steam treatment or vacuum drying.

This actually prevents the formation of a biological mat or deposits in the column.

The effluent mixture of solvent and organic substances can subsequently be distilled in a manner known per se, whereby a pure solvent is recovered, which can be used again for regeneration.

The organic substances remaining in the residue during distillation can be reused as required or, for example, processed by incineration.

The organic phase floating in zone 1 is rinsed out of the column by backwashing with water, that is, in the opposite flow direction to the flow of the water to be treated, and is reused in a corresponding manner after separation of the water. or processed.

The backwashing operation simultaneously removes any deposits due to a bioconversion from the column.

When using the method according to the invention for removing organic substances with a density greater than 1, the formation of the separated layer consisting of an organic phase naturally takes place in the bottom part of the column, in which case 8601350 - 7 - the slotted bottom 2 is of course located at a higher position in the column, so that there is sufficient space, only filled with water, in the lower part of the column.

The method according to the invention is thus able to separate undissolved organic substances and also any dissolved organic substances present from water or waste water in a relatively simple and extremely economical manner.

Because the concentrations in the cleaning water are on average at 1 mg / l = 1 ppm, so that the organic substances are practically removed, it can also be used for cleaning water from such substances in a cycle, whereby the water is repeated a number of times. can be reused. Furthermore, it is possible to reuse the purified water on the basis of its relatively small amount of organic substances or impurities for further rinsing processes.

The method according to the invention is particularly suitable for cleaning water containing as impurities paraffin oil and alkyl benzene, as well as optionally small amounts of benzene. Such wastewater is produced by the distillative cleaning of raw materials for detergent preparation, 25 e 5S p * V Λ '~ l v y k \ 3

Claims (12)

Method for removing and recovering undissolved organic substances and any dissolved organic substances from water, using a column filled with an adsorber resin, characterized in that a column partly filled with the adsorber resin for so long with the water to be cleaned is brought into contact, until a part of the undissolved organic substances forms a separated layer of an organic phase, while at the same time residual, undissolved organic substances are separated directly on the resin surface and any dissolved organic substances present in the pores of the resin is adsorbed, and the undissolved organic matter separated from the water and any dissolved organic matter present are recovered. Method according to claim 1, characterized in that for organic substances with a density below 1, the adsorber resin bed flows with the contaminated water from top to bottom. 3. Process according to claim 1, characterized in that for organic substances with a density below 1, the adsorber resin bed flows with the contaminated water from the bottom upwards. 4. Process according to claim 1, characterized in that the separated layer consisting of an organic phase is separated from the column by backwashing with water. Method according to claim 1, characterized in that the removal of undissolved substances is carried out alternately in at least two separate, parallel-connected columns. 6. Process according to claim 1, characterized in that the residual, undissolved organics and any dissolved organic matter present on the resin surface are recovered directly from the pores of the resin by rinsing with a solvent 16 0 1 3 5 0- - 9 - takes place .. Process according to claim 6, characterized in that the solvent used is acetone. 8. Process according to claim 6, characterized in that methanol is used as the solvent. Process according to claim 6, characterized in that the solvent used is isopropanol. 10. Process according to claims 6-9, characterized in that the residual solvent is removed from the adsorber resin after regeneration by rinsing with water. Process according to any one of claims 1 to 9, characterized in that the residual solvent is removed from the adsorber resin after regeneration by steam treatment. A method according to claims 6-9, characterized in that the residual solvent is removed from the adsorber resin after regeneration by vacuum drying. Ï? fh A * 7 - ö iv 1 0 0 \ j '