CS199754B1 - Method for treatment of waste water from polystyrene production - Google Patents

Description

The invention relates to a process for the purification of polystyrene waste waters containing finely dispersed mechanical impurities by coagulation thereof. Chlorine lime or hypochlorite is used as a coagulating agent while the water is heated.

Waste water from the production of polystyrene containing finely dispersed non-sedimenting particles of inorganic and organic substances cannot be cleaned by mechanical means. In these cases, purely chemical methods of coagulation are used. However, these commonly used wastewater treatment methods fail in some cases. Waste water with heavy turbidity, in which the turbid particles have a protective hydrated layer and therefore exudes electroneutrally, is not cleanable by known coagulation methods. considerable increase in the content of inorganic substances. This is only a partial solution, because salinity is a pollution factor that is very difficult to remove with today's technical knowledge. Waste waters containing finely dispersed mechanical impurities, including those from polystyrene production, cannot be purified by conventional methods such as coagulation, sorption or centrifugation. In these cases, neither intense turbidity nor foaming is removed. This applies in particular to slurry polymerization effluents. Particularly in the presence of some substances in water, such as polyvinyl alcohol, the solid and non-sticky particles in the waste water are not removable by known and used methods.

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Said drawbacks in the purification of polystyrene waste water containing finely dispersed mechanical impurities can be overcome by using the process according to the invention.

The process for the purification of waste water from the production of polystyrene according to the invention is carried out by coagulation with chlorine lime or hypochlorite by adding the coagulating agent in an amount of 0.5 to 10 g / l of waste water and heating the water at 80 to 120 ° C for 1 to 60 minutes.

Advantages of the process according to the invention are a substantial increase in the efficiency of the treatment in comparison with the known treatment processes and the low sensitivity of the treatment to the dilution of the initial contaminated waste water. This method is particularly suitable as a chemical pretreatment of these types of water. The water is non-foaming, clear and dispersed substances are removed. Only organic substances in dissolved form remain in the waste water. These must be removed by another special chemical method, or biologically.

Chlorine lime in an amount of 0.5 to 5.0 g can be used as the coagulating agent. The most preferred concentration is 1 to 2 g / l of wastewater. The easiest way is to boil water at 100 ° 0. However, it is sufficient to keep the waste water at a lower temperature of even only 80 ° C or to boil it at elevated pressure, when the boiling point is up to 120 ° C. The most preferred heating time is 2 to 10 minutes and in principle depends on the dose level of the coagulating agent. Another coagulating agent is hypochlorites, in particular sodium hypochlorite. However, others may be used. The most preferred amount of sodium hypochlorite is 1 to 5 g / l of wastewater. At 100 ° C, a heating time of 1 to 20 minutes is most preferred. In this case too, the water can only be maintained at a temperature of only 80 ° C or, on the contrary, boiled under increased pressure. Especially prior to the application of hypochlorite, it is advisable to acidify the waste water by adding sulfuric or hydrochloric acid such that the pH is 2 to 6. Thereafter, the doses of hypochlorite can be reduced compared to the untreated pH waste water.

The process according to the invention is intended for the purification of waste water from a suspension polymer, especially if it contains polyvinyl alcohol or other surfactants. In general, this method can be used in particular in cases where dispersed particles in the wastewater appear electroneutral due to the formation of hydrated layers around the particles.

Example

The effects of the invention and its advantages are further demonstrated on the purification of wastewater from polystyrene production by suspension polymerization.

a) the effluent was first treated in a known manner, i.e. by adding lime milk to adjust the pH to 7-8. 400 mg / l FeCly was then metered in. Anionic polyacrylonitrile-type anionic flocculant (commercial name FREASTOL 2830) was then added. added in an amount of 3 mg / l wastewater.

b) the same waste water was treated according to the method of the invention. Chlorine lime in an amount of 2 g / l of waste water was used as a coagulating agent. Then the water was held at 100 ° C for 2 minutes. The results of both methods are shown in the table. It can be seen that, in the alternative of (a), the effluent has not been purified, even after several times the dose of coagulating agents has been increased above the abovementioned amount, in the process according to the invention, the offect has occurred.

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Table

Monitored value Dimension Waste water untreated original treated known process. according to the invention appearance - opaque white opaque white clear, colorless transparency mm 0 0 transparent foaming specificity after 1 h at dil. water ml / l 0 575 575 0 1:10 150 150 0 pH - 3.5 8 , 11.7 alkalinity mval / l 2.9 not specified 11.0 surface, tension Nm ” ¹ 52 54 67 conductivity / US 116.5 not specified 4 270 dry matter mg / l 8 742 9 342 2 980 combustible substances dry. mg / l 8 707 8 707 1 500 incombustible substances dry. mg / l 35 535 1 480 COD-chromate. number mgO ₂ / l 6 454 6 475 2 380

All values except foaming determination were determined according to Hofmaan P.aj .: uniform analytical methods of water analysis, (SNTL, Prague 1956) Foaming determined according to Kubias J .: Guideline for chemical analysis and evaluation of modern detergents, emulsifiers, dispersants, wetting agents and foams, Prague 1949.

The treated, purified water according to the invention is completely clear, absolutely transparent, non-foaming, the dry matter content is reduced by 65%, the combustible matter content of the dry matter is reduced by 83% and the chemical oxygen demand - chromene, no. reduced by 63%.

SUBJECT OF THE INVENTION

Claims (1)

SUBJECT OF THE INVENTION Process for the purification of polystyrene waste water containing finely dispersed mechanical impurities by coagulation with chlorine lime or hypochlorite, characterized in that the coagulaon agent is added to the waste water in an amount of 0.5 to 10 g / l of waste water and the water is heated to 80 to 120 ° C for 1 to 60 minutes.