DE2300305A1 - Waste water treatment - by addn. of medium produced by reaction of hydrohalic acids with ternary clay minerals - Google Patents

Abstract

Waste water contg. dissolved, emulsified or suspended substances can be treated by a medium produced by the reaction of hydrohalic acids or hydrolysing metalli salts of these acids with ternary clay minerals and with gp. II elements. Carbon is used as the catalyst. Anion or cation active substances can be added to the medium which can be produced by altering the mixing ratio by neutral, acid or alkaline reactions. Process is used in a wide range of pH-values.

Description

Description of the invention: Nittel, method and device for Purification of wastewater containing dissolved, emulsified, suspended substances or a any mixture of dissolved, emulsified and suspended substances.

The invention relates to a means for purifying waste water, which dissolved, emulsified, suspended substances or any mixture of dissolved, contain emulsified, suspended substances; also the method of application of the means according to the invention and the device for carrying out the according to the invention Method using the agent according to the invention.

It is known that sewage contains dissolved substances, especially such of an organic nature, to be cleaned by attaching these substances to an adsorbent attaches. Activated carbon is often used as such. Furthermore, methods are known to remove such substances by crystallization. Fractional distillation too applies.

For the removal of emulsified or suspended substances from wastewater one often uses acids or hydrotysing metal salts with the following Neutralization by alkaline substances, as well as the salts of lower fatty acids or similar. Attempts have also been made, especially with wastewater emulsified in it Purify ingredients by electrophoresis. There is also a method of cleaning such wastewater can with the help of fractional distillation.

The use of activated carbon in particular to remove dissolved substances from wastewater has serious disadvantages in that this activated carbon is used in finely divided form must be added to the wastewater. This activated carbon forms with the substances attached to it, a suspension of the water itself again in the water Type that makes phase separation by filtration inevitable. Due to the fineness of the particles Such a filtration is very slow, which is particularly important when cleaning makes larger amounts of wastewater noticeable in the operational process.

When dissolved substances crystallize out, it consists of waste water.

the need for a strong cooling of the wastewater. This cooling off may have to be carried out in stages, but in any case it has to match the specific Properties of the substance to be crystallized out be adapted. This brings the the need for precise process monitoring and use accordingly trained staff. Furthermore, since the crystallization is a process with is high time constant, large amounts of wastewater and complicated systems.

Fractional distillation is also only possible in special cases Solvents usually form. and solute azeotropic at certain concentrations Mixtures and can therefore no longer be separated from one another by distillation.

The use of acids or hydrolyzing metal salts for removal emulsified and suspended substances from sewage requires in the allermaistzn Cases a subsequent neutralization of the drain with alkaline reactants Substances. Apart from the need for precise control and regulation of the pH value, acid-resistant materials must be used in the cleaning systems, which results in substantial financial expenses for a company. Further almost every neutralization leads to a considerable increase in salt in the process.

Cleaning process using salts of lower fatty acids have the disadvantage that they usually only apply to emulsions and suspensions with pronounced anion-active properties. However, they fail especially in emulsions with non-ionic properties BEZW. they can only can be used after appropriate conditioning of the wastewater. Such Conditioning can e.g. in the addition of strong electrolytes or in the supply of Heat energy exist. In all of these cases, however, there is an additional effort required on chemicals and plant components; they can be used as a cleaning process can only be used if the wastewater in question has a certain low conductivity owns. A further prerequisite is that the emulsified substances are either anion-active or have cation-active properties so that they migrate in a DC field can. However, this requirement is no longer applicable as a result of increasing use non-ionic emulsified substances.

Also for the purification of wastewater that is emulsified with other substances or form suspension systems, what already applies through fractional distillation on the separation of dissolved substances from wastewater was mentioned.

In view of all the difficulties and disadvantages outlined above, which are inherent in the previously known methods of purifying wastewater, should with the help of the invention illustrated and described here, the following objects be solved: 1. Manufacture of an agent, which over a wide pH range records as large a number of pollutants as possible in the wastewater.

2. Creation of a method, which the application of the invention Means made possible. This procedure should be such that in addition to immediate application of the agent according to the invention also a conditioning of the wastewater by the Recirculation of a partial flow of the already treated wastewater is possible.

3. Creation of a system that a) is suitable, the inventive To apply means and to carry out the method according to the invention; b) preferably consists of elements, components, apparatus and machines, as they are already in the conventional wastewater technology or process technology are used, whereby the Availability of such elements, components, machines and apparatus on the specific Properties of the agent according to the invention and of the method according to the invention is based.

The agent according to the invention is made by reacting acids or hydrolyzable metal salts preferably of hydrochloric acid and sulfuric acid with mineral Substances, preferably clay minerals with a three-layer structure. In the implementation elements of the second main group of the periodic table are also involved of the elements, these elements being either pure or in the form of their compounds, can preferably be present as chlorides and / or sulfates. As a catalyst for the conversion of the aforementioned substances is used carbon.

By changing the mixing ratio, it is possible to use the medium except with a neutral reaction - can also be produced with pH values below and above 7. By using such versions, it is possible to use acidic or alkaline wastewater adjust to a pH around the neutral point already during the treatment; through this a subsequent iseutralization of the effluent wastewater can be dispensed with.

A further variation is possible by following the inventive Agent adds anion-active or cation-active substances during its production. Depending on the nature of these substances can be achieved that certain ingredients of the Wastewater polymerize during the series of the cleaning process and so more easily be incorporated into the resulting flake association. But it is also with help suitable substances of the aforementioned type also possible to prevent polymerization, if this is operationally necessary.

The following may be used for the composition of the agent according to the invention Formulations given as an example: Example 1: Iiagnesium chloride ......... 70 % By weight of clay .................... 15% by weight * calcium oxide ................... 14 Weight X carbon ............... 1 weight * Example 2: hydrohalic acid .. 55 wt. * Aluminum chloride ......... 5 wt. Ffi alumina .................... 15 wt. * Dolomite ........................ 23 wt. * Carbon ......... 1 wt. * Anion act. Surfactant ....... 1% by weight in the following are a number of application examples for the purification of wastewater with the aid of the agent according to the invention: 1. Purification of wastewater that contains methylene blue: The wastewater is treated with a aqueous suspension of the agent according to the invention added, namely with a Amount appropriate to the degree of coloration. With the help of an agitator the suspension is quickly and evenly distributed in the wastewater. After a stirring time of about 30 seconds the dye has attached to the agent and becomes with it flocculated this together. The phases are separated by sedimentation and filtration or by other known methods of wastewater engineering.

2. Purification of the wastewater from a cyanide degreasing bath: The detoxification of such wastewater is often difficult, as this is usually the case here emulsified fat prevents the probes from working properly. For the distance this chain from the sewage is an alkaline version of the invention by means of particularly well suited, since with it the formation of the very poisonous hydrogen cyanide is avoided. ei the previously usual emulsion splitting with acidic ones exists Always in danger.

3. Purification of latex-containing wastewater: latex is in the wastewater of this type mostly present in colloidal form.

The use of the agent according to the invention, for example, according to the formulation example 2 causes a sudden coagulation of the colloidally distributed particles, whereby phase separation with the aid of conventional wastewater technology processes is made possible.

4. Purification of wastewater that contains emulsified mineral oils: Such wastewater often forms extremely stable emulsion systems, which is due to the Attributed to the use of certain surface-active substances as emulsifiers is; often such systems have non-ionic properties.

The waste water contains as much of the agent according to the invention as aqueous Suspension added that the ratio of oil content: medium in the order of magnitude moved by 2: 1.

the agent is stirred into the emulsion for a maximum of 60 seconds. After this time, there is a clear water phase and an oil and other ingredients Containing dirt phase formed. The phase separation can be carried out with the help of the known Process of wastewater technology take place. The phase separation can be carried out by commercially available loca.ungshilfsmittel can be improved and accelerated.

In addition, the agent according to the invention for cleaning is further Suitable for wastewater types, e.g. for those in the canning industry, the cosmetic Industry, especially for the removal of phenols from wastewater, for dairy wastewater etc.

The essential thing about the method of the invention is that a partial flow of the already with the itels according to the invention back into the circuit is returned to the system. This water still contains certain dissolved active substances, which is advantageous for a pretreatment of the raw sewage in certain applications let use. This is especially true for emulsion systems that are next to perfect emulsified substances also contain those that either don't or are only slightly enulsified. By pre-separating such substances achieved a saving in the agent according to the invention; dami also diminishes the salt content in the treated effluent. The return of a partial flow of the treated wastewater for the purpose of pre-treating an industrial or commercial wastewater is still unknown in the current state of the art and thus a real process control. The substances previously separated are separated from the wastewater with a commercially available light liquid separator.

Thus the application of the agent according to the invention and the implementation of the method according to the invention is possible, one is based on applicability and feasibility coordinated system used. In addition to the use of known elements, components, t-machines and apparatus of wastewater engineering or process engineering an essential feature of this plant is that the reactor in which the mixing of the agent according to the invention with the respective waste water and the actual cleaning takes place, is equipped with a circulation pump, which the flow of the reaction mixture partially returns to the inlet of the pump via a pipe system.

by means of an externally adjustable key in the suction pipe of the pump the circulation: flow ratio can be adjusted continuously. This means that the Vermisctlungsßrad adjust exactly to the respective requirements. Another one The feature of the system is that there is a resaeltare between the outlet and the inlet Pump is switched on, with the help of which a defined proportional reverse flow can be adjusted.

The structure of the system can vary accordingly within wide limits the task to be solved. The patent drawing shows a construction example.

The raw sewage flows through line 1 into the storage tank and storage tank 2. Here a continuous inflow is assumed; this gives the possibility a possibly necessary corpse fluid separator in the container 2 to be built in. The pre-deposited substance is withdrawn at 3.

Via valve 4, pump 5, line 6, flow meter 7 and check valve 8 the wastewater is fed to the reactor 9.

This contains the circulation pump 9a, the pipe system 9b and that of externally adjustable cone 9c. The tube system guarantees sufficient and rapid mixing of the reactants; with the help of the adjustable cone the ratio of the amount circulated to the amount flowing out is regulated. In the cracking agent container 10 the cleavage agent is solved in this type of execution of the system and as aqueous suspension stored. It is of course also possible to use this container in to divide two units, with the suspension in one unit, in the other the stocking takes place. The suspension is regulated by means of the Dosing pump 11 fed into the main stream. Via line 12 and check valve 13, the reaction mixture is fed to the phase separation system 14. Im described here System example, this consists of a commercially available sludge contact system. It it is of course also possible to use a filter system instead of the contact system to use a conventionally designed clarifier. If necessary, the main stream can a commercially available one from the flocculant tank 15 via the adjustable metering pump Flocculants are added. The clear water phase runs off via channel 17 and can be passed through a conventional filter if necessary. the The sludge phase is drained through the blowdown valve 18. Should an extensive thickening and the sludge is dewatered, it can be fed to the decanter 19 will. The reusable valve is either the wastewater coming from the decanter or wastewater collected directly at the outlet of the system as a partial flow returned to the entrance of the plant. This is done in the example described via line BQ 21, pump 22 and line 23. All control, Control and interlocking circuits merged and those for open-loop and closed-loop control and locking devices housed.

Claims (1)

Claims relating to the invention Means, method and device for purifying waste water, which dissolved, emulsified, suspended substances or any mixture of dissolved, contain emulsified, suspended substances. Claim s smock for cleaning sewage, which dissolved, emulsified suspended substances or any mixture of dissolved, emulsified, suspended Contain substances, characterized in that it is predominantly made by reacting Hydrohalic acids or hydrolyzing metal salts of these acids with predominantly three-layer clay minerals and elements of the second main group of the periodic table of the elements using carbon as a catalyst will be produced. Claim 2: means according to claim 1, characterized in that the By changing the mixing ratio, it becomes more neutral, more acidic or more alkaline Reaction can be produced. Claim 3: Means according to Claim 1 and 2, characterized in that lan -dem agent during the manufacturing process & anion-active or cation-active Adding substances. Claim 4: Process for the purification of wastewater, which dissolved, elulsified, suspended substances or any: mixture of solved, contains emulsified, suspended substances, characterized in that to his Implementation the agent according to claim 1 to 3 is used. Claim 5: The method according to claim 4, characterized in that in certain cases a partial flow of the already treated wastewater at the entrance the plant. is fed back into the main stream, whereby the stream in the part still The active ingredients contained therein can be used for the pretreatment of certain wastewater. Claim 6: Device for performing the method according to claim 4 and 5 using the agent according to claims 1 to 3, characterized in that that the mixing of the reactants with the aid of a built-in in a reactor Circulation pump and an associated pipe system takes place under high turbulence. Claim 7: Device according to Claim 6, characterized in that with the aid of a cone built into the pump suction line, the The circulation / drainage ratio takes place, with the cone being adjusted from the outside can. Claim 8: System according to Claims 6 and 7, characterized in that that between the flow of the system and its input a controllable feed pump is built in, through which a partial flow of the treated wastewater is delivered to the entrance the system and is fed back into the main stream.