UA81656C2 - Process for neutralization of acid and alkaline waste waters and plant for its implementation - Google Patents

Abstract

A process for the neutralization of acid and alkaline waste waters, which are collected to neutralization tank, from which they are supplied for mixing to hydrodynamical cavitation reactor, and thereafter returned to the neutralization tank, where pH measuring of water medium is carried out, and depending on pH value wastes are removed from the neutralization tank or subjected to retreatment in water-flow circuit till full neutralization, at that wastes mixed in hydrodynamic cavitation reactor are additionally subjected to hydromechanic treatment in flow aerator. A vapour-gas medium collected in neutralization tank over the surface of wastes being treated is used for the feeding the flow aerator. A plant for neutralization contains feed lines of acid and alkaline waste waters, at least one container with reagent, neutralization tank with water-flow circuit, which comprises a pump with suction and delivery line and hydrodynamic cavitation reactor mounted in the delivery line, and the water-flow circuit additionally contains flow aerator, the suction line of which is connected to vapour-gas medium of the neutralization tank.

Description

equipment in terms of energy consumption and resource advantages of this installation. But at the same time techniques. the flip side of these benefits is complexity

Mixing operations during the treatment of the water structural design of the installation and the insufficient environment with chemical neutralizers widely, the quality of the treatment of the environment is determined by relatively known from the state of the art. Thus, in (Japanese patent ОР4- by a low intensity of cavitation action on it with 61713 IPC": СО2Е 1/66, publ. in Byul. Me7, 1994 | side of the reactor. The productivity of the cleaning process described method of neutralization of acidic and alkaline largely depends on of operational wastewater in a facility equipped with the characteristics of a cavitation reactor, in particular, a stirring device that mixes the erosivity of the hydrodynamic cavitation field, and

According to this technology, the process of neutralization is, of course, limited. This fact is accompanied by continuous mixing obvious to specialists who deal with the treated environment and measurement problems of cleaning aquatic environments. pH value, according to which the process is corrected. It is characterized by similar disadvantages - adding one or another reagent. technology and sewage neutralization installation,

A similar technology with the corresponding neutralizer is presented in (Russian patent Me2129993 IPC): the device is described in (PCT application Me940303 IPC?7: СО2Е 1/66, published in Byul. Me13, 1999. As in

СО2Р 1/66, publ. in Bul. Mob, 1995|, where the flow of the above-mentioned case, effluents are subjected to an acidic aqueous environment is brought to preliminary hydrodynamic mixing at the required pH value in the reactor zone, where a special mixer is installed in the cavitation reactor of each circulating one. contour until the average pH values are reached

Examples of similar technologies can be given for each storage tank, and depending on the number, and all of them will be united by a common drawback - these values are corrected by the process correspondingly low productivity due to insufficient supply of acidic or alkaline waste in volumes, intensity of mixing of components. necessary for neutralization. All operations

More progressive from the point of view of ensuring the technological process are regulated by a device for intensive mixing of the processed control. Despite the automated environment, there are technologies in which cavitation reactors are used as controls and the presence of cavitation reactors and mixing devices. insufficient, and the energy consumption is quite significant.

In the cavitation reactor, the technological environment. In addition, the process is long-term and subject to intense hydromechanical influence. is accompanied by significant costs of reagents.

The effect on the environment is caused by the physical effects of the mechanical effects that occur during the collapse of the technology and installation of the treatment of waste, cavitation bubbles that are generated in the reactor. described in (patent of Ukraine Me43705 IPC): СО2Е

Cavitation reactors have a much larger 1/66, publ. in Bul. May 11, 2001. I. The erosive activity in comparison with any installation includes a container with a reagent, a tank, and mechanical stirring devices. This is their neutralizer with a circulation circuit, which property allows to intensify the process includes a pump and a hydrodynamic cavitation mixer installed in its pressure neutralization and to simplify the solution of the main line problem. uniform dispersion of acidic and alkaline The reduction of costs of reagents is achieved thanks to the media in the wastewater stream. the combination of the container containing the reagent, with

Confirmation of what has been said can be described in the mixer. in the process of receipt

Ipatents of Ukraine Me20629 IPC": СО2Е 1/66, publ. of the treated water flow to the mixer in the Bull. Me17, 1998 | technology for cleaning alkaline and the latter is constantly supplied with a suitable reagent. acid wastes of thermal power plants according to the cavitation mode of the mixer determines the possibility of using a neutralization installation , equipped with suction ("ejection") into its vacuum hydrodynamic cavitation mixer cavity of the reagent - milk of lime, acid, (reactor). Effluent flows separately to alkali or even gaseous. Thanks to the formation of separate storage tanks, after which the developed surface is processed in the cavitation mixer in the circulation circuit of each phase contact, the reactivity of the reagents in the container, passing through the mixing phase, increases. Such conditions allow the cavitation reactor to be selected. The results of mixing the most effective reagents according to the type are confirmed by measuring the pH value of pollutants of certain effluents. But the described environment in the container relax After that, depending on the pH value of the mixed acidic and alkaline, the technology is not distinguished by high productivity, because to calculate the exact portion of the effluents, with the help of automatic valves of the reagent that is constantly "ejected" into the cavity, they regulate the degree of opening of the latter (and therefore the cavitation mixer, which would be sufficient waste flow), setting them in such a way that self-neutralization takes place for complete neutralization of the treated volume. The installation is equipped with liquid, which is extremely problematic. Therefore, the water that is treated by the reagent flow control device must be repeatedly passed through acidic and alkaline effluents, as well as numerous through the mixer to achieve the desired control valves, which ensures its result. And this, in turn, affects the operation in automatic mode, (0, energy consumption and duration of the process. is definitely an advantage of the installation. In addition, summarizing the above, it is possible to reach the conclusion that the presence of a cavitation reactor multiplies the conclusion that the existing methods of neutralization of acidic and alkaline technological mediums (and the cavitation mixing mechanism adapted to this equipment is insufficiently processed medium. effective. !/| the main reason for this is The reason for the second drawback is that the installation does not determine the role of the cavitation reactor (with its limited properties designed to eliminate the negative effects of toxic substances), in which, in fact, the vapors that accumulate in the neutralizer tank are neutralized. The productivity of the surface of the treated liquid. The process is in direct relationship with the basis of the invention is the task of increasing the operating characteristics of the reactor, in particular, from the efficiency and environmental safety of the erosion methodactivity of its cavitation field. neutralization of acidic and alkaline water effluents

As a prototype of the invention, a method was adopted by means of additional hydromechanical aeration neutralization of acidic and alkaline water effluents in the process of cavitation and the use of an installation containing a neutralizer tank with a circulation circuit as a power source of a jet reactor, which includes a steam-gas medium, concentrated over the hydrodynamic cavitation reactor, in which the surface of the effluents in the neutralizer tank, acidic and alkaline effluents accumulate in the tank, resulting in a mixing process in the neutralizer, from where they are fed to the mixing of the treated medium, which takes place in the hydrodynamic cavitation reactor, after the volume of the cavitation reactor under the influence of kinetic energy is returned to the neutralizer tank, where the energy of the cumulative microstreams, initiated by measuring the pH of the aqueous medium, the collapse of the bubbles, is intensified by the gas and, depending on the pH value, the effluents are removed with the flow coming from the jet ae rator, neutralizer tank or subjected to repeated increasing the turbulence of the medium and treatment in the circulation circuit until thus accelerating the speed of the neutralization reaction reaching the state of complete neutralization (Patent and shortening the technological cycle of wastewater treatment,

of Ukraine Me23755, IPC": СО2Е 1/66, publ. in Byul. in addition, the entry into the environment of toxic steam-gas is excluded in mo4, 1998

The installation of substances is also accepted as a prototype of the invention. for the neutralization of acidic and alkaline water effluents. The invention is also based on the task of providing mains for acidic and alkaline water to create highly productive, environmentally friendly wastewater, at least one container with a reagent, a safe installation for neutralizing acidic water and a neutralizer tank with a circulation circuit, to alkaline water sewage by improving its composition, which includes a pump with a suction and constructive execution, in particular, equipping the pressure mains and the hydrodynamic circulation circuit with a jet aerator, a cavitation reactor installed in the pressure and connection of the suction line of the latter with the main (Patent of Ukraine Me23755, IPC): CO2E air chamber of the tank - of the neutralizer, in 1/66, published in Bull. Me4, 1998. |

The disadvantage of the known technology is the lack of treated medium, which occurs in productivity, due to the limited volume of the cavitation reactor under the influence of the kinetic rate of mass transfer in the volume of cavitation energy of the cumulative microstreams initiated by the reactor. Because of this, the process of neutralization takes quite a long time with the collapse of bubbles, intensified by gas. by the flow coming from the jet aerator,

Despite the fact that the technological process increases the turbulence of the environment and is characterized by a relatively low productivity, thereby accelerating the speed of the neutralization reaction, it still provides an effective and shortening technological cycle of wastewater treatment, wastewater treatment and minimizes the inflow of residues; in addition, the inflow of acids and alkalis into the environment is excluded environment. the environment of toxic steam and gas

The technology is aimed at solving the problem of substances. neutralization of effluents, but not at the same time The set task is achieved due to the fact that the fact is taken into account that toxic substances in the method of neutralization of acidic and alkaline accumulated not only in the liquid phase of the treated water effluents in the installation containing the tank medium, but also present in air volume, a neutralizer with a circulation circuit, the neutralizer tank above the level of the contaminated composition includes a hydrodynamic cavitation drain. The neutralization process is accompanied by a reactor in which acidic and alkaline effluents are actively gassed, in addition, the unfilled ones are accumulated in the neutralizer tank, from where their air space of the neutralizer tank is saturated and fed to the hydrodynamic for mixing with toxic vapors of acids and alkalis. This is a cavitation reactor, after which it is returned to the aggressive environment is extremely harmful, but the neutralization tank, where measurements are carried out, the known technology does not involve any operations of the pH of the aqueous environment, and, depending on for its neutralization. pH values, effluents are removed from the tank

Among the shortcomings of the known installation should also be attributed to the neutralizer or subject to repeated imperfection of its constructive implementation and processing in the circulation circuit to the limitation of technological properties. achieving a state of complete neutralization, according to

The reason for the first drawback is the limitation of the invention, the effluents mixed in the hydrodynamic operational capabilities of the hydrodynamic cavitation reactor additionally subject the cavitation reactor, which is expressed in the hydromechanical processing in the jet aerator, to insufficiently high intensity of the cumulative, at the same time, to power the jet aerator, a steam-gas medium is used as a reagent, because thermal effluents concentrated in the neutralizer tank above the surface of power plants have a predominantly acidic reaction. treated effluents. Tank-neutralizer 4 has a circulation circuit, to

The task is also achieved due to the fact that it includes a pump 5 with a suction 6 and a unit for neutralizing acidic and alkaline pressure lines 7, as well as a hydrodynamic water drain, which contains a supply line for acidic cavitation reactor 8, which is installed in and alkaline drains, at least one container with a pressure line 7. The composition of the circulating reagent, neutralizer tank with a circulation circuit also includes a jet aerator 9, a circuit that includes a pump with a suction line 10 which is connected to the suction and pressure lines and the air environment of the neutralizer tank 4. a hydrodynamic cavitation reactor, Mains 1, 2 of sewage supply and capacity C are installed in the pressure main, according to the connection with the neutralizer tank 4 through the invention, the circulation circuit additionally contains shut-off valves 11. a jet aerator, the suction line of which is connected to steam-gas medium we are looking for a medium tank on the suction line 6 of the neutralizer. At the same time, the jet aerator is operated by a shut-off valve 12, on the pressure line installed parallel to the main line 7 - by shut-off valves 13, and on the hydrodynamic cavitation reactor, and on the outlet line 14 - by the shut-off valve 15. suction line - sequentially from the operation of the proposed method can be hydrodynamic cavitation reactor demonstrate with a description of functioning

Features that distinguish the proposed invention from the installation intended for its implementation. Acids from the signs of similar technologies and corresponding to them and alkaline effluents along the supply lines 1, 2 of the installations described according to the known state of the art, enter the neutralizer tank 4. The process that determines the achievement of the above-mentioned filling of the tank occurs when the technical result, which takes place at the pressure valve, is closed 12. After filling the tank - implementation of the invention. neutralizer 4 to the required degree

By itself, the hydrodynamic cavitation reactor closes the shut-off valve 15 of the corresponding ensures intensive mixing of the components of the pipeline 14, opens the shut-off valves 12 and 13 of the treated medium due to the implementation of the suction b and pressure 7 pipelines in it cavitation effects, which lead to the circulation circuit and include the pump 5. collapse formed in the liquid medium The treated medium, which is sucked bubbles and the formation of an instant powerful pump 5 to hydrodynamic cavitation pulse in the form of a shock wave. This effect of reactor 8 begins to move intensively along the circulation circuit, which causes the mixing of processed substances. In the process of passing and crushing solid inclusions. When the medium collapses through the reactor 8, bubbles occur in it, the energy of the radial movement of the liquid is not only the intensive mixing of the contents of the tank - is transformed into the kinetic energy of the liquid neutralizer 4, but also the grinding of the insoluble cumulative microstream that flies out of the sediment (calcium, magnesium, iron, etc.), which can bubbles at an extremely high speed - lead to clogging of the circulation circuit, the cumulative mechanism of cavitation or the corresponding main line is implemented. The process of stirring stirring. enhanced by the flow of gas bubbles which

When equipping the installation with a jet aerator, they are fed to the cavitation reactor 8 with the intensity of mixing (and, therefore, (and the jet aerator 9. These gas bubbles, the rate of neutralization) increases even more. They are generated in the aerator 9 from the steam-gas thanks to the flow of air bubbles, which medium is sucked by the aerator from the tank- comes from the aerator to the cavitation reactor in the neutralizer 4 through the suction line 10. of the latter's operation process. The additional flow After such an intense combined effect of the bubbles increases the turbulence of the medium, the hydrodynamic cavitation reactor and the reactivity of the reagents increases. Such jet aerator on the processed conditions contribute to the reduction of the consumption of reagents for the environment in the neutralizer tank 4, measure the provision of neutralization reaction, because they are the value of pH. If the measurement results are carried out more fully and in a short time. correspond to the state of complete neutralization of the effluents,

Features of the connection of the jet reactor in state the presence of the self-neutralization process and the general scheme of the installation (parallel treated effluents are removed from the neutralizer tank to the cavitation reactor through the pressure line and 4 through the outlet line 14. For this, in sequence with it through the suction line) open the shut-off valve 15 and close to ensure the most effective and productive shut-off valve 13 of pressure line 7. In this form of operation of both hydrodynamic modes, pump 5 performs the function of pumping devices. fluid, not circulation.

In the case when the pH value in the tank is measured, the proposed neutralization installation is shown in the presented drawing. It confirms to the neutralizer 4 the presence in the environment of the pipelines 1, 2 for the supply of alkaline and acidic acids or alkali, to the neutralizer tank 4, drains and containers C with reagents (alkaline and a certain amount of the appropriate reagent from container 3, acidic) are added. In practice, for the most part, either acidic or alkaline effluents from mains 1 or only a container with alkaline 2 is used and the mixing process is repeated.

Example

After washing the heating surface of the boilers of the thermal power plant, acidic and alkaline effluents in volumes of 15m3 are directed to the neutralization tank 4, the volume of which is 20m3, through the supply lines 1 and 2 with the shut-off valves 11 open and 12 closed. After the wastewater enters the neutralizer tank 4, about a quarter of its volume remains unfilled. (In the volume not filled with a liquid medium, steam-gas vapors accumulate, which are later used as a power source of the jet aerator 9). To mix the effluents, shut-off valve 15 is closed, shut-off valves 12 and 13 are opened, and pump 5 is turned on. Pump 5 begins to function in the suction mode, in which the liquid undergoes intensive mixing in the circulation circuit under the action of the hydrodynamic cavitation reactor 8 and the jet aerator 9. During the entire technological during the operation cycle of the installation, the vapor-gas environment of the neutralizer tank 4 is constantly distilled through the aerator 9. After mixing the effluents, the pH of the medium in the neutralizer tank 4 was pH-10O, which proved the high content of acid in it. To bring the processed environment to a state of complete neutralization, at which the pH is 7, an alkaline solution is added to the neutralizer tank 4 from the tank C, based on the ratio of the reacting components, which provide the indicated value of the pH of the environment.

After that, completely neutralized effluents are removed from the neutralizer tank 4 through the outlet line 14 and the installation is prepared for the next work cycle.

The proposed invention can be attributed to a number of high-performance, environmentally friendly technologies, the implementation of which allows not only to effectively clean aggressive industrial effluents, but also to ensure high profitability of this process with relatively low energy consumption. wacha x still with

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