RU2299866C2 - Method of the local reactant purification of the spent concentrated solutions from ions of the heavy metals and manganese - Google Patents

Abstract

FIELD: environmental protection; methods of purification of the industrial waste waters containing the concentrated solutions with ions of the heavy metals and manganese.

SUBSTANCE: the invention is pertaining to purification of the industrial waste waters containing the concentrated solutions with ions of the heavy metals and manganese. The method provides for transformation of ions of the heavy metals and manganese into the low-soluble compounds by neutralization of the waste waters using the water solution of the alkaline reactant, settling of these compounds by means of addition of the water solutions of aluminum sulfate - as the coagulant and polyacrilamide - as the flocculant into the neutralized waste waters, settling-out of the neutralized waste waters, filtration of the settlings by means of the filtration material and the subsequent drain in the acidic-alkaline drainage of the purified waste waters with the contents of the ions of the heavy metals and manganese not exceeding the maximum permissible concentrations. In the beginning of the purification cycle conduct activation of the gathered spent waste waters by addition of the water solution of the universal flushing technical mean. The waste waters neutralization is conducted by means of the concentrated 46 % water solutions of alkali up to production of the alkalescent medium in the waste waters containing the ions of the heavy metals, or the alkaline medium in the waste waters containing the ions of manganese. Then introduce the concentrated water solutions of the coagulant (140 g/dm³) and the flocculant (2 g/dm³) in quantity of 100 ml per 100 l into the neutralized waste waters with ions of the heavy metals or in the ratio of 1:60 to the volume into the neutralized waste waters with ions of manganese. As the filtration material apply the chemisorption fiber on the basis of polyacrylonitrile fibers. The given method allows to conduct purification of the concentrated waste waters with the high efficiency and to produce the concentrated slimes as the additional reutilizable products.

EFFECT: the invention allows to conduct purification of the concentrated waste waters with the high efficiency and to produce the concentrated slimes as the additional reutilizable products.

1 ex

Description

The invention relates to all industries, in the process of which effluents are formed both from solutions containing heavy metal ions, and from solutions containing manganese ions, the above established maximum permissible concentration, and relates directly to methods for cleaning spent solutions, especially concentrated solutions.

The main directions of engineering protection of the environment from pollution and other types of anthropogenic influences include the introduction of resource-saving, waste-free or low-waste technology, waste disposal and detoxification, and, most importantly, the greening of all production, which would ensure the inclusion of all types of interaction with the environment in the natural cycles of the cycle substances. Therefore, it remains an urgent task to develop a local, in the conditions of a specific production site of the enterprise, wastewater treatment system, including a treatment method that could be extended to all such plants.

A known method of wastewater treatment using ion exchange resins described in the textbook S. S. Vinogradov "Environmentally friendly galvanic production", edited by prof. V.N. Kudryavtseva, issue 3, supplement to the journal "Electroplating and surface treatment", M., Globus, 1998, p.164, 189, 223, according to which salts are removed from ion-wastewater from galvanic plants heavy, alkaline and alkaline earth metals, free mineral acids and alkalis, as well as some organic substances using synthetic ion-exchange resins (ion exchangers). Ion exchange occurs in equivalent ratios and in most cases is reversible. Ion-exchange wastewater treatment is usually carried out removed by filtration through their serial cation (in the form H ⁺⁾ and anion (in the form of OH ^-), which allows clear solution to the desired concentration limits returned into circulation to 95% of purified water and disposed of heavy metals.

The disadvantages of this purification method are the need for both preliminary separation of washing water from concentrates and preliminary treatment of wastewater from oils, surfactants, solvents and organic substances; high consumption of reagents for the regeneration of ion exchangers and the processing of resins; the formation of secondary waste requiring additional processing, as well as the bulkiness of the equipment and the high cost of the resins themselves.

Known patent RU 02234463 C1, cl. С02F 1/52, publ. 08/20/2004, which describes a method of wastewater treatment, according to which high-concentration alkaline wastewater and waste solutions are purified by preliminary dilution with washing or circulating water to a suspended solids content of 8-15 g / l at a pH of 9.5 and higher, followed by clarification by coagulation with magnesium chloride in an amount of 0.2-2 g / l and flocculation with polyacrylamide or sulfomethylene salt of 2-methyl 5-vinylpyridine in an amount of 1-5 mg / l and provides a high degree of purity sludge utilization and disposal at reduced energy costs.

The disadvantages of this method are the limitation of the spectrum of production by enterprises with alkaline effluents, that is, the problem of the content of heavy metal ions is not considered; the need for preliminary significant dilution of the solutions to be purified to an acceptable concentration, which entails a significant water consumption and significantly lengthens the cleaning cycle, and the disposal of sludge at specially equipped landfills, as a result of which harmful substances pollute the atmosphere and soil and can get into underground water sources; sludge itself is not particularly valuable for their secondary use, and all this does not allow to minimize resource and energy costs.

Known patent JP 03287664, cl. С02F 1/62, publ. 06/04/2002, which describes a method and apparatus for treating wastewater containing heavy metals, according to which the wastewater is neutralized with alkali, then a high molecular weight coagulant is added, followed by precipitation of the sludge containing heavy metals, clarified water is removed from the treatment process, and part of the sludge is recycled to the neutralization process so that the sludge first enters the mixing tank, and from there to the neutralization tank, while the alkali is fed either to the mixing tank (when the contents are weighed x pollution in waste water exceeds a preset value), or in a neutralization tank (when the content of suspended contaminants is lower than a preset value); the ratio of recirculated sludge and suspended impurities in wastewater is maintained within 6-12.

The disadvantage of this cleaning method is the limited possibility of its use - only for non-concentrated solutions, the inability to clean the effluents to the required maximum permissible concentrations, the accumulation of non-concentrated toxic galvanic sludge, the use of which as secondary raw materials is limited and which must be disposed of in urban landfills, which contributes to environmental pollution.

The closest in technical essence to the proposed invention (prototype) is the method of reagent purification of heavy metal ions from wastewater, described in the above training manual, according to which purification is carried out by converting heavy metal ions into sparingly soluble compounds (hydroxides or basic carbonates) due to neutralization of wastewater using various alkaline reagents, such as calcium, sodium, magnesium hydroxides, calcium oxides, sodium carbonates, calcium, magnesium. When neutralizing acidic wastewater with milk of lime containing a significant amount of limestone, as well as with solutions of calcined and caustic soda, some heavy metal ions precipitate in the form of the corresponding basic carbonates, which are less soluble in water than the corresponding hydroxides, due to which a more complete transition of heavy ions metals in sparingly soluble form. Precipitation of the resulting insoluble compounds is carried out in sedimentation tanks and takes at least 2 hours. To accelerate the clarification of neutralized wastewater, a synthetic flocculant in the form of a 0.1% polyacrylamide solution in the amount of 2-5 g per 1 m ^{3 of} wastewater is added to them, before they enter the sump, depending on the content of heavy metal ions. The moisture content of the sediment after sedimentation tanks is 98-99.5%. To reduce the moisture content of the sludge, additional sedimentation is used in the sludge compactor for 3-5 days, followed by its supply to the dewatering unit. In addition, in some cases, before discharge of treated wastewater into the sewer or during their subsequent desalination by ion exchange or electrolysis, a decrease in the concentration of suspended solids in purified water is required. In this case, the clarification of the runoff is carried out by passing it through filters with sand or two-layer (sand, expanded clay) loading, as well as through filters with a floating load.

The disadvantages of the prototype are the bulkiness of the equipment; the impossibility of processing concentrated solutions on it, that is, there is a need for a substantial dilution of the treated effluents with water to first reduce their concentration; significant consumption of reagents; the difficulty of extracting heavy metal ions from the sludge for their disposal; the need for significant areas for the placement of waste dumps.

The objective of the invention is the purification of effluents containing spent concentrated solutions, both from heavy metal ions, such as copper, nickel, zinc, copper-nickel, copper-nickel-zinc, etc., and manganese ions without first diluting them with water, while the technical result is achieved, which consists in increased efficiency of the cleaning process, when a sharp decrease in the content of heavy metal ions, manganese is ensured with the subsequent achievement of safe values of their concentration in purified solutions without eniya additional equipment and considerably less time and, therefore, obtaining regulatory effluent at the lowest cost.

This problem is solved in the proposed method for the local reagent purification of spent concentrated solutions from heavy metal ions, manganese, which includes activation, i.e. excitation or intensification of activity (Dictionary of Foreign Words, M., ed. LLC “Russian Language - Media”, 2003), effluents, their subsequent neutralization with a concentrated aqueous solution of alkali to obtain a certain alkaline environment, which is necessary for the subsequent deposition of heavy metal ions manganese using concentrated coagulants and flocculants and filtering with a chemisorption fiber, which is a Na- or H-shaped ion-exchange fiber based on a polyacrylonitrile fiber, for example, VION KN-1 TU 2272-1 12-17277875-2003, in order to extract heavy metal or manganese ions from a liquid medium. Moreover, activation not only allows you to speed up the treatment of wastewater and other solutions without the use of special accelerating agents, but also gives a synergistic effect if you use it with a universal washing equipment, which is an aqueous solution-complex of nonionic, ionogenic surfactants with additives, containing as its main components organosilicon compositions of nonionic surfactants, sodium hydroxide, and ionic surfactants - alkylbenzenesulfonates, and salts of higher fatty acids, e.g. measures brand UPTS2002 2458-001-455229898-2002 TU, acting also as a highly effective detergent inhibitor and demulsifier. High cleaning efficiency is achieved due to its selective effect on the chain of chemicals by breaking the interfacial tension between the surface of the cleaned waste solution and reagent. As a result of such local reagent cleaning, concentrated galvanic sludges are formed containing copper, nickel, zinc, iron, copper-nickel, copper-nickel-zinc ions, etc., or sludges containing manganese ions with a sediment moisture of 52-70%, which can dispose of in enterprises where they will serve as secondary raw materials.

Local reagent cleaning of spent concentrated solutions from heavy metal ions, manganese is a resource-saving and low-waste technological process, which also allows you to clean small batches of such solutions, receive concentrated sludge as additional products and profit from their sale. At the same time, the consumption of water and reagents is significantly reduced and waste accumulation is excluded, which ultimately contributes not only to the reduction of toxic waste at urban landfills, but also to the reduction of pollution of underground water sources and atmospheric air. Moreover, local wastewater treatment by the proposed method can be carried out at any enterprise with similar effluents provided with supply and exhaust ventilation.

The present invention is implemented on a mass-production scale at OJSC Elecond, Sarapul.

Schematic diagram of the local reagent purification of spent concentrated solutions from ions of heavy metals, manganese includes the following steps:

1. Collection of spent concentrated acidic solutions and concentrated washings in storage baths and their activation using an aqueous solution (1: 100 dilution) of universal washing equipment by adding it to the baths in a ratio of 1: 1 by volume.

2. Neutralization with a concentrated, 46% aqueous solution of alkali (caustic soda) of the spent solution with heavy metal ions to obtain a slightly alkaline medium with a pH of 9-10, and the spent solution with manganese ions to obtain an alkaline medium with pH 12.

3. The introduction of concentrated aqueous solutions of coagulant (aluminum sulfate - 140 g / dm ³ ) and flocculant (polyacrylamide - 2 g / dm ³ ) in neutralized solutions with heavy metal ions in an amount of 100 ml per 100 l, and in neutralized solutions with manganese ions - in a ratio of 1:60 by volume and thorough mixing.

4. Transfer of neutralized alkaline effluents to the settling bath and settling for at least 2 hours.

5. Filtration of clarified runoff and sludge (dehydration) using chemisorption fiber.

6. Drain the purified solution into the acid-alkaline sewer.

7. Packaging concentrated sludge in plastic bags for disposal at another facility.

The results obtained during the industrial implementation of local reagent treatment of galvanic drains (section 1) and effluents from the deposition site of manganese nitrate (section 2), as well as experimental data on the prototype method are shown in the table.

The presented data show the high efficiency of the proposed method, which allows you to get a sharp decrease in the concentration of heavy metal ions and manganese to acceptable values, which the prototype method itself, without additional measures, such as subsequent dilution with water, does not provide.

Sewage from the site Ingredient name Maximum permissible concentration, mg / dm ³ Actual concentration, mg / dm ³ Before cleaning After cleaning The inventive method Prototype one copper 0.02 5770 0.02-0.2 0.38-1.24 nickel 0.13 7550 0.13 0.25-0.7 zinc 0.19 5400 0.2 0.3-0.7 iron 0.95 6182 0,057 0.68-1.34 2 manganese 0,03 17000 0,03 and less 1.46-1.8

Claims (1)

The method of local reagent purification of spent concentrated solutions from heavy metal ions, manganese, which involves the conversion of heavy metal ions, manganese into sparingly soluble compounds by neutralizing wastewater with an aqueous solution of an alkaline reagent, precipitating these compounds by adding aqueous solutions of aluminum sulfate as a coagulant and polyacrylamide as flocculant into neutralized effluents, settling of effluents, filtering sludge using filter material and subsequent discharge into acid alkaline sewage of treated effluents with a content of heavy metal ions, manganese is not higher than the maximum permissible concentrations, characterized in that at the beginning of the purification cycle, the collected waste effluents are activated by adding 1: 1 by volume of an aqueous solution with 1: 100 dilution of a universal washing equipment, which is an aqueous solution-complex of nonionic, ionogenic surfactants with additives, containing as the main components organosilicon compositions of nonionic surfactants, sodium hydroxide, ionic surfactants-alkylbenzenesulfonates and salts of higher fatty acids, neutralization of effluents is carried out using a concentrated 46% aqueous alkali solution to obtain a slightly alkaline medium with a pH of 9-10 in effluents containing heavy metal ions, or an alkaline environment with a pH of 12 in effluents containing manganese ions, introduction of concentrated aqueous solutions of coagulant and flocculant at a concentration of 140 g / dm ³ and 2 g / dm ^3, respectively, is produced in an amount of 100 ml per 100 l in the neutralized waste water with heavy metal ions, in a ratio of 1:60 by volume n ytralizovannye manganese ions from waste water, as the filter material used chemisorption fiber is an ion exchange fiber Na- or H-shaped fiber based on polyacrylonitrile.