RU2717131C1 - Method for decontamination of sewage sludge and production of raw materials for production of liquid and solid organomineral fertilizers - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to production of raw materials for production of fertilizer from renewable source - sewage sludge. Method consists in that the sewage sludge arrives into the feed tank, where the composition is averaged, sent to the grinder and then to heat treatment. Heat treatment is carried out at temperature of 70 °C, holding for at least 20 minutes. After heat treatment cavitation of heated mixture is performed. Process of cavitation processing lasts, taking into account repeated pumping, not more than 1 min. After the cavitation treatment, the mixture is cooled to temperature not exceeding 25 °C and directed to ozone-oxygen treatment. Further, the mixture passes through the process unit of enrichment with solutions of nitrogen, phosphorus and potassium substances. At the last step, water separation is performed to produce a cake and/or a centrate.

EFFECT: technical result is obtaining high-quality organic and organomineral fertilizers, with simultaneous neutralization of sewage sludge and reduced time of its treatment.

4 cl

Description

The invention relates to technologies for producing raw materials for the production of fertilizers from a renewable source - sewage sludge (WWS).

WWS obtained directly from wastewater treatment is dangerous for soil contamination and atmospheric poisoning.

The proposed invention provides for the creation of processing technology of WWS, the products of which will be neutralized and will comply with the requirements of GOST R 17.4.3-07-2001 "Environmental protection. The soil. Requirements for the properties of wastewater sludge when used as a fertilizer ”in terms of: agrochemical indicators, permissible gross content of heavy metals, arsenic and sanitary-bacteriological and sanitary-parasitological indicators.

Traditionally, sewage sludge is either disposed of by burning or processed into a useful product, for example, after dehydration and aging on sludge sites, depending on the climatic conditions of the area, for a year, 2 years, 3 years, they can be used for fertilizer, so how they contain macro-micronutrients, humates and nutrients (N: P: K) in a larger volume than manure and peat.

The technologies for disinfecting WWS at landfills have a number of disadvantages:

- significant areas for landfills;

- alienation of territories under the sanitary protection zone;

- the requirements of GOST are not ensured in terms of agrochemical indicators and the permissible gross content of heavy metals in the scheme of general alloy sewage.

Therefore, special methods are used to neutralize WWS and then produce useful substances from it - fertilizers or their components.

Various technologies are known for obtaining raw materials for fertilizers from WWS.

The closest to the presented technical solution may be a group of patents: RU 2210550, RU 2477710, RU 2433962.

RU 2210550. A method of treating organic sewage sludge, including mixing crude sludge with excess activated sludge, cavitation treatment with a cavitation number of 0.01-0.05, aerobic stabilization, sedimentation, compaction and discharge of the treated sludge, its dehydration, characterized in that mixing of raw sludge and excess activated sludge is carried out at a ratio of 1: 1 to 1: 3, cavitation treatment is carried out for 9-12 hours in conjunction with the aerobic stabilization process with ejection aeration repeatedly with a number of circulation cycles of 3 -10, aerobic stabilization is carried out with the addition of superfluous water to the treated mixture in an amount of 1/3 of the volume of the treated mixture, the treated sludge is unloaded from the lower compacted part in the amount of 1/3 of the treated mixture, dehydration is carried out without preliminary aeration.

The invention has certain disadvantages.

During cavitation and aerobic treatment of WWS, cavitation is created when pumping WWS through an ejector to provide ejection aeration of the liquid with atmospheric air. The process lasts 9 hours, which significantly increases energy consumption. The patent does not contain technological stages that meet the requirements of GOST in terms of obtaining sanitary-bacteriological and sanitary-parasitic indicators.

RU 2477710. A method of processing deposited sludge sludge, including mixing sludge, carrying out an enzymatic treatment, conditioning and dewatering the resulting biomass, characterized in that the deposited sludge sludge and pretreated excess sludge are used as sludge, with pretreatment consisting in converting excess sludge into the active enzyme mass, is carried out two or more times when oxygen is saturated with air to a concentration of not less than 10 mg / l in air cavitation and electrochemical treatment using a galvanic pair, where copper and steel are used as the materials of the galvanic pair, intermittent alternating current is periodically applied to the pumped excess sludge, and the active enzyme mass obtained from the preliminary treatment is applied to the surface or fed into the deposited silt sediment one, two or more times.

The invention according to the patent RU 2477710 is aimed at reducing the cost of processing deposited silt sludge and ensuring high efficiency of their purification from heavy metals (meeting the requirements of GOST in terms of the requirement to ensure an acceptable gross content of heavy metals).

The patent mentions the neutralization of the resulting biomass, but there is no reference to the corresponding technological redistribution. Technological processing involves the conversion of excess sludge into an active enzyme mass, that is, the preparation of a semi-finished product, and not the final product — raw materials for the production of organic organic fertilizer.

This patent does not contain the characteristics of the obtained dehydrated biomass and the correspondence of its quality indicators to the requirements of GOST in terms of the permissible gross content of heavy metals and sanitary-bacteriological and sanitary-parasitic indicators.

RU 2433962. A method for aerobic biological wastewater treatment, including mechanical treatment of the source water and separation of solid sediment from it, sedimentation of wastewater in the primary settler and separation of crude sediment from the primary settler, aerobic biological treatment, settling of wastewater and activated sludge in the secondary settler , the withdrawal of excess activated sludge from the secondary sump and the removal of purified water, characterized in that the wastewater pre-supply to the primary sedimentation is averaged over concentration and flow rate water, and then clarified wastewater is fed for biological treatment and biooxidation, which are carried out in a circulation mode for 2-3 hours, then for secondary sedimentation, tertiary treatment and disinfection, and the raw sludge and excess activated sludge recovered after primary and secondary sedimentation, sent to a joint enzyme-cavitation treatment to obtain complex fertilizer, while the sludge mixture is pre-activated by low-intensity cavitation for 2-3 seconds during pumping it to the treatment and saturated with oxygen m to 8-10 mg / l during pumping for the formation of bacteria, and in the operating mode for 4-6 hours, bacterial activation of the sludge mixture is carried out by low-intensity cavitation constantly at a pressure of more than 1 kg / m ² , and the oxygen concentration is maintained within 10 -20 mg / l, with bacterial activation of the sludge mixture with the release of heat necessary for the process and the formation of enzymes, which are protein catalysts of the process, as well as derivative enzymes that form chelate compounds.

The disadvantage of this method is that there is a discharge of water displaced from the WWS, which, of course, must be disposed of in the future. The process requires significant production space.

Common disadvantages of the above patents are: the duration of the processing of WWS and high energy intensity, as a result of low economic efficiency. At the same time, there remains the possibility that, due to incomplete biochemical processes, viable helminth eggs and worms will remain in the product.

The patents do not indicate how stable OSV parameters are provided before processing. It is known that the composition of WWS changes during the day, weeks, season. The instability of the original product, OSV, creates difficulties in obtaining the final product with the desired quality characteristics.

The presented technical solution aims to neutralize sewage sludge and obtain raw materials from it for the production of liquid and solid organic fertilizers. Moreover, the method eliminates the disadvantages of the prototypes, namely:

- reduced processing time of WWS;

- the process is aimed at obtaining a product (raw materials for the production of organic, organomineral liquid and granular fertilizers, in which the completion of biochemical processes is guaranteed due to the additional application of ozone and heat treatment and that there are no viable helminth eggs, worms), and not just for the disposal of WWS ;

- in the production of raw materials for fertilizers from WWS, the latter is used almost 100%, there is no discharge of water displaced from WWS;

- the process requires a smaller volume of production space;

- a decrease in the consumption of heat and electric energy, an increase in the yield of a marketable product, a decrease in production areas give the method economic advantages.

The presented method contains technological redistribution of WWS, which allows to reduce the time of destruction of carbohydrates, fat-like and protein substances with their conversion into soluble organic substances, while stopping gas evolution, a sharp decrease in biological oxygen consumption (MIC) and elimination of pathogenic flora.

This is achieved due to the fact that the developed technology consistently applies the following technological processes for processing WWS:

- heat treatment to eliminate helminth eggs and pathogenic organisms and the primary destruction of organic substances;

- cavitation, in which chemical reactions for the conversion of substances are sharply accelerated due to the ionization of gases in the mixture.

The destruction and grinding of the substances of the mixture occurs due to shock waves generated during the collapse of the bubbles.

Ozone-oxygen treatment of WWS, heat-treated and exposed to ultrasonic cavitation.

As a result of ozone-oxygen treatment, peroxides of various substances and compounds are formed in WWS, biochemical processes are guaranteed (controlled by MIC indicators and gas evolution) with the formation of humic and carbon compounds (humic acid carbon, fulvic acid carbon and tryptophan).

The combination of heating, cavitation and ozonation allows to achieve a technical effect - guaranteed neutralization of WWS and the creation on its basis of a product that is suitable for the production of fertilizers.

The product obtained from WWS is an organic fertilizer containing nitrogen, phosphorus, potassium in a ratio of at least 5: 3: 2 (in manure a ratio of 2: 1: 2), water-soluble carbon and other organic water-soluble compounds, tryptophan (obtained by ozonation ) and macro-, microelements.

The product obtained from WWS, may be the main raw material for organic fertilizer. By adding to the technology an enrichment unit with solutions of nitrogen, phosphorus, and potassium substances, as well as by isolating the solid and liquid phases by centrifugation methods, organic and mineral fertilizers are produced: liquid based on the centrate and granular from cake.

The proposed technology is implemented in practice as follows: WWS enters the consumable tank, in which the composition is averaged.

Averaging is carried out in order to create, for a certain period,

homogeneous composition of the WWS mixture.

From the tank, the WWS is sent to the chopper and then to the heat treatment.

Heat treatment at a temperature of 70 ° С WWS will destroy protein molecules and accelerate the biochemical decomposition of protein, fat-like substances and carbohydrates. Exposure of a heated substance is at least 20 minutes.

After heat treatment of the WWS, cavitation of the heated mixture is carried out, during which the destruction and grinding of the mixture substances occurs due to the shock waves generated during the collapse of the bubbles. During cavitation, chemical reactions involving the conversion of substances are sharply accelerated due to an increase in temperature and exposure to the mixture by ions of gases generated during cavitation. In this case, the pathogenic flora is eliminated and a large part of the released hydrogen sulfide is converted into acid and sulfur dioxide (the color of the WWS changes to black). Cavitation treatment is carried out using an ultrasonic generator. The process of cavitation processing lasts, taking into account repeated pumping, no more than one minute.

Upon completion of the cavitation treatment of the WWS, the mixture is cooled to a temperature of no higher than 25 ° C and is sent to ozone-oxygen treatment. WWS is fed to the processing tank for circulating ozonation. Saturation of WWS with ozone is carried out by repeatedly circulating water through an ejector mounted on a return pipe closed through a container. As a result of processing the mixture with ozone, peroxides of various substances and carbon compounds, humic and sulfonic acids, tryptophan will be formed. Thus, biochemical processes and gas evolution are guaranteed to be completed. Next, the mixture passes through the processing unit enrichment with solutions of nitrogen, phosphorus, potassium substances. At the last stage, the WWS is converted into liquid organic fertilizer, or into a product for subsequent dehydration, in order to obtain cake. Water separation is carried out by centrifugation to obtain cake, which is a raw material for the production of granular organic and organomineral fertilizers and a centrate, which is a raw material for the production of liquid organic and organomineral fertilizers.

The result of the application of the technology is the production by agriculture of organic, organic-mineral fertilizers of guaranteed high quality due to the processing (with simultaneous neutralization) of WWS.

Claims (4)

1. A method of neutralizing wastewater sludge and obtaining raw materials from it for the production of liquid and solid organic fertilizers, in which the dehydrated wastewater sludge is subsequently sent for heat and cavitation treatment, cooled to a temperature of no higher than 25 ° C, fed to ozone-oxygen treatment passes through the processing unit for enrichment with solutions of nitrogen, phosphorus and potassium substances, characterized in that before treatment, the dehydrated sewage sludge is fed to a feed tank and grind In order to average the composition, heat treatment is carried out at a temperature of 70 ° С with exposure of the heated substance to at least 20 minutes, and the cavitation treatment process lasts, taking into account repeated pumping, not more than 1 min, after the enrichment procedure, the mixture is fed to water separation to obtain cake and / or centrate. 2. The method according to p. 1, characterized in that the cavitation treatment is carried out using an ultrasonic generator. 3. The method according to p. 1, characterized in that the ozone-oxygen treatment is carried out in a circulation ozonation tank by repeatedly circulating water through an ejector mounted on a return pipe closed through the tank. 4. The method according to p. 1, characterized in that the water separation is carried out by centrifugation.