EA003870B1 - Method of sewage organic wastes treatment - Google Patents

Abstract

A method for the treatment of organic sediments of sewage water involves mixing of wet organic sediments with excess activated sludge, cavitation treatment at a cavitation number ranging from 0.01 to 0.05, aerobic stabilisation, desilting, compaction and unloading of the thus treated sediments, characterized in that the mixing of wet organic sediments with excess activated sludge is carried out at a ratio ranging from 1.1 to 1:3 during 9-12 hours together with aerobic stabilisation and ejector aeration with 3-10 circulating cycles, while said aerobic stabilisation circulation being carried out in the presence of supernatant water which is added to the mixture of wet organic sediments at a ratio of 1/3 of the volume of the treated mixture, the unloading of the thus treated sediments from the lower part thereof in the volume of 1/3 of the volume of the treated mixture without preliminary aeration.

Description

The invention relates to the treatment of sewage sludge and can be used as organomineral fertilizer for the enrichment of depleted soils and land reclamation.

The aim of the invention is to provide a method for the treatment of sewage sludge, which, along with cost-effectiveness, has the ability to destroy pathogenic microflora, which ensures the transfer of nutrients from silt water to the solid phase of the mixture, creates a humus mass and brings heavy metal salts to a safe natural state without the use of additional reagents.

Known methods for the treatment of organic sewage sludge by anaerobic digestion in digesters [see Bezenov V.V., Gunter L.I. Prospects for the use of staged fermentation of sewage sludge. // City sewer. (collection of scientific tr. ONTI AKH named after Pamfilov K.D. 1961 - runway VI from 116-113)].

These methods are not economical, since they require large capital costs for equipment, processing processes are time-consuming, explosive.

A known method for the treatment of organic sewage sludge, including mixing raw sludge with excess activated sludge, aerobic stabilization, settling, compacting and unloading the treated sludge, dewatering it in sludge sites (see VDNH USSR Scientific Council of the Academy of Sciences of the UZSSR "Regional problems of rational use of natural resources and protection of the biosphere Tashkent Trust "Vodokanal." Development and implementation on a large industrial scale of a new highly effective method for the treatment of sewage sludge at the Salarskaya Stan ii aeration Tashkent Tashkent "Fan" of the Uzbek SSR). This method significantly reduces the processing time of organic sewage sludge, allowing you to reduce the amount of equipment used, and also the sludge processed by this method has good water-giving properties, which reduces the time of its dehydration at silt sites. The disadvantages of the method include the need for deworming of the treated sludge to meet its sanitary standards and the need to remove salts of heavy metals.

Closest to the proposed method is a method comprising mixing crude sludge with excess activated sludge, cavitation treatment with a cavitation number of 0.01-0.05, aerobic stabilization, sedimentation, compaction and unloading of the treated sludge, its dewatering in sludge sites (see a USSR USSR No. 1798332 СО2 11/02 Method for the treatment of organic sewage sludge, publ. 02.28.93). The method can significantly reduce the processing time of the sediment to 2-3 days, ensures its complete deworming. The disadvantages of the method include the inability to reduce the concentration of salts of heavy metals to regulatory requirements and the transfer of nutrients (nitrogen and phosphorus) from sludge water to the solid phase of the sludge, which makes it impossible to use the treated sludge for land reclamation and as valuable organomineral fertilizers, as well as the need for aeration of the treated sludge before dehydration, which causes a rise in the cost of the method in energy and capital costs.

The technical result of the proposed technical solution is to increase the efficiency of the processing of organic wastewater sludge due to reduced processing time and energy consumption, the simplicity of the equipment used, the possibility of using the resulting product as an organomineral fertilizer due to the transfer of nutrients from sludge water to the solid phase of the treated mixture and bringing salts of heavy metals to a safe natural state without the use of additional reagents.

The specified technical result is achieved by the fact that in the specified method for the treatment of 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, it dehydration, there are differences, namely the mixing of crude organic sludge and excess activated sludge is carried out in a ratio of 1: 1 to 1: 3, cavitation treatment is carried out for 9-12 hours in conjunction with the aerobic stab process tion of ejection from the aeration and the number of circulation cycles 3-10, aerobic stabilization are nadilovoy adding water to the treated mixture in an amount of 1/3 the volume of the treated mixture, dewatering is performed without preliminary ejection aeration. Mixing raw sludge with excess activated sludge in a ratio of 1: 1 to 1: 3 allows you to have a sufficient number of working aerobes in the mixture. Conducting multiple cavitation treatments with a number of cycles of 3-10 in conjunction with aerobic stabilization with ejection aeration allows you to maintain high oxidizing ability of microflora, which reduces processing time, the required energy and capital investment. At the same time, aerobic stabilization for 9-12 hours allows the mixture to stabilize and reduce its amount by weight by about 30%, and this time is enough for nutrients to pass from superficial water to the solid phase of the treated mixture and bring heavy metal salts to safe natural condition.

Nadil water in this process is used as a “starter culture” containing adapted microorganisms that receive a soft mutation charge during cavitation treatment, as a result of which they have a high specific consumption rate of organic pollutants of the endogenous mass and act on dissolved nutrients, binding to complex compounds with heavy metals and precipitate them into the solid phase of the mixture by a mechanism close to simultaneous deposition, without the use of additional reagents.

When undergoing a cycle of aerobic and cavitation treatment, microorganisms in the solid phase of the mixture receive a soft mutational charge, which leads to an increase in their vital functions and bacteria begin to use complex compounds of heavy metals to build their own cellular substance, thereby transferring heavy metal cations to a safe natural state. The proposed method is economical, since the time of aerobic and cavitation treatment of the mixture is 9-12 hours, the cost of equipment is low, since the ejection aeration of the mixture occurs during circulation. In addition, it is excluded in the stabilizer tank, and during the dehydration process, significant areas for dehydration are not required - silt sites, since the specific filtration resistance of the treated mixture decreases (g x 10 ¹⁰ cm / g): from 2500 to 50 cm / g. The method does not require additional use of reagents to remove excess nutrients (nitrogen, potassium, phosphorus).

The method is as follows:

Raw organic sludge and excess sludge are pumped from the storage facilities of the structures, mixing them in a ratio of 1: 1 to 1: 3 into the stabilizer tank. For stabilizing mixtures are used the following bacterial species: 81yegoas1epa1ek, S111atuyoas1epa1ek, Sgepo1ypsaseae, 81yegosarkaseae, SaShopeyaseae, Rgo1oas1epaseae, Me1a11odeshit, Nurot1sgoYa1ek, Rkeiyotopak, Vas1epit, VasShik, Sogupeas1epit, LP11goas1eg, Musoas1epit, Myugosossik, 8agsta, LsIpotusek, Yosagy1a, Τΐι. £ egoho1yapk and others.

In the process of pumping raw organic sludge and excess activated sludge, they are subjected to cavitation treatment with a cavitation number of 0.01-0.05, while conducting ejection aeration with atmospheric air during circulation. When using the cavitation regime of low intensity with a cavitation number of 0.01-0.05, cavitation centers are formed on large microorganisms, helminth eggs and the parasites themselves, which, due to their size, are cavitation nuclei, which leads to rupture of their shells and destruction.

For the life of working aerobes, this mode is not dangerous, since their size is an order of magnitude smaller and this cavitation mode leads to stimulation of their growth and increase the ability to oxidize organic substances, use complex compounds of heavy metals to build their own cellular substance and bring these compounds to a safe natural state .

After the mixture is pumped into the tank, cavitation treatment is carried out for 9-12 hours together with the aerobic stabilization process with ejection aeration and the number of circulation cycles of 3-10, while the microorganisms receive a soft mutational charge, which allows them to maintain high oxidative ability, bind nutrients and translate heavy metals in a safe natural state in the solid phase of the mixture.

In the process of processing the pH of the sediment increases from 6.5 to 8.5. The lower third of the volume of the treated mixture is discharged for dehydration.

The next fraction of the treated sediment with a suspended matter content of up to 100 mg / l remains in the aerobic stabilizer tank, ensuring the optimum temperature of the loaded mixture, and creates the necessary conditions for the life of working aerobes.

After the complete treatment of the precipitate, supernatant water, which is 1/3 of the volume of the treated mixture, is left in the tank as a “starter” containing adapted microorganisms, which received a soft mutation charge during the cavitation treatment and the ability to consume organic pollution of the endogenous mass with high specific speed and also act on dissolved nutrients, binding to complex compounds with heavy metals and precipitating them into the solid phase of the mixture by a mechanism close to simultaneous precipitation, without the use of additional reagents.

Example 1

The treated wastewater enters the treatment plant with the following indicators:

COD - 380 mg / l

BODfull. - 290 mg / l

Suspended Substances - 250 mg / L

The excess of salts of heavy metals over the permissible norm is 2 times, ammonium nitrogen, nitrite nitrogen, nitrate nitrogen, phosphorites, in an amount exceeding the norm by 1.5-2 times.

The method is as follows:

Raw organic sludge in the amount of 3/4 of the volume of the tank and excess activated sludge in the amount of 1/4 of the volume of the tank are pumped into the stabilizer tank. The resulting ratio of the mixture of excess activated sludge to crude sludge is 1: 1.

When pumping, the crude organic sludge and excess activated sludge are subjected to cavitation treatment, with a cavitation number of 0.02 by providing a fluid velocity in the ejector nozzle of 18 m / s to ensure ejection aeration by atmospheric air in the amount of 112% of the volume of the pumped mixture. The following types of bacteria are used to stabilize the precipitate: 816egbacacepaec, cucilacobacacepac. Superfoods, 816gosarkaseae, Causticusaceae, Prococcus, Prococcus, Prococcus, Prococcus, Prococcus GeggoohShapk and others. After that, three cycles of cavitation treatment during circulation are carried out for 9 hours. Then the treated mixture is subjected to sedimentation and compaction, after which the lower third of the volume of the treated mixture is unloaded and placed on the equipment for dehydration. Dehydration time depends on the type of equipment used. After the completion of the treatment cycle, the stabilized mixture of organic sludge and excess activated sludge is a valuable organomineral fertilizer that does not contain pathogenic microflora, in which the concentration of heavy metal salts is within acceptable sanitary norms, and nitrogen, phosphorus and potassium are present in the form of useful organic-mineral components fertilizers, while the content of humus is 12-30%.

the same regime, combining it with the process of aerobic stabilization and ejection aeration

Indicators of wastewater pollution The number of cycles of aerobic-cavitation treatment Aerobic cavitation treatment time The ratio in the mixture of excess activated sludge and crude sludge The content of salts of heavy metals The humus content in the resulting organic fertilizers% Excess concentration before treatment After processing BODfull. -290 mg / l COD 380mg / l Suspended matter - 250 mg / l 3 cycles nine 1: 1 2 times Within permissible sanitary standards 14 BODfull. 580 mg / l COD 760 mg / l Suspended matter - 500 mg / l 7 cycles 10.5 h 1: 2 3 times Within permissible sanitary standards 21 BODfull. 1100 mg / l COD - 1700 mg / l. Weighed substances - 800 mg / l. 10 cycles 12 h 1: 3 5 times Within permissible sanitary standards 25

CLAIM

Claims (1)

A method of treating organic sewage sludge, including mixing the raw sludge with excess activated sludge, cavitation treatment with a cavitation number of 0.010.05, aerobic stabilization, settling, compacting and unloading the treated sludge, dehydrating it, characterized in that mixing the raw sludge and excess activated sludge lead at a ratio of 1: 1 to 1: 3, cavitation treatment is carried out for 9-12 hours together with the aerobic stabilization process with ejection aeration and the number of circulation cycles 3-10, aerobic stability zatsiyu lead nadilovoy adding water to the treated mixture in an amount of 1/3 of its volume, unloading of the treated sludge produced from the bottom sealed portion thereof in an amount of 1/3 the volume of the treated mixture, dewatering is carried out without aeration.