RU2660885C2 - Production complex for recycling sediment wastes - Google Patents

Abstract

FIELD: ecology; environmental protection; chemistry.

SUBSTANCE: invention relates to ecology, environmental protection and the chemical industry and can be used for collection and purification of industrial and domestic wastewater in populated areas. Production complex for the processing of sewage sludge contains feed conveyor 1 of dehydrated sediment, 3 filler capacity with screw feeder 4, placed with the possibility of feeding sediment and filler into mixer 5, provided with device 6 for unloading the mixture, made in the form of a conveyor, and container 7 for receiving the mixture. Device for destroying pathogens 9 is made in the form of an aerobic fermenter. Emergency discharge transporter 2 is configured to connect its input to the outlet of feed conveyor 1 of the dewatered sludge. Feed conveyor 8 is designed to load the mixture into fermenter 9, and conveyor 10 – to discharge the compost from fermenter 9 to the inlet of filling line 11.

EFFECT: invention provides a continuous treatment of the sewage sludge entering the fermentation, a reduction in energy costs and the production of high-quality organic fertilizer with a biologically dead pathogenic microflora without the use of harmful reagents.

1 cl, 1 dwg

Description

The invention relates to the field of processing industrial and domestic wastewater, in particular, to devices for treating wastewater sludge and provides environmental technology for the integrated processing of water-insoluble water treatment products at a conservation facility.

The problem of collecting and treating wastewater is an urgent task for any city, village or settlement. As a result of human activity in cities and towns, a socio-ecological problem arises sharply due to the accumulation of large volumes of sewage sludge.

Sewage sludge is a solid fraction of wastewater consisting of organic and mineral substances released during the treatment process - by settling method (crude sludge), and biological treatment (excess activated sludge).

In the category of industrial waste, sludge has economic indicators as non-traditional and renewable sources of raw materials for the production of fertilizers, fuel, energy, etc. For example, the organomineral mass of sediment in calorific value is close to brown coal. It is recognized that sewage sludge is a valuable organic fertilizer.

Modern environmental safety requirements preclude direct further use of precipitation in the national economy without their special preparation.

A known system for treating wastewater sludge in a dewatering production line containing metering pumps, pipelines, mortar containers, centrifuges and drums with screws appropriately connected to each other (see patent RU 36826 U1, class C02F 11/00, 2004). The known system provides dewatering of sewage sludge, but does not provide a finished disinfected product, such as organic fertilizer with biologically dead pathogenic microflora.

A device for treating sewage sludge (precipitation) according to patent RU 2159745, class. C02F 11/14, 1995. This device is adopted as an analogue closest to the present invention in terms of function and result. The known device contains means for providing sludge, means for mixing sludge with an alkaline additive (in particular calcium dioxide), a pasteurization chamber with means for continuously passing the mixture through the chamber for a certain working time without significant shaking, so that the mixture is practically not liquefied, and also means for feeding the mixture of sludge and alkaline additives to the inlet of the pasteurization chamber and means for unloading the mixture from the outlet of the pasteurization chamber.

This known device has several disadvantages. Calcium dioxide used as an alkaline additive is a rather harmful substance and requires careful use, all the substances used are dusty and calculating the achievement of pH = 12 is quite difficult, since it is necessary to take into account the acidity of the sludge, and it can be different, since the composition of the wastewater is unpredictable therefore, alkali loading is rather problematic. The use of heating the mixture passing through the pasteurization chamber leads to an increase in energy consumption for wastewater treatment. With a continuous flow of sludge extracted from wastewater, it is not possible to ensure the continuous operation of the device, there are no technical solutions to make it possible to stop any of the elements of the device for repair, technological needs - this requires stopping the entire set of mechanisms, and with an uneven flow of sewage sludge will be either overloaded or underloaded.

The main task to which the present invention is directed is the creation of a production complex that is free from the disadvantages of the above solutions and which can provide continuous processing of sewage sludge with its disinfection with the continuous flow of sludge extracted from sewage to obtain high-quality organic fertilizer from biologically dead pathogenic microflora. In addition, when creating the complex, it is necessary to create a technical solution for coordinating technological interruptions both when filling the fermenter compartments and when filling the mixer, in case of interruptions in the flow of filler into the mixer. Also the objectives of the present invention should include obtaining a finished product suitable for warehousing, accounting, storage and transportation.

The main technical result in the implementation of the present invention is to obtain high-quality organic fertilizer made from unusable sewage sludge, in the absence of the use of harmful chemicals to process the source material and reduce energy consumption during such processing. In addition, the technical result in the implementation of the present invention is the creation of an end-product that is convenient for use, with which it is possible to perform standard manipulations - count, stack, transport, store, sell. The technical results should also include the exclusion of difficulties in the production process associated with filling the fermenter compartments, when filling the mixer, as well as during interruptions in the flow of filler into the mixer. This does not require precise adjustment of the conveyors for the supply of material, allows you to maintain a constant amount of incoming rainfall for processing, regardless of their allocation by time of day. In addition, during operation, there is the possibility of maintenance and repair. This eliminates the problems associated with the disposal of sewage sludge at landfills, such as the use of vehicles for transportation, the limited area of the landfill, requirements for improving the quality of life of people living near the landfill, the attack on landfills for housing construction.

The main task is solved by the fact that the production complex for the treatment of sewage sludge, containing a feed conveyor for dehydrated sludge, a filler tank with a screw feeder, placed with the possibility of feeding sludge and filler into a mixer made with means for unloading the mixture, and means for destroying pathogens, according to the present invention, the complex is equipped with a container for receiving the mixture, a loading conveyor for loading the mixture and a conveyor for unloading the compost from the means for destruction I have pathogens, moreover, the means for destroying pathogens is made in the form of an aerobic fermenter, the means for unloading the mixture is made in the form of a conveyor, the outlet of which is installed with the possibility of feeding the mixture into the container for receiving the mixture from the mixer, and the loading conveyor is placed with the possibility of receiving the mixture from the container for receiving mixture and feeding it to the fermenter.

In addition, according to the present invention, the complex can be equipped with an emergency discharge conveyor with the ability to connect its entrance to the outlet of the dewatering sludge feed conveyor. The complex of the present invention can also be equipped with a packing line, and the compost discharge conveyor from the pathogen exterminator is arranged to feed compost to the inlet of the packing line.

The presence of a container for receiving the mixture eliminates the difficulties in the production process associated with filling the fermenter compartments, since when the mass enters from the mixer through the means for unloading the mixture into the container, it is not necessary to interrupt the mixing process of the components, since the container takes up the entire mass of the mixture. When filling one of the fermenter compartments, the conveyor for loading the mixture is transferred to supply the mixture to another, unfilled fermenter compartment, while the mixer continues to feed the mixture into the container. The presence of an emergency unloading conveyor allows you to divert dehydrated sewage sludge in case of excessive flow into the complex depending on the time of day, allows you to maintain the complex without interrupting the flow of dehydrated sewage sludge. At the same time, it becomes possible to ensure loading of the complex during insufficient rainfall, for example at night. For this purpose, the mass allocated, for example, in the evening or morning time, is conveyed by the emergency unloading conveyor from the shoulders at night or in the afternoon to the dehydrated sludge supply conveyor. The aerobic express composting fermenter provides biological dying of pathogenic microflora, which makes it possible to obtain high-quality organic fertilizer from dehydrated sewage sludge without the use of any harmful chemicals and additional energy consumption for heating the treated mixture, since self-heating occurs during aerobic fermentation masses up to 70 ° С. The filling line ensures the creation of the final product in the form of organic fertilizer, suitably packaged and thereby convenient for accounting, storage, sale and transportation.

The essence of the present invention is illustrated in FIG. 1 concept of the industrial complex.

The industrial complex for the treatment of sewage sludge contains a feed conveyor 1 of dehydrated sludge, an emergency discharge conveyor 2, a filler tank 3 with a screw feeder 4, a mixer 5, a mixture unloading device 6 made in the form of a conveyor, a container 7 for receiving the mixture, a conveyor 8 for loading mixtures, means 9 for destroying pathogens, made in the form of an aerobic fermenter, conveyor 10 for unloading compost and packing line 11.

The feed conveyor 1 provides the formation and supply of dehydrated sludge to the mixer 5. The emergency unloading conveyor 2 is designed for the emergency version of unloading the dehydrated sludge, bypassing the mixer 5. The capacity of 3 filler is designed to store the filler pre-delivered to the production complex, sufficient for multiple operation of the existing fermenter compartments. The screw feeder 4 provides the filler from the tank 3 to the mixer 5. The feed conveyor 1 of the dehydrated sludge and the tank 3 of the filler with the screw feeder 4 are placed with the possibility of feeding the sludge and filler into the mixer 5. The mixer 5 is designed to uniformly mix the incoming sludge with the filler and feed the resulting mixture through the existing hatch on the means 6 made in the form of a conveyor for unloading the mixture into a container 7 for receiving the mixture. In the tank 7, the mixture is accumulated between its periodic flows from the mixer 5. The conveyor 8 for loading the mixture is necessary for feeding the mixture from the tank 7 to the fermenter. The fermenter, working by the method of aerobic express composting, is divided into compartments, the number of which is determined by the set capacity of the complex. In each compartment, air is supplied from below, mixing with an existing device for mixing, unloading of the mixed mass with an existing device for unloading with feeding to an unloading belt or screw conveyor. In addition, in the upper part of each compartment there is a device for removing air, moisture, etc. The compost unloading conveyor 10 is designed to receive the resulting product and provides compost for packing or, in case of repair or reloading, provides compost unloading for on-board storage on the street. Using the packaging line 11, the compost is packaged in bags, sacks, etc.

It is possible to carry conveyors in the form of conveyors manufactured by the enterprise NPF ECOTON, Belgorod, where the mass is moved in a spiral. It is possible to use belt conveyors produced by the Ivanteevsky elevatormelmash enterprise, Mosk. region., Ivanteevka, and screw feeders produced by JSC “Parity”, Ekaterinburg. The conveyor for emergency unloading and unloading of the mixture, the loading conveyor and the conveyor for receiving the resulting product may be auger or belt. The capacity of the filler can be made of the bunker type, in which there are internal shafts for tedding the mass. You can use the mixer manufactured by ABONO LLC, Moscow, and the fermenter - by the company Volgocemmash OJSC, Tolyatti, in the form of a bio drum of the type KM-101A or KM 102B. For the filling line, you can use the packaging equipment from LLC 1 TOPMASH, Moscow.

The production complex for the treatment of sewage sludge works as follows. At the treatment plant (not shown in the drawing), a solid fraction is isolated from the incoming wastewater volume to produce a sewage sludge. This sludge enters the feed conveyor 1 of the dehydrated sludge. Previously, a filler is placed in the filler tank 3 to reduce moisture, for example peat, sawdust, etc. The filler in the container can be laid in significant volumes and be in it as in storage or in a warehouse. From the feed conveyor 1, the dehydrated sludge is fed to the mixer 5. At the same time, the filler 5 is fed with filler through the screw feeder 4 from the tank 3. In the case of continued supply of sludge when the mixer 5 is full, the input of the emergency discharge conveyor 2 can be connected to the output of the conveyor 1 of the dehydrated sludge. In this case, the conveyor 2 operates as an extended (elongated) part of the conveyor 1, being essentially a continuation of the conveyor 1, and the dehydrated sludge, bypassing the mixer 5, by means of the conveyor 2, enters a specially prepared container (not shown), from which, as filling it, this precipitate can be re-directed to conveyor 1. Using means 6 for unloading the mixture, made in the form of a conveyor, the mixture obtained in the mixer 5 enters the tank 7 for receiving the mixture. From the tank 7 for receiving the mixture, the prepared mixture, consisting of sediment and filler, enters the means 9 for the destruction of pathogens, which is made in the form of an aerobic fermenter. The mixture enters the fermenter using a feed conveyor 8 to load the mixture. The fermenter has compartments, the number of which is determined by the required performance. As the filling of a compartment of the fermenter, the conveyor 8 stops the flow of the mixture to transfer the feed into the free compartment of the fermenter. In this case, the sludge mixed with the filler accumulates in the tank 7 while the mixture is constantly being supplied from the mixer 5. From the fermenter, the compost obtained is fed through the screw or belt conveyor 10 for packaging to the inlet of the packaging line 11. Using the packaging line 11, the compost is packaged in bags , packages, etc. Next, the finished product goes to storage.

Thus, in the claimed technical solution for the treatment of sewage sludge due to the fact that the means for destroying pathogens is made in the form of a fermenter, no harmful, including dusty substances are used, there are no costs for heating the treated mass, there is also no need in any regulation of the pH of the treated mass. The production complex of the present invention can carry out continuous aerobic fermentation with a continuous flow of separated dehydrated sludge from wastewater to produce high-quality organic fertilizer with biologically dead pathogenic microflora. The invention provides a finished product suitable for accounting, storage, sale, transportation. When using the claimed device eliminates the difficulties associated with filling the compartments of the fermenter, mixer, as well as interruptions in the flow of filler into the mixer. The operation is greatly simplified due to the fact that precise adjustment of the conveyors is not required for the supply of material and a constant amount of incoming precipitation for processing is maintained regardless of their allocation by time of day. At the same time, it becomes possible to maintain and repair during operation. Using the claimed technical solution allows you not to deal with problematic issues of disposal at sewage sludge landfills.

Consumers of the complex according to the present invention can be both individual sewage treatment plants (sewage plants), and inter-district centers for the treatment of sewage sludge, which should be created.

Claims (2)

1. A production complex for the treatment of sewage sludge, containing a feed conveyor for dehydrated sludge, a filler tank with a screw feeder, placed with the possibility of feeding sludge and filler into a mixer made with a means for unloading the mixture, and means for destroying pathogens, characterized in that the complex equipped with an emergency discharge conveyor with the ability to connect its input to the outlet of the dewatering sludge feed conveyor, a container for receiving the mixture, a loading conveyor for filling the mixture is narrow and the conveyor unloads compost from the means for destroying pathogens, the means for destroying pathogens made in the form of an aerobic fermenter, the means for unloading the mixture is made in the form of a conveyor, the outlet of which is installed with the possibility of feeding the mixture into a container for receiving the mixture from the mixer, and the loading conveyor placed with the possibility of receiving the mixture from the tank for receiving the mixture and feeding it to the fermenter. 2. The production complex according to claim 1, characterized in that it is equipped with a packing line, and the compost discharge conveyor is placed with the possibility of feeding compost to the inlet of the packing line.

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