RU2674125C1 - Agricultural and industrial complex enterprises waste water sediments thermal treatment device - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention is intended for the industrial and domestic wastewater sediments, activated sludge or deposits dewatering, and can be used in water supply and drainage. Agricultural and industrial complex enterprises waste water sediments thermal treatment device includes a drainage tower 4, which is a cylindrical column, inside of which transverse inclined lattice partitions 5 are arranged from top to bottom with an opening in the form of a segment in its lower part, which slope direction is alternately changing. In its upper part the drainage tower 4 is provided with the dehydrated sludge 14 supplying pipe, placed at the input to the first upper lattice partition 5, humidified gas-air mixture 15 outlet branch pipe, and in its lower part is with the hot gas-air mixture 16 supply branch pipe and the dry sediment 17 outlet branch pipe. At the slope top the lattice partitions 5 are connected to the tower 4 wall with possibility of changing the slope by means of a tilting device 7 consisting of an eyelet attached to the lattice partition 5, placed between two eyelets fixed to the tower 4 inner wall, through which the support bolt is passed. In the two extreme lower points the lattice partitions 5 are resting against the supports 11, consisting of mounted on the toes elastic elements, attached to the tower 4 inner wall. In front of the drainage tower 4 the gas blower 1 is arranged for biogas supplying, at the inlet connected to the gas-holder and at the discharge is to the injection burner 2. Injection burner 2 injection pipe is connected to the gas-air ejector 3 flaring. Gas-air ejector 3 discharge pipe is connected to the hot gas-air mixture 16 supply branch pipe. Humidified gas-air mixture 15 outlet branch pipe is connected to the plate heat exchanger 18, equipped with a condensate collection pan 19 and made of a corrosion-resistant material.

EFFECT: invention allows to increase the agricultural and industrial complex enterprises waste water sediments thermal treatment device efficiency.

1 cl, 6 dwg

Description

The present invention relates to the field of dewatering of sludge, activated sludge or sludge from industrial and domestic wastewater and can be used in water supply and sanitation.

A device for drying sludge, activated sludge or industrial and domestic wastewater is known, including a dryer, the cavity of which is divided into two sections, equipped with an endless conveyor filter tape passing through its sections in series. Each section is connected along the drying air path with an autonomous drying-heating unit for drying air, and each autonomous drying-heating unit for drying air contains an air heater, a condenser, and a circulation fan between them. Moreover, the air heater of the second section is in communication with the condenser of the first section through a circulation water circuit with a circulation pump with the possibility of obtaining heat energy for drying in the second section by using the latent heat of vaporization from the first section [RF Patent No. 2446371, IPC F26B 17/02, F27B 15/02 , 2011].

The main disadvantages of the known device are the complex structure and the insufficiently high temperature of the drying agent-air, which reduces the drying efficiency.

Closer to the proposed invention is a device for cleaning and utilizing flue gases to produce methane, including a transit duct branched into a backup duct with a gate connected to the chimney and a working duct with a gate connected in series with a heat exchanger and an absorption (drying) tower, inside which from top to bottom there are inclined lattice partitions with an opening in the form of a segment in its lower part, the direction of the slope of which alternately changes in opposite directions, The absorption tower in its upper part is equipped with a raw sludge supply pipe located at the inlet of the first inclined grating partition and a processed gas outlet pipe integrated in the upper cover connected to the return working gas duct, and in its lower part is equipped with pipes for the supply of raw gas and saturated wet sludge, respectively, while the return working flue is also connected to the washing tower, in the upper part of which is placed a liquid distributor connected to the crude water pipeline dye, and its lower part is connected by a pipeline to a sump, the upper part of which is connected to a dirty water pipeline, and the lower part is connected to a saturated sludge pipeline, which, in turn, is connected to a digester [RF Patent No. 2371239, IPC B01D 53/14, 53/62, 53/75, 53/76, 2009].

The main disadvantage of the known device is the lack of equipment for regulating and reducing the temperature of flue gases, the difficulty of cleaning the lattice walls of the absorption tower from adhering sediment and the uneven distribution on their surface, which reduces its effectiveness.

The technical result of the invention is to increase the efficiency of the device for heat treatment of sewage sludge from enterprises of the agro-industrial complex.

A device for heat treatment of sewage sludge of agricultural enterprises contains a gas blower connected at the inlet to a gas holder and at an injection with an injection burner, the discharge pipe of which is connected to the bell of the gas-air ejector, the discharge pipe of which, in turn, is connected to the bottom of the drying tower, which is a cylindrical column, inside of which from top to bottom transverse inclined lattice partitions are arranged with an opening in the form of a segment in its lower part, the slope of which alternately changes and which are connected to the tower wall at the top of the slope, with the possibility of changing the slope, using a turn signal, consisting of an eye attached to the partition grid placed between two eyes attached to the inner wall of the tower, through which holes the reference a bolt, and at the two extreme lower points the lattice partitions rest on supports consisting of elastic elements mounted on heels attached to the inner wall of the tower, and the drainage tower its upper part is equipped with a nozzle for supplying a dehydrated sludge placed at the entrance to the first trellised partition and a outlet pipe for a humidified gas-air mixture, and in its lower part it is equipped with a nozzle for supplying a hot gas-air mixture connected to a discharge pipe of a gas-air ejector and a nozzle for removing dry sediment the outlet pipe of the humidified gas-air mixture is connected to a plate heat exchanger equipped with a condensate collection tray and made of a corrosion-resistant material iala.

A device for heat treatment of sewage sludge from enterprises of the agro-industrial complex (UTOSVAPK) is shown in FIG. 1-6 (Fig. 1 is a schematic diagram of a device, Fig. 2 is a section of a drying column, Figs. 3-6 are attachment points of a lattice partition).

UTOSVAPK contains a gas blower 1, connected at the inlet to a gas holder (not shown in Fig. 1, 2) and for injection with an injection burner 2, the discharge pipe of which is connected to the bell of the gas-air ejector 3, the discharge pipe of which, in turn, is connected to the bottom of the drain towers 4. The drainage tower 4 is a cylindrical column, inside of which transverse oblique lattice partitions 5 are arranged from top to bottom with an opening 6 in the form of a segment in its lower part, the direction of the slope of which alternately changes and The others at the top of the slope are connected to the wall of the tower 4, with the possibility of changing the slope, using a turn signal 7 consisting of an eye 8 attached to the grating of the partition 5 placed between two eyes 9 attached to the inner wall of the tower 4, through the holes of which a support bolt is passed 10, and at the two extreme lower points, the lattice partitions 4 are supported by supports 11, consisting of elastic elements 12, laid on the heels 13, attached to the inner wall of the tower 4. The drying tower 4 in its upper part is equipped with a pipe dehydrated sludge supply 14, located at the inlet of the first trellised partition 5 and the outlet pipe of the humidified air-gas mixture 15, and in its lower part is equipped with a supply pipe of hot air-gas mixture 16 connected to the discharge pipe of the gas-air ejector 3 and the outlet pipe of the dry sediment 17. The pipe the outlet of the humidified gas-air mixture 15 is connected to a plate heat exchanger 18 equipped with a condensate collecting pan 19 and made of a corrosion-resistant material.

Heat treatment of sediment is carried out in the proposed device as follows.

Biogas from a gas holder (not shown in Fig. 1, 2), the amount of which is determined by the device’s performance, enters the gas blower 1, where it is compressed to pressure P ₁ , and then it is supplied to the injection burner 2, where it is burned and the resulting flue gases under some excess pressure P ₂ , enter the gas-air ejector 3. In the ejector 3, flue gases are mixed with the outside air to form a gas-air mixture with a temperature of (500-550) ° C, which under some excess pressure P ₃ enters through the pipe 16 to the bottom of the drainage tower 4. In tower 4, the gas-air mixture moves from bottom to top, is contacted in countercurrent with wet sludge entering through pipe 14 and sliding from one partition 5 to another under the influence of gravity and tilt angle (the inclination of partitions 5 is equal to the angle of repose wet sediment and is determined experimentally for a specific type of sediment), passing through cracks in the partitions 5. Moreover, due to the presence of elastic elements 12 in the composition of the supports 11 and the possibility of rotation due to the turn signal 7, when the precipitate falls from one pen orodki 5 to the other, their vibration occurs, which results in the more uniform distribution of residue on the surface of the partition walls 5 and an intensification of heat and mass transfer process. As a result of repeated contact of the gas-air mixture and the particles of the wet cake, vibration of the partitions 5, the gas-air mixture is cooled and freed from nitrogen oxides, carbon dioxide, droplets of condensate and moistened, after which it passes through the pipe 15 to the heat exchanger 18, and the wet cake is saturated with these elements as a result the processes of absorption, adsorption and chemisorption, which occur with sediment components (water, protein particles, fats, sand, clay, etc.), are freed from water residues, dried and removed through the pipe 17. In the heat exchanger 18, the cleaned and cooled gas-air mixture is additionally cooled with condensation of water vapor, while being purified from particles of crude sludge and other impurities carried away from tower 4, which are deposited in the sump 19, and discharged into the atmosphere, and the condensate which is a mud mixture, also enriched with oxides of nitrogen, sulfur and carbon, flows down a gravity pipe to the wastewater receiver (not shown in Fig. 1, 2).

Thus, the device for heat treatment of sewage sludge from enterprises of the agro-industrial complex provides the ability to control and reduce the temperature of flue gases by using injection burners and a mixing ejector, and the design of grating partitions reduces the sticking rate of the sludge and improves the uniformity of its distribution on their surface, which increases device performance

Claims (1)

A device for heat treatment of sewage sludge from enterprises of the agro-industrial complex, including a drainage tower, which is a cylindrical column, inside of which transverse oblique lattice partitions are arranged from top to bottom with an opening in the form of a segment in its lower part, the direction of the slope of which alternately changes, equipped in its the upper part of the dehydrated sludge supply pipe located at the inlet of the first trellised partition from above, and the humidified gas-air outlet pipe with Yes, and in its lower part it is a nozzle for supplying hot gas-air mixture and a nozzle for withdrawing dry sediment, characterized in that the lattice partitions at the top of the slope are connected to the tower wall with the possibility of changing the slope using a turn signal, consisting of an eye attached to the lattice partition, placed between two eyes attached to the inner wall of the tower, through the holes of which a support bolt is passed, and at the two extreme lower points the lattice partitions rest on supports consisting of an elastic of their elements mounted on heels attached to the inner wall of the tower, for supplying biogas in front of the drying tower, a gas blower is installed, connected to the inlet to the gas holder and to discharge with an injection burner, the discharge pipe of which is connected to the bell of the gas-air ejector, the discharge pipe of which, in turn, connected to the hot gas-air mixture supply pipe, and the humidified gas-air mixture outlet pipe is connected to a plate heat exchanger equipped with a condensate collecting tray and made of corrosion resistant material.

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