RU2511266C1 - Device for cleaning agricultural soil from pesticides - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the protection of environment and can be used in cleaning of agricultural lands and soil from pesticides, as well as for sewage purification. The device for cleaning of agricultural soil from pesticides comprises a photocatalytic reactor, a photocatalyst in the form of titanium dioxide, and an ultra-violet radiation source. The photocatalytic reactor is located horizontally. The device additionally comprises a receiving hopper for soil with a crusher situated under it. The crusher is connected through the conveyor with the photocatalytic reactor. Along the horizontal axis of the reactor a mixer with a drive is located. The ultra-violet radiation source is placed in the butt end of the reactor, and in its upper part there is a dispenser for the photocatalyst - titanium dioxide. The outlet of the reactor through the conveyor is connected to the upper part of the transparent housing. In the lower part of the housing there is the auger for removal of cleaned soil through the pipe. In the central part of the housing the mixing device is mounted. The internal cavity of the housing is connected to the container for the photocatalyst of the ferrous and ferric salts. Under the container there is a pipe for water supply. In the opposite side wall of the housing there is a pipe of removal of waste photocatalyst.

EFFECT: increased intensity of cleaning the agricultural soil from pesticide residues is provided.

2 cl, 1 dwg

Description

The invention relates to the protection of the environment and can be used in the purification of agricultural lands and soils from pesticides, as well as for the treatment of wastewater, their disinfection by destroying viruses and bacteria and other pathogenic microflora.

With the expansion of the use of pesticides, a number of the following negative consequences were revealed: pollution of soils and water sources, accumulation of chemical residues in food products. In the soil, pesticides decompose as a result of physico-chemical processes, microbiological decomposition. Residues of pesticides in the soil are washed out by storm and soil waters and, gathering in natural reservoirs, pollute them, as well as the surrounding land.

The problem of cleaning land and soil for agricultural purposes, as well as the disposal of excess amounts of these substances, especially stored in an open way, is especially relevant for modern ecology. Currently, organochlorine pesticides have spread in agricultural technology: fizid-forte, Zenkor, chistoplan, puma-super.

A known installation for processing soils, soils, containing a hopper with a mixing device, with a device for transporting liquid from it to an overflow tank and a device for outputting solid inclusions, a washing fluid supply system, a vibrator (RU 2330734 C1, IPC V09C 1/00, publ. 08/10/2008).

Known photocatalytic module for water treatment, containing technologically related porous photocatalytic reactor of a given shape and a source of ultraviolet radiation, the reactor is made of quartz, glass, ceramic or glass ceramics, the surface of which is coated with nanocrystalline titanium dioxide, and the pores of the surface of the reactor are multiply connected regular channels (RU 2008117101 A, IPC C02F 1/32, publ. 10.11.2009).

The disadvantage of the above analog devices is that the devices discussed above have a working body of a tunneling nature with moving processed material. But for photochemical processes to occur under the influence of ultraviolet radiation, it is necessary that the material being processed be in the working body for a rather long time.

Closest to the proposed device is a photocatalytic module selected as a prototype (RU 2394772, IPC C02F 1/32, published July 20, 2010), containing technologically interconnected porous photocatalytic reactor made of quartz, glass, ceramic, glass ceramics , on the surface of which nanocrystalline titanium dioxide is applied, a source of ultraviolet radiation (UV), the pores of the surface of the reactor are multiply connected regular channels.

The disadvantage of the prototype is the inability to clean agricultural land and soil from pesticides. With the positive qualities of the module adopted as a prototype, it has a significant drawback, namely, the selective focus only on disinfection and improvement of the organoleptic properties of the aqueous processed medium due to the formation of hydroxyl radicals that destroy microorganisms, as well as organic and inorganic compounds. Cleaning the solid phase, namely agricultural land, of pesticides in the module is not possible.

The objective of the proposed device is the purification and disinfection of wastewater by destroying viruses and bacteria and other pathogenic microflora, as well as the cleaning of agricultural land and soil from pesticides. The problem is solved in that the device contains a photocatalytic reactor, a photocatalyst in the form of titanium dioxide, a source of ultraviolet radiation, in contrast to the prototype, the photocatalytic reactor is located horizontally. The device further comprises a receiving hopper for soil with a crusher located underneath it, connected through a conveyor to a photocatalytic reactor, along the horizontal axis of which there is a mixer with a drive, and the ultraviolet radiation source is located in the end of the reactor, and in its upper part there is a doser for the photocatalyst - dioxide titanium, the outlet of the reactor through the conveyor is connected to the upper part of the translucent housing, in the lower part of which there is a screw for the removal of you are through a nozzle, a mixing device is installed in the central part of the housing, the inner cavity of the housing is connected through a pipe attached to its side wall to a photocatalyst tank of salts of divalent or ferric iron, under which there is a water supply pipe, in the opposite side wall of the housing there is a pipe removal of spent photocatalyst.

The mixing device is a horizontally located axis, rotating from an electric motor, with blades mounted on it.

The catalytic decomposition of pesticides is based on the use of oxidative processes in a photocatalytic reactor using the TiO ₂ / UV and Fe ²⁺ / Н ₂ О ₂ / visible spectrum systems (T.V. Burzina. Disintegration of pesticides based on photocatalysis. -Agrochemistry. -2007. -№3, p. 78-81).

In the TiO ₂ / UV system, the generation of hydroxyl radicals occurs through the adsorption of ultraviolet photons on a semiconductor compound

where e ^- is the electron of the conductor,

h ⁺ is the electron of the vacancy (hole),

hv is the photon energy.

The reaction occurs at a wavelength of less than 390 nm.

Electronic vacancies (holes) oxidize hydroxyl ions adsorbed on the surface of TiO ₂

where HO * are hydroxyl radicals.

During daylight in the photocatalytic housing, when water and iron salts are mixed, mineralization of pesticides (organic compounds) to carbon dioxide, water and inorganic salts occurs (Fenton reaction)

where Fe ²⁺ , Fe ³⁺ are divalent and trivalent iron salts, H ₂ O ₂ is hydrogen peroxide, HO ', HO * are hydroxyl radicals. As can be seen from formulas (3) and (4), during the process of decomposition of hydrogen peroxide (H ₂ O ₂ ) hydroxyl radicals are formed, which are strong oxidizing agents. Under the influence of photons of light, the rate of the oxidation process increases hundreds of times, which affects the mineralization of pesticides.

The drawing shows a diagram of the device.

The device includes: a receiving hopper for soil 1 with a crusher 2 located underneath it, connected through a conveyor 3 to a photocatalytic reactor 4, along the horizontal axis of the reactor there is a mixer 5 with a drive 6, an ultraviolet radiation source 7 located in the end of the reactor, in the upper part of the reactor a dispenser 8 for the titanium dioxide photocatalyst is placed, the outlet of the reactor through the conveyor 9 is connected to the upper part of the translucent housing 10, and a screw 11 is located in the lower part of the housing for removing the cleaned soil through es pipe 12, on which is set a stirring apparatus 13, the middle portion of the housing through a conduit 14 is connected with the container 15 for the photocatalyst from the salts of divalent or trivalent iron, a container is water inlet port 16, on the opposite side of the housing is pipe 17 Exhaust photocatalyst. The nozzles have: valve-18, valve-19, valve-20, valve-21. The mixing device includes a horizontally located axis 22, rotating from the electric motor 23, with the blades 24 mounted on it.

The operation of the device is as follows. Soil with residual pesticides using a loader bucket (not shown) is fed into the receiving hopper 1, built into the upper part; crusher 2, in which grinding pieces of soil. The crushed soil with the residual amount of pesticides using a screw conveyor 3 is transferred to the photocatalytic reactor. 4. At the same time, through the dispenser 8, a granular photocatalyst of titanium dioxide is fed into the reactor. The drive 6 is turned on, which drives the mixer 5.

In this case, the mixed material is irradiated using a halogen lamp system of an ultraviolet radiation source 7. In the resulting TiO ₂ / UV system, hydroxyl radicals are generated which, by oxidizing pesticides (organic compounds), mineralize them to carbon dioxide, water and inorganic salts. The material to be processed is in the reactor for at least 10-20 minutes, which limits the detoxification of residual pesticides in the soil.

Next, the processed material using the conveyor 9 is moved to the upper part of the housing 10.

The valve 19 is opened, and water through the pipe 16 is pumped into the housing. At the same time, the valve 20 opens, and the reagent from iron salts through the pipe 14 is sent from the tank 18 to the reactor. In this case, the valves 18 and 21 remain closed. When the processed material is irradiated in the body with the visible part of the daily spectrum, hydrogen peroxide decomposes, hydroxyl radicals are formed, which oxidize pesticides (organically compounds) to carbon dioxide, water and inorganic salts. The exposure time in the reactor depends on the intensity of the light flux, the concentration of residual pesticides in the soil and the composition of the soil.

After the end of mineralization, that is, the formation of carbon dioxide, water and inorganic salts, the valves 19 and 20 are closed, the valve 18 is opened and the cleaned soil is removed from the housing using the screw 11 through the pipe 12.

After that, the valve 21 opens and the water with the spent reagent is also drained from the housing. To mix and irradiate the processed material with the visible part of the daily spectrum, an electric motor 23 is turned on, the rotation of which is transmitted through the horizontal axis 22 to the blades of the mixing device 13. The implementation of the invention can significantly increase the intensity of cleaning agricultural land from residual pesticides.

Claims (2)

1. A device for cleaning agricultural land from pesticides, containing a photocatalytic reactor, a photocatalyst in the form of titanium dioxide, an ultraviolet radiation source, characterized in that the photocatalytic reactor is horizontal, the device further comprises a receiving hopper for soil with a crusher located underneath, connected via a conveyor to photocatalytic reactor, along the horizontal axis of which is a mixer with a drive, and the source of ultraviolet radiation placed in the end part of the reactor, and in its upper part there is a doser for the photocatalyst - titanium dioxide, the outlet of the reactor through the conveyor is connected to the upper part of the translucent housing, in the lower part of which there is a screw for removing the cleaned soil through the nozzle, in the central part of the housing there is a mixing device , the internal cavity of the housing through a pipeline attached to its side wall, is connected to the capacity for the photocatalyst of salts of divalent or ferric iron, under which found on the rear water inlet pipe, on the opposite side wall of the housing located exhaust pipe outlet photocatalyst. 2. The device according to claim 1, characterized in that the mixing device is a horizontally located axis, rotating from an electric motor, with blades fixed to it.

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