RU2505486C2 - Method of drainage outflow purification and device for its realisation - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: weed plants are preliminarily mowed in discharge canal to water level and is left to dry. After drying reed and rush plants are selected. Selected plants are used as sorbent. Filtering cassette net of cassette-holding device is filled with sorbent. Sorbent-containing device is fixed in discharge canal bed in monolithic manner and drainage outflow is passed through it. Plant mowing and replacement of filtering cassette are carried out when rice plant passes from one vegetation stage into another.

EFFECT: invention makes it possible to improve reclamation state of soil and ecological situation on rice fields due to reduction of suffusion and removal of nutrients from soil.

2 cl, 2 dwg, 2 tbl

Description

The invention relates to the treatment of drainage effluents and can be used in water conservation measures upon receipt of additional volumes of clean water for irrigation reclamation.

A known method of wastewater treatment from pesticides (US Pat. RU No. 2060961, C02F 1/58, 05/27/1996). According to this method, wastewater treatment from pesticides is carried out by introducing activated carbon into the water and settling.

The disadvantage of this method is the uneven introduction of activated carbon into the water, and, consequently, wastewater treatment. Low efficiency of spraying with ground spraying units and with the help of aviation.

Known construction for the treatment of collector-drainage and wastewater (US Pat. RU 2062634, B01D 36/04), erected on the route of the open collector-drainage channel, consisting of sequentially installed sumps and sorption filters, made in the form of wells, equipped with removable mesh containers, filled with sorbent. The disadvantage of this structure is the high cost of the used sorbent: modified mudstone.

A known method of cleaning a drainage drain and a device for its implementation (US Pat. RU No. 2091538, ЕВВ 11/00, 09/27/1997). According to this method, the drainage flow is cleaned by mechanical retention of impurities, followed by the removal of pesticide residues by passing the flow through the fibrous material.

The disadvantages of this method are the high labor costs for granulating sapropel, processing the fibrous filter material with alumina, the manufacture of a filter cartridge and removing the fibrous filter material from it.

The closest technical solution to the claimed one is a method of cleaning a drainage drain and a device for its implementation (US Pat. RU No. 2401804, C02F 1/28, B01D 25/02, B01D 39/06, ЕОВВ 11/00, C02F 103/10, 20.10. 2010). According to this method, the removal of mechanical impurities, organic substances, heavy metal ions, as well as excess salts in the drainage channel by passing the drainage drain through a filter matrix fixed in the channel of the drainage channel, containing sorbents in the following sequence, taking into account the occupied volume of sorbents in filter matrix: shell rock - 50%, glauconite sand - 30%, expanded clay - 20%. The filter matrix is made in the form of a rigid metal frame from a steel corner, the bottom and side faces of which are covered with sheet steel. On the working side, ensuring the passage of drainage flow, the frame is equipped with a trash guard. The frame contains three removable removable cassettes with sorbents located in a certain sequence along the path of the drainage flow: shell rock, glauconite sand, expanded clay. Each removable cartridge is a metal case made of a steel corner, the bottom and side faces of which are covered with sheet steel. The cassette case is equipped on the working sides with brass grids, with fiber filter material attached to them from the inside, and has two ties around the perimeter in the form of sheet steel strips acting as stiffeners with mounting loops.

The disadvantages of this method are the large labor costs for the manufacture of the matrix, its operation and processing.

The technical result of the invention is the cleaning of drainage runoff from mechanical impurities and excess salts by passing it in the discharge channel through a sorbent (dried reed and reeds), improving the reclamation state of soils and the ecological situation in rice fields by reducing the suffusion and removal of nutrients from the soil, reducing cost and increase rice yields.

The technical result is achieved by the fact that in the known method for cleaning a drainage drain, including passing a drainage drain through a filter cartridge with a sorbent installed in the channel of the discharge channel of the irrigation system, according to the invention, the drain drain is passed through a removable filter cartridge installed in the discharge channel of the rice irrigation system, and filled with sorbent, which is a dried plant of reed and reeds, selected from weeds growing in the said waste the area, which is previously mowed down to the water level in the discharge channel during the transition of rice plants from one phase of vegetation to another, and the filter cartridge used for cleaning is also replaced when rice plants move from one phase of vegetation to another.

The technical result is also achieved by the fact that the device for implementing the method according to claim 1 is made of a cassette-holding device monolithically fixed in the channel of the discharge channel of the rice irrigation system, its installation level is not less than the maximum water level in the discharge channel, while the said device is equipped with slots for installation of a filter cartridge made of a rigid metal frame with a metal mesh fixed to it filled with dried cane and reeds plants.

The novelty of the claimed invention is due to wastewater treatment using a filter cartridge, the metal mesh of which is completely filled with beveled and dried cane and reeds plants, used as a sorbent.

Mowing weeds during the transition from one phase of rice vegetation to another allows you to control the flow and water level in the discharge channel of the rice system, and, consequently, the position of the depression curve, which helps to save irrigation water and electricity, improve the ecological situation in the rice irrigation system and increase rice yields. In addition, mowing can reduce filtration losses of irrigation water from a rice check, and reduce transpiration losses.

Drying of reed and reed plants is carried out to improve the filtration conditions through them and increase the degree of their resistance to decay processes, which will allow to clean the drainage flow qualitatively.

When the drainage drain passes through the filter cartridge, it is cleaned of the mechanical impurities present in it by retaining them on the filter surface. Reducing the excess of salt compounds occurs due to the phyto-properties of reed and reed plants, which will allow to clean the drainage flow qualitatively.

The use of dried cane and reeds in the filter matrix helps to reduce mechanical impurities and excess salt compounds in the drainage drain, decrease the filtration outflow of irrigation water from the rice check by creating a backwater in the drainage channel of the inventive device, and, consequently, reduce irrigation water losses, reduce suffusion and removal of nutrients from the arable horizon of the check. After replacing cane and reed plants in the filter cartridge, they are deposited on rice fields, thereby enriching the soil with organic substances, and increasing the reclamation state of the soil.

The invention is illustrated: figure 1 is a fragment of the discharge channel, figure 2 is a section aa of the discharge channel.

A device for cleaning the drainage drain includes a cassette holder 4 with grooves 5 (Fig. 1), integral with the drainage channel [bottom of the discharge channel - 1, slope of the discharge channel - 2, maximum water level in the discharge channel - 3 (Fig. 1). 1, 2)], and a removable filter cartridge 6 (Fig. 1, 2), made of a rigid metal frame 7 (Fig. 2), with a metal mesh 8 fixed on it (Fig. 2), while the metal mesh of the filter cartridge completely filled with sorbent 9 (figure 2), which use dried reed and reed plants.

The method is carried out using the device as follows.

Since the beginning of the rice growing season, water has been supplied from the dispenser to rice checks, accompanied by the outflow of filtration water from the checks into the waste channels and their repeated use for flooding the checks. In line with the discharge channel 1.3 (Fig. 1), a cassette-retaining device 4 (Fig. 1) with grooves 5 (Fig. 1) for filtering cartridges 6 (Figs. 1, 2) is integral. Moreover, the weed vegetation is mown to the water level in the discharge channel and left to dry. After drying, cane and reeds plants are selected and the net 8 (FIG. 2) of the filter cartridge 6 (FIG. 2) is completely filled with it, which is installed in the cartridge-retaining device 4 (FIG. 2), thereby reducing the outflow of filtration water and cleaning the drainage from in it mechanical impurities and excess compounds of salts. In this case, mowing and replacing the filter cartridge 6 is performed when the rice plant is transferred from one phase of the vegetation to another.

An example implementation of the method.

Tests of the method of cleaning the drainage drain and the device for its implementation were carried out in the Krasnodar Territory of CJSC Chernerkovskoye, Slavic District.

In the spring, from the beginning of the rice growing season, before feeding water to rice checks in the channel of the discharge channel, a cartridge-holding device with grooves is monolithically fixed, overlapping the space between the channel slopes and the side faces of the filter cartridge. The level of the cassette holder must not be lower than the maximum water level in the discharge channel. The filter cartridge is made at the installation site. The filter cartridge is made in the form of a rigid metal frame on which the mesh is fixed.

Pre-mow the weeds to the water level in the discharge channel of the rice irrigation system and leave to dry. After drying, cane and reeds plants are selected and the filter cassette mesh is completely filled with them. Moreover, mowing and replacing the filter cartridge is performed when the rice plant is transferred from one phase of the vegetation to another. Removable filter cartridges with a sorbent are delivered by truck and inserted into the filter matrix with a crane. Then carry out the supply of water from the dispenser to the rice checks. The drainage drain, passing through the filter cartridge, is cleaned of the mechanical impurities and excess salt compounds present in it.

The optimal distance between the devices for cleaning the drainage drain in the discharge channel (in CJSC Chernerkovskoye, Slavyansk region under the given local climatic conditions) was set: after 50 m (1st option), 100 m (2nd option) and 150 m (3rd option).

Data on the results of a chemical analysis of the drainage flow by options after passing through the device are presented in table 1.

According to the results of chemical analysis of the drainage flow, it was found that option No. 1 (the distance between the devices for cleaning the drainage flow 50 m) for these local climatic conditions of rice farming is the most effective, that is, the best cleaning of the drainage flow occurs when the inventive device is placed at a distance 50 m apart.

According to the results of chemical analysis of the drainage flow, it was found that option No. 1 (the distance between the devices for cleaning the drainage flow 50 m) for these local climatic conditions of rice farming is the most effective, that is, the best cleaning of the drainage flow occurs when the inventive device is placed at a distance 50 m apart.

To assess changes in the reclamation state of soils, soil samples were taken from rice checks 166 (1), 166 (2), 168 (1), 168 (2), 169 (1), 169 (2), the analysis of which showed effectiveness in comparison with the control of the proposed method for cleaning the drainage drain and the device for its implementation (table 2).

Table 1 The chemical composition of the drainage flow according to the options after passing through the device Chemical composition of water Option number 3 (150 m) Option number 2 (100 m) Option number 1 (50 m) Without device (control) mg / l mg / equiv mg / l mg / equiv mg / l mg / equiv mg / l mg / equiv Anions HCO ' ₃ bicarbonate 622 10,2 732 12.0 756 12,4 869 14.3 Cl ' ₃ 408 11.5 252 7.1 51 1.44 421 13.8 SO '' ₄ 1215 25.32 1364 28.42 140 2.92 1796 37.42 Sum of anions - 47.02 - 47.52 - 16.76 - 65.52 Cations Sa '' 456 22.8 360 18.0 188 9,4 632 31.61 Mg '' 133 11.1 152 12.65 46 3.8 146 12,20 Na ' 300 13.04 381 16.56 80 3.48 489 21.26 TO' 3 0.08 12 0.31 3 0.08 17 0.45 Sum of cations - 47.02 - 47.52 - 16.76 - 65.52 Other indicators pH 7.0 7.0 7.2 7.3 CO ₂ fourteen 0.32 21 0.48 four 0.08 38 0.89 Dry residue 2900 - 3060 - 1021 - 4119 - Sum of ions 3137 - 3253 - 1260 - 4370 -

Claims (2)

1. A method of cleaning a drainage drain, including passing a drainage drain through a filter cartridge with a sorbent, installed in the channel of the discharge channel of the irrigation system, characterized in that the drain drain is passed through a removable filter cartridge installed in the discharge channel of the rice irrigation system, and filled with a sorbent representing dried plants of reeds and reeds, selected from weeds growing in the aforementioned discharge channel, which is previously mown to a water level in the waste channel during the transition of rice plants from one phase of the growing season to another, and the filter cartridge used for cleaning is also replaced when the rice plants are moving from one phase of the growing season to another. 2. The device for implementing the method according to claim 1 is made of a cassette-holding device monolithically fixed in the channel of the discharge channel of the rice irrigation system, its installation level is not less than the maximum water level in the discharge channel, while the said device is equipped with slots for installing the filter cartridge made from a rigid metal frame with a metal mesh fixed to it, filled with dried cane and reeds plants.

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