RU2537014C1 - Method of water treatment for irrigating crops - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture, particularly to irrigation, and can be used in watering and fertilising crops. The method of water treatment comprises the use of a filter material located in one housing, and the filter material is used as a mixture of tereklite clay, barite and dolomite powder in the ratio of 5:1:0.5, and it is placed on a metal grid with holes of 0.2-0.3 cm, the length of 8-10 m and height of 0.8-1 m.

EFFECT: method enables, using the natural sources, to reduce costs and increase the efficiency of the method.

2 ex

Description

The invention relates to agriculture, in particular to irrigation, and may find application in the irrigation and top dressing of crops.

A known method in which the water before irrigation is treated with a magnetic field and saturated with oxygen. At the same time, they feed with the natural mineral bischofite (patent No. 2199854 dated 03/10/2003, IPC A01G 25/02).

In the known method, the mineral source is used twice (before the treatment of water with a magnet and as a top dressing), which complicates the method.

There is also a known method in which milk of lime, iron sulfate and zeolite are used for water purification (patent No. 2397959 dated 08/27/2010, IPC C02F 1/62, C02F 1/52, C02F 1/48, C02F 103/10).

A disadvantage of the known technical solution lies in the difficulty of its use due to the treatment of water with a pulsed barrier discharge followed by filtration.

Closest to the proposed object, the technical solution is a method in which water is passed through five filters using activated carbon mixed with cellulose phosphate ester located in one housing (patent No. 2027677 dated 01/27/1998, IPC C02F 1/28).

The disadvantage of the prototype method is the presence of several partitions located in one housing. The crushed filter material is unstable and is gradually washed out under the influence of a water flow, which reduces the efficiency of the method and increases the cost of manufacturing the housing, partitions and filter material.

The technical result is a simplification of the method, cost reduction.

The technical solution of the claimed object is that for the purification of irrigated water, tereclite clay is used as a filter in a mixture with barite and dolomite flour in a ratio of 5: 1: 0.5 and placed in a metal mesh with holes 0.2-0.3 cm, 8-10 m long and 0.8-1 m high.

The method is as follows.

Tereklitic clay - deposits of the Terek River, are a dense dark gray rock of a homogeneous structure without extraneous inclusions. Clays are dense, odorless, compose the lower part of the left bank of the Terek River and are used as therapeutic mud in medicine. Their composition (mechanical) is as follows: clay particles - 31.8%, sand - 11.3%, coarse inclusions - 0.22%, dusty - 56.8%. Tereklite contains: Al ₂ O ₃ - 19.4%, CaO + Mg - 2.75%, Fe ₂ O ₃ - 5.54%; organic matter - 1.87%, loss on ignition - 9.75%.

The mineralogical composition by fraction: kaolinite - 5%, montmorillonite - 10-15%, chlorite - 5-10%, pyrite - 1%, quartz - 15-20%, feldspars - 0.3-15.3%, mica more - 1.7%. Valuable properties of tereclite are its high heat capacity, low heat conductivity, and high adsorption and catalytic ability. Unlike other clay compounds, tereklite contains a significant amount of water-soluble salts (sodium, magnesium, calcium, phosphorus, potassium, etc.)

Barite is a natural barium sulfate (BaSO ₄ ). The main technological properties that determine a wide range of industrial applications are high density (4.3-4.6 g / cm ³ ), chemical inertness, low hardness (low abrasiveness), and the ability to absorb various harmful radiation.

In a mixture with Tereklit clay in this ratio (5: 1), barite makes particles heavier and prevents their erosion, supplying the substances necessary in an aqueous solution to the plants grown.

Dolomite flour MgCO ₃ CaCO ₃ (18-20% MgO) contains the necessary amount of magnesium, which is especially necessary when there is a lack of moisture in the soil, since a weak root system at the beginning of the growing season limits the possibility of obtaining moisture in sufficient quantities, the accumulation of basic nutrients. Calcium contained in dolomite flour reduces the acidity of the solution and soil during irrigation.

From the irrigation canal filled with water of the Terek River, at the exit for irrigation of agricultural crops (for example, corn), a metal mesh 8-10 meters long is placed. Through openings of 0.2-0.3 cm in size, passing water flows into irrigated furrows, extracting valuable nutrients necessary for plants, moistening the soil with purified water from harmful impurities due to the sorption features of Tereklit clay, barite and dolomite flour.

The justification of the selected parameters of the size of the metal mesh and its holes is explained by the need to preserve the filter material of tereklite clay in a mixture with barite and dolomite flour.

Example 1. A metal mesh with holes of 0.5 cm, a height of 1 m and a length of 10 m was installed along the width of the outlet from the irrigation channel. 5 tons of clay deposits, 1 ton of barite and 0.5 tons of dolomite flour were laid in the grid. During the irrigation of corn (phase 5-7 leaves), microelements compounds (selenium, boron, iodine and others, depending on the needs of the plants) were added to the filtering material. If necessary, open the lid and supplement the mixture in such a proportion. The rate of water consumption for one irrigation is 400-600 m3 / ha, depending on the soil structure. During the growing season of corn, 3-5 irrigation is carried out (phases: 5-7 leaves, laying of stem leaves, panicle formation, pollen formation, cob formation).

Example 2. Prepared filter material, grinding it to 10-15 mm, mixing tereklite clay p. Terek - 5 tons, barite - 1 tons and dolomite flour in the amount of 0.5 tons, placing them in a metal mesh 8 m long and 0.8 m high. During the earing phase of winter grains, watering was carried out.

Based on the results obtained, the amount of heavy metals decreased by 4-5 times, and the grain yield in maize increased from 50 c / ha in the control to 68 c / ha in the optimal variant. In winter wheat from 22 kg / ha in the control to 38 kg / ha when irrigated in the heading phase.

Therefore, the proposed method allows due to natural sources to reduce costs and increase the efficiency of the method.

Claims (1)

A method of purifying water for irrigation of crops, including the use of filter material located in one housing, characterized in that the mixture of tereklite clay, barite and dolomite flour is used as filter material in a ratio of 5: 1: 0.5 and placed in a metal mesh with holes of 0.2-0.3 cm, a length of 8-10 m and a height of 0.8-1 m.