RU2536635C2 - Method of surface irrigation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture and can be used for irrigation of agricultural and forest crops with waste waters. The method of surface irrigation comprises treatment of bands of the irrigated land surface, coating the bands with synthetic film, on a part of the surface of which, facing the heads of the bands, an agent is previously applied that inhibits pathogenic microflora in irrigation water as the agent inhibiting pathogenic microflora in irrigation water, encapsulated powder of chloronitrophenol is used in a dose providing the chloronitrophenol concentration in the irrigation water from 0.0001 to 0.001%.

EFFECT: object of the invention is inhibition of pathogenic mycotic objects in waste irrigation water.

Description

The present invention relates to irrigation, and more particularly to methods of surface irrigation with waste water.

A known method of surface irrigation by treating the surface strips of the irrigated area while coating them with a synthetic film, applying irrigation water under the film, described in patent No. 2365095, IPC A01G 25/00 (2006.01), RU, published in Bull. No.24 08/27/2009.

The method lacks the ability to suppress pathogenic microflora in irrigation water.

The closest in technical essence and purpose of the proposed technical solution is the method of irrigation by treating the strips of the surface of the irrigated area, including applying the preparation to a synthetic film, coating the strips of the irrigated area with a synthetic film and applying irrigation water under the film, described in RF patent No. 2454854, IPC A01G 25 / 00 (2006.01), RU, published on July 10, 2012 in Bul.No.19.

The disadvantage of this method is the limited functionality to suppress pathogenic mycotic objects.

The aim of the invention is to expand the functionality of the irrigation method by creating conditions for the suppression of pathogenic mycotic objects in irrigation water.

This goal is achieved by the fact that chloronitrophenol is applied to the synthetic film.

To implement the method, the middle parts are loosened and the side parts of the strips of the surface of the irrigated area are compacted. Each strip is covered with a synthetic film, the edges of which are embedded in the soil. Before coating the strips, chloronitrophenol is applied to a part of the surface of the film facing the heads of the strips of the surface of the irrigated area.

Chloronitrophenol is applied to the film in the form of a powder encapsulated by sticky polymer hydrogels based on N-vinylpyrrolidone, polyamines, cellulose. The film can be applied in two doses. At the first stage, a layer of sticky polymer hydrogel is applied to the film, and then particles of the preparation. Polymer hydrogels do not adversely affect the quality of irrigation water, plants, soil and do not reduce the effectiveness of the action of chloronitrophenol. The length of the zone of application of the drug in the head of the strip take no more than 1/3 of the length of the irrigation strip. The increase in the length of the zone of application of the drug in excess of 1/3 reduces the uniformity of the distribution of the drug along the length of the irrigation strip. Reducing the length of the zone of application of the drug increases the complexity of setting the dispensers.

The application rates of the drug are established according to the reference and regulatory literature, in accordance with the type of pathogenic mycotic microflora. To set up the dispensing dispensers, the application rate in units of% concentration in irrigation water is converted to units - kilogram per irrigation strip. Recalculation is performed according to the formula: n = (M · α · s) / 10, where n is the rate of application of the drug, kg / lane; M - irrigation rate, m ³ / ha; α - the distance between the axes of the irrigation strips, m; s is the concentration of the drug in irrigation water,%. The concentration of chloronitrophenol in irrigation water should be in the range from 0.0001 to 0.001%. When the concentration of chloronitrophenol is less than 0.0001%, the intensity of suppression of pathogenic mycotic microflora in irrigation water is significantly reduced. When the concentration of chloronitrophenol is more than 0.001%, the costs of the drug significantly increase without increasing the intensity of suppression of pathogenic mycotic microflora in irrigation water. For example, the concentration of chloronitrophenol in irrigation water is 0.0007% with the suppression of mycotic microflora Candida albicans. Irrigation rate - 1200 m ² / ha. The distance between the axes of the irrigation strips is 0.6 m. The feed dispensers are adjusted to the flow rate of the preparation (1200 · 0.6 · 0.0007) / 10 kg / strip. For example, the concentration of chloronitrophenol in irrigation water is 0.0001% with the suppression of mycotic microflora Microsporum canis. Irrigation rate - 1400 m ³ / ha. The distance between the axes of the irrigation strips is 0.5 m. The feed dispensers are adjusted to the consumption of the drug (1400 · 0.5 · 0.0001) / 10 kg / strip.

The length of irrigation strips is taken from 75 to 120 m. Simultaneously with the treatment, irrigation strips are covered with a synthetic film, the longitudinal edges of which are embedded in the soil. The edges of the film in the heads of irrigation strips are fixed on the underground outlets of distribution pipelines. 0.25 l / s is fed to the heads of irrigation strips under pressure. The pressure value is taken within 0.4-0.6 m water column (0.04-0.06 atm). With a pressure of less than 0.4 m. Art. the rate of movement of water along the length of the irrigation strip decreases sharply. With a pressure of more than 0.6 m. Art. tearing of the synthetic film is possible.

The width of irrigation strips is taken in the range from 0.2 to 0.4 m. When the width of the irrigation strip is less than 0.2 m, the irrigation time increases significantly due to the reduction in the absorption area of irrigation water. With an irrigation band width of more than 0.4 m, formation of a fault current and soil water erosion are possible.

As a synthetic film, it is rational to use an opaque reclamation film with a thickness of 120-150 microns.

The proposed method of irrigation along the stripes of the surface of the irrigated area expands the functionality of the method, an analogue, by applying to the surface a synthetic film of chloronitrophenol, which suppresses pathogenic mycotic microflora in wastewater.

Claims (1)

The method of surface irrigation, including the processing of strips of the surface of the irrigated area, coating the strips with a synthetic film, on the part of the surface of which is facing the heads of the strips, a preparation is preliminarily applied that suppresses pathogenic microflora in irrigation water, characterized in that as a preparation that suppresses pathogenic microflora in irrigation water, use encapsulated powder of chloronitrophenol in a dose providing a concentration of chloronitrophenol in irrigation water from 0.0001 to 0.001%.