SU1126249A1 - Method of watering by sprinkling - Google Patents

Abstract

A method of irrigation with rain, including sequential processing of individual sites by sprinkling devices by issuing predetermined irrigation norms with a shift in the start time of irrigation and a decrease in irrigation norms after soil moistening with precipitation, characterized in that the goal of increasing irrigation efficiency is by maintaining soil moisture within optimal limits and rational use of water resources; after wetting the soil with precipitation, the duration of the displacement of the start of irrigation is determined from the formulas 2tpE T where T - duration of watering start offset, d; h is the layer of precipitation that has been absorbed into the soil at the next section intended for irrigation, after the previous irrigation, mm; m - given irrigation rate, mm; E is the daily value of water use, mm / day, after which the treatment of the sprinkling areas (with Lead devices is carried out by feeding irrigation rates, reduced by the amount of the precipitation layer, absorbed into the soil in the treated area after the previous irrigation.

Description

Yu

05

Yu

four

CO. The invention relates to agriculture and can be used for irrigating soils with a low water capacity in the zone of unstable moisture. The known method of irrigation with sprinkling, including the sequential treatment by sprinkling devices of individual sections 1. The disadvantage of this method is that it does not provide for adjustments to the irrigation regimes after wetting the soil with atmospheric precipitation. There is also a sprinkling irrigation method, which includes the sequential processing of individual plots with sprinkling devices by issuing specified irrigation norms with a shift in the irrigation start date and a decrease in irrigation norms after soil moistening with precipitation 2. A disadvantage of the known method is low irrigation efficiency due to different soil moisture in individual plots. The purpose of the invention is to increase the efficiency of irrigation by maintaining the soil moisture in the optimal range and the rational use of water resources. The goal is achieved by the fact that after the soil is moistened with atmospheric precipitation, the duration of the displacement of the start of irrigation is determined from the formula h (2m-h) ZVfTE where T is the duration of displacement of the start of irrigation, days; h is the precipitation layer absorbed into the soil at the next section intended for irrigation, after the previous irrigation, mm; W - given irrigation rate, mm; E is the daily value of water use, mm / day, after which the treatment of the plots with the sprinkler devices is carried out by feeding irrigation rates reduced by the amount of the layer of sediment absorbed into the soil in the treated area after the previous irrigation. Example. Watering by sprinkling is carried out under the following specified irrigation regimes: irrigation rate is 350 m / ha; irrigation interval 8 days; soil moisture is 70% HB; daily water consumption 44. In accordance with the formula, the calculation of the technological regimes of irrigation is carried out in case the soil is wetted with atmospheric precipitation. At the same time, the maximum layer of absorbed precipitation is equal to the irrigation rate corresponding to the moisture capacity of the soil. The results of irrigation calculations are given in the table.

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3.8

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35 30 26 26 26 26 26 26 The method is carried out as follows. Prior to the beginning of the irrigation season, the working position of the machine is divided into sections of daily irrigation, the boundaries between which are designated with pegs with signs that have a plot number. After the snow has melted, they observe the dynamics of soil moisture in section 1. The first irrigation of area 1 begins with soil moisture equal to 85% of HB, which corresponds to the period of displacement of the start of irrigation for 4 days. The irrigation rates for daily irrigation plots are: 4.8; 13; 17; 22; 26; 31; 35 mm. The required irrigation rate is established by the irrigator. If during and after the first irrigation of the whole position there is no precipitation, then the next irrigation begins with humidity at site I equal to 70% of HB (i.e., without shifting the start of irrigation) and lead with irrigation rates: 35; 35; 35; 35; 35; 35; 35; 35 mm. In case of fallout, for example, 5 mm of precipitation, irrigation of the next section is shifted by one day and started with soil moisture equal to 70.5% HB, the wire with the following irrigation rates: 30; thirty; thirty; thirty; thirty; thirty; 31; 35 mm. Thus, the table allows you to set the technological modes of irrigation during precipitation, not the wire of any calculations in field conditions. Precipitation in the next plot to be irrigated is measured in any containers with one dimensional. The use of the proposed method of irrigation provides a significant increase in the efficiency of irrigation due to the rational use of water resources and maintaining soil moisture within optimal limits.

Claims (2)

METHOD FOR RAIN WATERING, including sequential irrigation treatment of individual sections by issuing specified irrigation norms with a shift in the irrigation start time and a decrease in irrigation norms after moistening the soil with atmospheric precipitation, characterized in that, in order to increase irrigation efficiency by maintaining soil moisture in optimal limits and rational use of water resources, after moistening the soil with precipitation, the duration of the displacement of the beginning of irrigation is determined from the formula y ₌ _ 2 m E where T is the duration of the displacement of the beginning of irrigation, days; h - layer of precipitation absorbed into the soil at the next plot intended for irrigation after the previous irrigation, mm; m is the specified irrigation rate, mm; E is the daily value of water use, mm / day, after which the treatment of the plots with irrigation devices is carried out by applying irrigation rates reduced by the size of the sediment layer absorbed into the soil on the cultivated plot after the previous irrigation. SU <W 1126249