RU2001133670A - The method of fine irrigation of crops - Google Patents

Claims (3)

1. A method of fine irrigation of crops, providing for multiple wetting of the surface air layer, the sowing leaf surface and the open soil surface with artificial rain drops of 100-600 microns in diameter, a one-time norm of 200-600 l / ha with an interval of mainly 1 hour when exceeding the temperature of the surface air layer and / or lowering the relative humidity of the surface air layer below the optimal values for this type of culture, characterized in that the humidification is neniya carry out drops of artificial rain, covered with a monolayer of surfactant, its application rate is calculated by the formula q = p · c · d _s / n · k, where q is the rate of application of the surfactant, kg / m ³ ; p - the degree of coating with drops of water on the leaf surface of the crop,%; d _s is the diameter of the droplet, microns; C is the concentration of the surfactant, providing a monolayer coating of the surface of droplets with a diameter of d _s formed by spraying 1 m ^{3 of} water, kg / m ³ ; n is the coefficient of proportionality; k is the coefficient of spreading drops, and the interval between humidifications is determined by the dependence T = t _isp + t _pd , where T is the interval between humidifications, h; _Spanish t - duration of complete evaporation coated with a monolayer of surfactant raindrops with leaf surface of plants, h; t _pd - the duration of the aftereffect of a single moistening, h, the first moistening is prescribed when the air temperature reaches the lower limit of the optimal temperature range for the photosynthesis of this crop, and the last moistening of plants during the day is performed with water that does not contain a surfactant. 2. The method according to claim 1, characterized in that for the implementation of the method using a surfactant equipped with properties that exclude the temperature increase of droplets of artificial rain during their evaporation or provide an increase in the temperature of drops in the process of evaporation by an amount not exceeding the difference ΔТ =

Where

- plant temperatures corresponding to the upper (max) and lower (min) boundaries of the optimal temperature range of the photosynthesis process. 3. The method according to claim 1, characterized in that to reduce the rate of evaporation of the droplets of artificial rain, a surfactant is used that provides minimal negative environmental consequences of its use.