SU1655378A1 - Device for irrigation with mineralized water - Google Patents

Abstract

The invention relates to agriculture, in particular to land reclamation, and can be used for irrigation with groundwater and drainage saline waters. The aim of the invention is to increase the water utilization rate by shifting the condensation process at night. A device for irrigation with saline water contains a furrow 2 covered with a translucent film 4 Black spherical shells 6 float in the furrow filled with a heat absorption material 7 with a phase transition, for example paraffin, and the melting point of the latter is close to the average daily ambient temperature for the irrigation period. The use of black spherical elements increases the degree of absorption of solar radiation and the heat exchange surface with saline water. 1 il.

Description

The invention relates to agriculture, in particular to land reclamation, and can be used for irrigation with highly saline underground and drainage waters.

The purpose of the invention is to increase the coefficient of water use due to the shift of the condensation process at night.

The drawing shows a device for irrigation with mineralized water, General view.

A device for irrigation with mineralized water contains a dull or flowing groove 2 cut for feeding mineralized water 1, which is covered with a waterproof material 3, on top of the furrow 2 is covered with a translucent film 4 mounted on a frame (not shown), the edges of which are embedded in the soil at the sowing places rows of plants 5. Under the evaporation surface in mineralized water, the device contains floating black spherical shells 6, filled with heat-accumulating substance 7 with a phase transition (for example, steam Athens), which has a melting point close to the average daily ambient temperature over the entire summer irrigation period of this plant.

Watering using the device is as follows.

Along the furrow 2, which is covered with a waterproof material 3. water of any degree of mineralization is supplied, in which black spherical shells 6 float, filling with a heat-accumulating substance 7 with a phase transition. In the daytime, the sun's rays passing through a translucent film 4 heat mineralized water and black spherical shells 6 until the temperature of mineralized water 1 equals t with the melting temperature of the heat-accumulating substance 7 with a phase transition. Further, the temperature of the mineralized water does not rise, since all the heat supplied by the sun's rays to the mineralized water 1 is spent on the melting of the heat-accumulating substance 7 located in the black spherical shells 6. Therefore, in the daytime, moisture condenses very little, so as there is almost no difference between the temperature of the ambient air and the desalinated mineralized water. After sunset, the temperature of the translucent film 4 decreases due to cooling of the ambient air. Therefore, at night due to the accumulated solar energy in the heat-accumulating substance with a phase transition, the mineralized water intensively evaporates and settles in the form of a thin film of water on the inner surface of the translucent film 4 and flows into the root zone of plants 5, moistening the soil by capillary water. Night watering is carried out. The lower the ambient temperature, the greater the productivity of the irrigation distiller. The choice of black spherical shells 6 provide an increase in the degree of absorption of solar radiation and a heat exchange surface with mineralized water 1.

Claims (1)

Claim A device for irrigation with mineralized water, including a furrow with a waterproof screen, covered with a translucent film with a device for draining condensate into the soil, characterized in that, in order to increase the coefficient of water use by shifting the condensation process at night, the device is equipped with floating spherical shells located in the furrow filled with a heat storage substance with a phase transition, while the heat storage substance has a melting point close to the average evnoy temperature irrigation period.