SU865225A1 - Device for soil electric reclamation - Google Patents

Description

(FOR) INSTALLATION FOR SOIL SPRING INTERMEDIATION

I

In other words, it relates to agriculture and can be used for the electrowellation of saline soils.

A known installation for the electro-reclamation of saline soils, which feeds a potential difference to the electrodes on the surface of the reclaimed area, produces a rigid conductive structure located on the surface of section C11.

The disadvantages of this installation are the small size of the reclaimed area and the low productivity of the area due to the implementation of the conductive structure in the form of a frame moved across the field by a tractor.

Also known is an installation for land electromelioration in which the supply of a potential difference to electrodes buried in the soil at a rectangular shape is produced from a DC source of required power using a constant electrical network, including heterogeneous main and distribution I conductive lines at In this case, the midpoints of the distribution lines of one polarity are connected to the corresponding poles of the non-current source of the anodic and cathodic main lines laid along the symmetry of the brine area at the right angle to the distribution line m 2}.

The disadvantage of this method is a significant metal consumption of conductive lines, the cross section of which selects the outcome of the equality of potentials at the ends of all unipolar distribution lines, ensuring its equal current electrode load required for even salt removal throughout the site.

Claims (2)

The purpose of the invention is to reduce the cost of metal wires. 3 The goal is achieved by the fact that the ratio of the length of the trunk and the greater of the distribution lines is 0.5V. The drawing shows a general scheme of the installation for soil electro-reclamation. The installation includes two main opposite-polarized lines of direct current 1 and 2, laid No. 1e along the axis of symmetry of the rectangular section of width H and length B, with the current source taken out of the limits of the section and alternating alternating distribution lines of different polarity embedded in the soil electrodes. 8-12 corresponding polarity. The installation works as follows. The surface of the section during electromicance is washed down with water. The nodes of the anode network are shown with even positions, and the cathode one - with odd positions. To ensure the uniform removal of toxic salts from the soil, it is sufficient to ensure equal electric potentials with respect to the earth at the ends of all single-pole distribution lines. This means that the wire cross sections in the network sections should be chosen in such a way that the values of the voltage losses from the current source to the ends of all unipolar lines, i.e. as applied to the diagram in the drawing of the path between the nodes 1 and 5, 1 and 9, and 12 in the cathode circuits and intersection with the nodes 2 and 6, 2, and 10 in the anode ones. If the potentials at the ends of the unipolar lines and the electrically homogeneous soil are equal, currents of approximately the same force will flow through all unipolar electrodes that are structurally the same and immersed in the ground at the same depth. The DC current network will have a geometrically correct configuration they produce a completely unambiguous current distribution over parts of the whole el. By this distribution, it is easy to determine the minimum cross sections of the wires that satisfy the allowable s; voltage in the direct-current network of the soil electro-melioration installations. Research and experimental operation of the constructed structures showed that the total consumption of wires and the entire network of direct current depends on the shape of the brine section and has a minimum at the shape factor of section X 0.58, i.e. when the width of the section is 0.58 of its length, and all other things being equal, the conditions for the existence of a minimum of the power consumption of the conductors do not depend on the number of distribution lines in the direct-current network. The use of the unit ensures even removal of toxic salts, i.e. high-quality electro-melioration of saline soils, and leads to a reduction in the cost of work on the electro-melioration of soils by reducing the consumption of wires and electricity, as well as reducing the time of soil desalinization. Moreover, the reduction in the consumption of wires is accompanied by a simultaneous decrease in the losses of voltage and electricity in the DC network being constructed on the surface of the land plot to be processed. The invention The installation for soil electromelioration, which has two main raenopolar DC lines, laid along the axis of symmetry of the rectangular section along its shorter side, perpendicular to them alternating different polarity distribution lines with a depth of 1 mm in the soil with electrodes of the corresponding field, This is because, in order to reduce the cost of the metal of the wires, the ratio of the length of the trunk and the larger of the distribution lines is 0.58. Sources of information taken into account in the examination 1. Copyright certificate № 409687, cl. A 01O 25 / OU, 1U72. 2. Mechanization and electrification of socialist agriculture. 1972, No. 9, p. 1-3. "M" 4