RU2253224C1 - Method of forming guard zones of aerial electric lines - Google Patents

Abstract

FIELD: forestry, in particular, methods used on forest stock plots of forest lands in guard zones of aerial electric lines.

SUBSTANCE: method involves during laying out of novel aerial electric lines or clearing of cut-through of existing aerial electric lines, providing clearing works or forest isolating cut-through works on forest border adjoining thereto; carrying out reforming cuttings while changing spatial structure of plantations and enhancing suppressing effect of undergrowth to provide for inhibiting of growth of principal kinds of forest woods; organizing short-stemmed systems on borders adjoining to cut-through areas by cutting rotation, during which forest stand is felled at age not exceeding undergrowth rehabilitation maturity age. Because of short cutting rotations, forest in short-stemmed systems does not reach height hazardous for normal employment of aerial electric lines.

EFFECT: increased efficiency by eliminating probability of falling trees onto aerial electric line wires in forests of any kind with minimal allowable width of cut-through.

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Description

The invention relates to the field of forestry and will find application on the lands of the forest fund located on forest lands in the protected areas of overhead power lines (VL).

The Land Code of the Russian Federation (2001) introduced the concept of “energy lands” and states that protection zones for overhead lines are established to ensure the operation of enterprises and the operation of energy facilities. The width of these security zones varies depending on the voltage in the lines from 10 m from the extreme wire at a voltage of up to 20 kilovolts to 55 m at a voltage of 1150 kilovolts. On forest lands, the OHL protection zone consists of three parts - a clearing, where OHL towers are installed and along which its wires are located, and two forest edges adjacent to the clearing. The VL operating standards provide for the complete destruction of trees and shrubs over 4 meters in height over the entire clearing area and selective felling in the area of the edges of trees that threaten to fall on wires and OHL supports. The lands of security zones are not seized from owners, land users and tenants, but a special regime of activity is introduced within their borders. In particular, enterprises under the jurisdiction of the power grid are granted the right (in the established order) to maintain clearings without trees by cutting or otherwise, and within the edges of the edges to cut trees that threaten to fall on wires and poles. However, it should be noted that the possibility of tree felling in the forests of the first group is severely limited, in particular, main felling is prohibited here. This creates additional problems during the operation of overhead lines in the same-aged forests of the first group, since at the edges of these forests trees reach heights that threaten the safety of wires and supports at the same time. To ensure the safety of wires and poles on these lands, almost clear cutting of trees is necessary. For its implementation, a decision of the Government of the Russian Federation on the conversion of forest lands to non-forest lands is required. It should be noted that even with such a decision, logging in the forests of the first group is associated with large financial compensations for environmental damage. These costs are transferred to the cost of energy to consumers, raising its cost.

There is a method of maintaining protection zones of overhead lines (PA Dolin. Safety Guide. M: Energoizdat, 1988. P.87-88, Fig. 31.). According to this method, when designing an overhead line, the width of the clearing should be the distance between the extreme wires with the addition of twice the height of the main forest, and trees growing along the edge of the clearing should also be cut down when they reach a height that threatens the safety of the overhead. When caring for OHL protection zones on clearings, clear-cutting of trees and shrubs is carried out, and trees adjacent to clearings of the forest are cut down trees whose height threatens the safety of OHL.

This method allows you to ensure the safety of overhead lines, however, its implementation is associated with the removal from forest use for clearings large additional areas and increased costs for cleaning clearing and cutting trees at their edges. And as mentioned above, it can not be used in uniform forests of the first group.

The closest analogue of the invention is the “Method for determining the design width of the clearing for overhead lines,". (RF application No. 94024414, MK A 01 G 23/00, BI No. 8, 1996). This method includes measuring the distance between the extreme wires of the OHL, measuring the height of trees that threaten to fall on the wires of the OHL, calculating the distance from the tree to the projection of the extreme wire to the ground, summing the distance between the extreme wires of the doubled distance from the trees to the projection of the extreme wire to the ground, and sighting along the OHL on both its sides of the apiaries of the forest with a width not less than the height of the trees threatening to fall on the extreme wires. At these apiaries, the height and quality indications of the trees are measured, and then the average and maximum heights are calculated before and after the projected felling for the adjacent apiaries of the forest, and the distance to the projection of the extreme wire of the overhead lines is calculated from the design height of the tree stand formed after the design of the felled trees apiary forest.

It should be noted that the term “apiaries” used in the description of the analogue refers to the technology of logging; when implementing the technology for forming clearings of overhead lines, the term “edge” used in forest growing is more applicable.

The advantage of this method compared to the analogue is the reduction of the width of logs, taking into account the quality of the forest environment of its structure by tree species, the possibility of using integrated forest technologies that take into account the ecological component of the forest.

However, the disadvantage of this method is the impossibility of using in the same-growth forests of the first group due to the ban on the main cutting in them without converting these lands to non-forest, and when transferring to non-forest, reducing the ecological productivity of the forest at the edges of glades.

The aim of the present invention is to guarantee the safety of wires and poles of overhead lines from damage by falling trees in forests of any protection category, the creation of normal operating conditions of electric networks while reducing the technological width of the glades and at the same time maintaining the beneficial properties of the forest growing on the edges of the glades of overhead lines and reducing the damage to its environmental productivity.

The solution to this problem is achieved by the fact that in the known method of forming protection zones of overhead power lines, including the formation of cuts for power lines by chopping woody vegetation with a breakdown of the protection zone into three sections - a cut and adjacent edges, as well as periodic clearing of cuts, according to the invention reorganization felling is performed at the edges of the protection zone with a change in the spatial structure of the stands with an increase in the muffling effect of the undergrowth on the main forest growing species of trees and then carry out low-stem farming on these lands, while the damping effect of the undergrowth, slowing down the growth of the main forest-forming species of the stand, can be enhanced by processing them with retardants.

The positive effect of the invention lies in the fact that carrying out re-cutting at the edges adjacent to the clearings with a change in the spatial structure of the stands with an increase in the damping role of the undergrowth causes a slowdown in the growth of trees of the main forest-forming species and, in combination with low-trunk farming and the use of retardants, can guarantee the safety of overhead lines from falling trees on wires and supports with the minimum permissible clearing width. At the same time, minimizing the width of the clearing reduces the damage to the ecological usefulness of the forest at the edges of the clearing.

Implementation of the proposed method is carried out in the following sequence: when laying new overhead lines or clearing the clearings of existing overhead lines in forests of various protection categories after cutting, clearing clearings, at the edges adjacent to them, reformation cuttings are made with a change in the spatial structure of the stands with an increase in damping undergrowth and due to this provide a slowdown in the growth of trees of the main forest-forming species. In the taiga forests of the European part of the Russian Federation, the most common species that form the undergrowth are broomberry, gorse, juniper, and in the acid and complex groups, mountain ash, linden, honeysuckle, dogrose, euonymus, hazel, viburnum, etc. Due to the low height of the species forming the undergrowth It ensures the safety of overhead lines from falling trees on wires and supports. At the same time, the presence of a dense undergrowth along the glades artificially makes it difficult for people to enter the OHL protection zone and reduces the likelihood of them being in the zone of action of high-intensity electromagnetic fields that are hazardous to health. In forests remote from settlements, the slowdown in tree growth can be enhanced by treatment with retardants (chemicals that inhibit tree growth). Then, at the edges of the forest adjacent to the clearings, a low-stem economy with cutting revolutions is organized, at which the forest stand is cut down at an age not exceeding the age of the shoot regenerative ripeness. The average duration of logging turnover is 20-40 years. For each network object, felling dates are assigned based on the maximum permissible stand height.

An example of a low-barrel economy is the layering of Christmas trees. When cutting trees, lower branches are left at the stump, which then root and form a young tree. Felling of such trees is carried out based on the required height of the trees (average turnaround time 10-12 years). In deciduous forests, the organization of a peakless farm is possible. In a nonperfection farm, trees at the edges are cut down at a height of 2-3 m with the formation of high stumps (coles), on which shoots grow. After a few years, these shoots are cut down and the regrowth cycle - cutting, is repeated. With a non-peak low-stem farm, it is possible to use very short turns - two to three years, for example, when growing vines. Due to short logging revolutions, the forest in the low-trunk economy does not reach a height that poses a threat to the normal operation of overhead lines.

Thus, the application of the proposed method of forming OHL protection zones allows eliminating the danger of trees falling on wires in forests of any category, both during the period of slow growth of trees of the main forest-forming species, and during the whole time of low-trunk farming with the minimum permissible clearing width, minimizing clearing width allows you to reduce the damage to the ecological usefulness of the forest.

Claims (2)

1. The method of forming protection zones of overhead power lines, including the formation of cuts for power lines by chopping woody vegetation with a breakdown of the protection zone into three sections - a cut and adjacent edges, as well as periodic clearing of the cuts, characterized in that the edges of the protection zone are reformation felling with a change in the spatial structure of plantations with an increase in the damping effect of undergrowth on the main forest-forming tree species and then carried out on these lands by Vedas nizkostvolnogo of the economy. 2. The method according to claim 1, characterized in that after the reforestation felling is performed at the forest edges, the stand is treated with retardants.