RU2757381C1 - Cleaning method for felling sites - Google Patents

Abstract

FIELD: forestry.SUBSTANCE: invention relates to forestry and can be used for cleaning felling sites from felling waste. An earth-moving machine is delivered to the felling sites. In addition, the working body of the earthmoving machine removes stumps and digs trenches at the felling site with excavation, followed by placing felling waste and uprooted stumps in the trench. After that, the trench is covered with previously excavated soil. Then, the surface above the trench is leveled and the upper layer of the filled trench is further compacted with the formation of a fire strip along the trajectory of the trench.EFFECT: cleaning efficiency of felling sites is increased.1 cl

Description

The invention relates to forestry and can be used for cleaning felling sites from logging waste.

Clearing felling sites from logging waste is one of the types of final logging operations. The purpose of clearing felling sites is to reduce the fire hazard, prevent the development of foci of harmful insects and diseases, and create conditions for reforestation. The current regulatory documents [1] allow cleaning of felling sites in the following ways:

- laying felling residues on the trails in order to strengthen them and protect the soil from strong compaction and damage during skidding;

- collection of felling residues in heaps and shafts with their subsequent burning during the fireproof period;

- collection of felling residues in heaps and shafts, leaving them in place for decay and for feeding wild animals in winter;

- scattering of crushed felling residues in order to improve forest conditions;

- laying and leaving for decay of felling residues at the felling site;

- removal of felling residues to the places of their further processing.

The specified methods of cleaning the felling sites, if necessary, can be used in combination.

At the same time, the clearing of clear felling areas with subsequent artificial reforestation should be carried out in ways that create conditions for the entire range of reforestation work (site preparation and soil cultivation, planting or sowing of forest crops, agrotechnical maintenance), as well as caring for young stands.

The listed methods of clearing felling sites have proven themselves well during felling of mature and over-mature stands, as well as thinning. However, when carrying out other felling, that is, felling with the aim of clearing the area for the construction of linear and area facilities, the approved cleaning methods do not solve the problem of freeing up the area for construction. Logging residues, stumps and non-commercial wood remain in clearings, which interfere with construction and increase the fire hazard after drying. Burning felling residues in heaps and shafts during a fire-hazardous period is also problematic due to the fact that other fellings are carried out at any time of the year. In addition, incineration is not permitted due to fire safety regulations. In particular, when cleaning from woody vegetation routes of oil and product pipelines, cluster pads occupied by objects of exploration, production and processing of oil, etc.

It should be noted that the placement of green mass in a trench is known from the patent and scientific - technical literature. Such trenches are erected to obtain compost or, as, for example, in article [2] for burial of crushed wood waste and green mass with increased radioactivity.

There is also a known method of clearing felling areas for artificial reforestation with the collection of felling waste, which includes raking the felling residues by the working body of the machine, moving them to the place of combustion or shipment and / or processing into fuel chips, while moving the pick-up raking the felling residues located on the path of its movement the aerial part of the stumps is crushed into chips, mixing it together with the felling residues (patent for invention of the Russian Federation No. 2554447, publ. 03/20/2015).

The technical problem of the claimed invention is to improve the efficiency of cleaning felling sites.

The achieved technical result is the formation of a fire strip to stop a ground fire, which can be maintained in working order for an infinitely long period.

An additional technical result is the creation of conditions providing, if necessary, artificial or natural afforestation on fire-retardant cut strips.

The technical task is achieved by the fact that the method for cleaning felling sites includes raking the felling waste by the working body of the machine, characterized in that an earth-moving machine is delivered to the cutting sites, in addition, the working body of the earth-moving machine removes stumps and digs trenches at the site of felling with excavation, followed by placing in the trench of felling waste and uprooted stumps, after which the trench is filled up with previously excavated soil, then the surface above the trench is leveled and the upper layer of the filled trench is further compacted, with the formation of a fire strip along the trajectory of the trench.

Comparison of the proposed technical solution with the prototype shows that it differs in the following features:

- an earth-moving machine is delivered to the felling sites;

- additionally, the working body of the earth-moving machine removes the stumps;

- in addition, the working body of the earth-moving machine digs trenches at the felling site with excavation;

- Subsequent placement of logging waste and uprooted stumps in a trench;

- the trench is filled up with previously excavated soil;

- then the surface is leveled over the trench;

- further compaction of the upper layer of the filled trench, with the formation of a fire strip along the trajectory of the trench.

Therefore, it can be assumed that the claimed technical solution meets the criterion of "novelty".

The invention can be implemented using known technological processes, therefore, it meets the criterion of "industrial applicability".

As a result of patent information research of the claimed set of features during the cleaning of felling sites, it was not revealed, therefore, the claimed technical solution meets the criterion of "inventive step".

The method is implemented as follows.

An earth-moving machine is delivered to the felling sites, for example, a Komatsu PC210-10M0 crawler excavator. In the places of felling, for example, along the future oil pipeline line, after the felling, the bucket of an earth-moving machine removes the stumps, and also the operation of digging a trench with excavation of soil is performed, which is located on one side of the trench. Trenching is carried out at a distance of 15 m from the oil pipeline line. The depth of the trench is 1.0-1.5 m, the width of the trench is 1.0-1.5 m. The stumps uprooted by the excavator bucket are mixed into the trench, and the logging waste remaining after felling is moved into the trench with the excavator bucket. Then the trench is backfilled with previously removed soil and leveled with an excavator bucket. The excavator then compresses the topsoil of the filled trench. Thus, a fire strip is formed.

It should be noted that, if necessary, the formed strip allows for artificial or natural afforestation.

Thus, an increase in the efficiency of cleaning felling sites is achieved.

Literature

1. "On approval of the Types of cutting operations, the order and sequence of their implementation, the Forms of the technological map of cutting operations, the form of the inspection report of the cutting area and the Procedure for the inspection of the cutting area": Approved. Order of the Ministry of Natural Resources of Russia dated June 27, 2016 No. 367.

2. "Directions for the use of wood waste". Markelov V.M., Zaikin A.M. Bryansk State Engineering and Technological University, (see Appendix to the application).

It is believed that wood as a natural raw material cannot threaten the environment, but the harmlessness of wood waste depends on the type, quantity and method of disposal. The quantity and quality of waste is determined by the product profile and the technology used at this enterprise. Therefore, the most important classification criterion for the use of wood waste is the degree of its pollution with environmentally hazardous chemicals.

The main direction of waste disposal is their use in other industries as secondary raw materials for the manufacture of new materials or as energy raw materials. The direction and method of disposal depends on the type of wood waste, as well as on other factors, including such as the degree of concentration, transportation costs, etc. Waste can be used for technological purposes as secondary raw materials, if there is a sufficient amount and they have an established quality, and products from them are in demand and do not create additional technical and technological problems associated with its further disposal.

We can talk about three main directions of waste disposal: material, energy, biological. There are cases when material, especially contaminated with hazardous substances, the method of neutralization of which has not yet been developed or is not available, can be temporarily stored in warehouses, where the access of these substances to the ground, water and air is prevented.

When processing radioactively contaminated wood according to the proposed technologies [1] into normatively clean products, about 40% of waste is generated, containing about 65% of the total volume of radionuclides in the used wood raw material.

The most preferable methods of disposal are crushing radioactive waste wood directly at the cutting area and burying them in specially prepared trenches, or even distribution over the surrounding area.

The processing of materials of industrial origin contaminated with radionuclides has been implemented practically in all countries with developed nuclear power engineering, including Russia. Technologies for handling active ash wastes have been studied and implemented - compaction, immobilization, transportation and storage. The schemes and technology of purification of gas and ventilation emissions obtained during waste processing have been worked out. In order to select the method and technology of waste disposal, we selected waste from the production of slabs, laths, sawdust, in percentage terms to the corresponding sawmill, and ashed in a muffle furnace. Table 1 shows the results of tests for the content of various radionuclides in ash.

From table. 1 shows that in wood the main elements that cause wood pollution are Cs-137 and Sr-90.

The specific activity of radionuclides in ash is an order of magnitude higher than even the most contaminated part of wood - bark in terms of Cs-137 content. Obviously, when disposing of wastes from the production of lumber by thermal methods, there is a need for the disposal of ash elements by vitrification or bitumenization.

Analysis of the existing methods of processing and using radioactive wood waste shows that the most preferable, from our point of view, are thermal methods (gasification) for the disposal of such waste. The gasification method allows converting biofuel energy into thermal or electrical energy.

When implementing methods of burning wood waste containing radioactive elements, a problem arises associated with the presence of resinous inclusions in the exhaust gases, which reduces the efficiency and reliability of cleaning them from radioactive elements. To provide a more reliable way of cleaning gases can be performed using a combination of "dry" and "wet" processes. A pilot plant that implements a multi-stage gas cleaning system was manufactured at the Novozybkovsky machine-tool plant.

Belarusian scientists propose a gas generator for processing wood radioactive waste [2], which makes it possible to reduce the possibility of generating gas contamination with radioactive substances during wood processing in areas contaminated by the Chernobyl accident, which, with a large volume of wood waste to be processed, will significantly increase the safety of such work ...

One of the advantages of thermal processing is a significant reduction in the volume of waste, which greatly simplifies the process of disposal of radioactive elements.

List of sources used

1. Zaikin A.N., Merkelov V.M. Technology and equipment for harvesting and processing of wood contaminated with radionuclides: monograph. Bryansk: BGITA, 2012.266 p.

2. Pat. No. 2073926 Russian Federation IPC G21F9 / 32. Gas generator for processing wood radioactive waste / G.G. Kolchanov, A.V. Naganov, I.A. Savushkin, V.D. Dubrovsky // Inventions. Utility models. 1997. No. 6.

Claims (1)

A method of clearing felling sites, including raking logging waste with the working body of the machine, characterized in that an excavating machine is delivered to the felling sites, in addition, the working body of the excavating machine removes stumps and digging trenches at the cutting site with excavation followed by placing the cutting waste and uprooted stumps, then the trench is covered with previously excavated soil, then the surface above the trench is leveled and the upper layer of the filled trench is further compacted with the formation of a fire strip along the trajectory of the trench.