RU2254154C1 - Peat-bed fire prevention method - Google Patents

Abstract

FIELD: fire protection means, particularly to protect peat beds against fire or to prevent burning of compacted loose combustible materials, particularly pulp and paper industry waste materials.

SUBSTANCE: method involves forming channels in peat bed surface in fire-risk areas during winter period; filling the channels and depressions with water; freezing thereof in the channels and depressions to moisten peat bed during water ice thawing. To protect ice against the influence of direct sunlight ice is covered with heat-insulation material, particularly with ground or peat layer. Water is fed from underground horizons located under the peat beds.

EFFECT: increased efficiency.

3 cl

Description

The invention relates to methods for preventing fires in places of peat or other prone to fire compressed loose easily combustible materials, for example, waste deposits of the pulp and paper industry.

The need to develop effective means and methods of preventing fires, especially hidden fires in natural landscapes over large areas, is an urgent task. The relevance of this task is determined by significant damage to human health, the undermining of natural resources, economic losses associated with the extinguishing of such fires in which people die. In this case, it is very important to create ways to prevent fires that meet the requirements of geoecology.

To extinguish peat fires, there are some methods that can be used to prevent fire. Such methods include the method of extinguishing with water supplied to the places of possible ignition through needle trunks or other pipelines and providing humidification of peat bogs (Povzik Ya.S., Klyus P.P., Matveykin A.M. Firefighting tactics., M .: Stroyizdat, 1990, p. 312-314).

The disadvantages of this method is the low efficiency due to the fact that the supplied water goes to a depth, which requires a constant supply of water. At the same time, it is impossible to organize the supply of water to the entire area of the peat bog, given its size and obstruction of places.

The prototype adopted a method of limiting the spread of fire in peatlands, carried out by digging a hotbed of possible fire in a ditch that is filled with water (Povzik Ya.S., Klyus PP, Matveykin AM Fire tactics M .: Stroyizdat, 1990, p. 314), which provides moisture to peatlands, and can reduce the likelihood of its ignition.

The laying of the channel around the focus and the supply of water to the channel are the signs of the prototype, which coincides with the essential features of the claimed invention.

The disadvantage of the prototype is low efficiency due to the fact that water from the ditches constantly seeps into deeper horizons, without wetting the peat layers, while it is impossible to produce ditches across the entire area of peat bogs, given the significant area of peat deposits and the presence of impassable places. In addition, significant costs will be required to maintain sufficient, for effective wetting of peat, constantly decreasing water level.

The invention is aimed at increasing the efficiency of fire prevention in peatlands due to more effective wetting of peat and reducing the cost of carrying out fire prevention.

The technical result of the claimed invention is to create an ecosystem of natural resources that can withstand the possible ignition of the outbreak due to spontaneous, protracted and more intense soaking of peat with water throughout the outbreak as the likelihood of ignition of the outbreak as a result of melting of the branched network of ice masses increases.

The set result is achieved by the fact that in the winter period, channels are laid along the entire source of possible ignition and ice masses are frozen in the prepared channels and natural depressions by supplying water in them in the winter period.

The set result is also achieved by the fact that the ice massifs after freezing are covered with a heat-insulating material, which is used as a layer of soil or peat mass.

The stated result is also achieved by the fact that freezing is carried out by water supplied from the underground horizons of the occurrence sites of peat bogs.

The difference from the prototype is the laying of ditches throughout the hotbed of possible fire in the winter and freezing in prepared canals and natural recesses of the ice massifs by supplying water to them in the winter, which proves the conformity of the claimed invention with the criterion of "novelty".

New distinctive features of the invention provide effective soaking of peat bogs over the entire area on which ignition is possible, and the mode of soaking, that is, the amount of water allocated for soaking, is determined by the temperature inside the peat bog array. The temperature of the peat bog is directly related to the air temperature and the processes inside the peat bog, for example, a possible source of ignition. An increase in the temperature of the peat bog provides more active melting of ice, more abundant wetting of peat and suppression of the source of ignition.

The effectiveness of the proposed method will also be higher due to the fact that the preparation of the channels and freezing of the ice mass according to the invention are carried out in the winter, when it is possible to move over the entire area of the peat bog and create an extensive network of channels, as well as use the natural recesses available throughout the entire area of the peat, for example craters from earlier fires.

To reduce the rate of melting of the glacier due to the heating of the air and the action of sunlight, the ice masses are covered with a heat-insulating material, namely the material obtained in the manufacture of the channel, that is, soil and peat mass.

Increasing the efficiency of the method and reducing costs for fire prevention measures will be greatest if water is used to freeze ice masses, which is usually located under peat layers or at deeper underground horizons, which eliminates the need for water transport or pipelines.

Thus, in accordance with the proposed method, it is possible to use the available natural resources to create an ecosystem capable of withstanding a possible fire. Moreover, this system is created from the materials available on peat bogs without involving additional material resources. In addition, the proposed method fully meets the requirements of geoecology, which also increases its effectiveness, since funds will not be required to eliminate possible environmental pollution.

It is known that ice masses freeze when crossing over water bodies in the case of insufficiently thick natural ice.

It is also known to use ice masses to lower the temperature during storage of food in the summer.

In the inventive method, freezing ice masses throughout the hotbed of possible ignition with increasing temperature provides a prolonged mode of soaking peatlands as the glaciers melt, that is, a different function of the glaciers is realized in comparison with the known examples of the use of ice masses, and it is mainly water - product that is used to prevent fire melting of the glacier, not ice, while for the effective implementation of the method of preventing fire, the corresponding regime of melting of the glacier is implemented as the temperature in the peat bog.

Comparative analysis shows that the obviousness of the claimed technical solution does not follow from the prior art, which proves the conformity of the proposed method to the criterion of "inventive step".

A method of preventing fire in peatlands is implemented as follows.

In the winter period, when it becomes possible to move earthmoving equipment along the peat, the channels are made according to certain schemes, covering foci of possible ignition. After that, water is supplied to the prepared canals and ice masses are frozen in the canals and existing natural depressions by irrigation. When freezing ice massifs, it will be more effective to prevent possible fire if the upper edge of the massifs is at or slightly higher than the surface of peatlands, which will allow peat bogs to be saturated from upper to lower layers.

Water can be supplied to freeze ice massifs from underground horizons located directly under peat bogs at shallow depths. Water may rise through drilled wells or wells.

To protect the ice massifs from melting under the influence of direct sunlight, it is advisable to cover them with a heat-insulating material, which is used as soil or peat mass extracted in the manufacture of channels.

Thus, an important task is being solved to reduce the likelihood of ignition of peat bogs or waste deposits of pulp and paper and other industries, prone to fire using available resources and observing the requirements of geoecology.

Claims (3)

1. A method of preventing a fire in peatlands, including laying channels around a source of possible ignition, supplying and filling the channels with water, characterized in that in winter, channels are laid along the entire source of possible ignition and ice masses are frozen in prepared channels and natural depressions by supplying water to them in the winter. 2. A method of preventing a fire in peatlands according to claim 1, characterized in that the ice massifs after freezing are coated with a heat-insulating material, which is used as a layer of soil or peat mass. 3. A method of preventing a fire in peatlands according to claim 1, characterized in that the freezing is carried out by water supplied from the underground horizons of the peatlands.