RU2311213C1 - Method to prevent fire in peat-bogs and lignin sediments - Google Patents

Abstract

FIELD: fire-fighting, particularly to prevent natural-source and industrial-source fires.

SUBSTANCE: method involves determining critical peat-fog or lignin humidity by deep prospecting thereof along with trench digging-out and filling with non-combustible material, wherein the trenches are made as slots having depths equal to distance for peat layer with critical humidity; creating shielding wall of non-combustible material to be supplied in trenches, wherein the non-combustible material is flowable weakly-hardening gel-forming solution. Peat-fog or lignin humidity is determined on pitch selected from distance to fire-site. Slot-like trenches are formed with the use of cable-laying means. The gel-forming solution comprises clay-based and cement-based mineral components mixed with structure-forming agent.

EFFECT: possibility of preventive possible fire site localization and increased speed of existent fire site suppression by rapid delimitation thereof with shielding walls made of non-combustible material, which may be converted from fluid into still state.

5 cl

Description

The invention relates to methods for preventing fires in deposits of combustible material of natural origin, for example peat bogs, and deposits of technogenic origin, for example lignin, and other similar wastes from the wood processing and pulp and paper industries.

The need to develop effective ways to prevent fires in deposits of combustible material of natural or technogenic origin is annually aggravated by the increase in the number and scale of forest fires near peatlands and directly on peatlands, as well as on abandoned huge unprotected landfill sites with long-term ignitable deposits in the form of waste now bankrupt giants of the wood processing and pulp and paper industry. The relevance of this task is determined by significant damage to human health, the undermining of natural resources, economic losses associated with extinguishing such fires, as well as deaths. In this case, it is particularly important to create methods that meet modern requirements of geoecology.

A known method of preventing fire in peatlands (RF Patent No. 2254154, IPC 7 A62C 3/02, published on 06/20/2005, Bull. No. 17), including laying ditches along the entire source of possible ignition and freezing in prepared ditches and natural recesses of ice massifs by feeding water on them in the winter. In this case, the underground aquifers, usually occurring under peat bogs and exposed by boreholes, serve as a source of water. Under the ice cover, increased humidity is kept, which prevents the spread of fire. In the event of peat ignition under the ice massif, an increase in temperature enhances the melting of the ice and intensifies the flow of water into the ignition zone by self-extinguishing.

The disadvantage of this method is the seasonality of its use, i.e. it can be carried out only in winter.

There is a method of limiting the spread of fire in deposits of combustible material, carried out by constructing contouring ditches or trenches filled with water (Povzik Ya.S. Firefighting tactics, M., CJSC SPETSTECHNIKA, 1999, p.313). The disadvantage of this method is the low efficiency due to the fact that water from the ditch constantly seeps into deeper horizons, does not provide wetting and maintaining high humidity in the upper layers of the deposits. At the same time, it is practically impossible to manufacture ditches on the entire area, given the significant area of these deposits. In addition, significant costs will be required to maintain the fire retardant moisture of the deposits due to the inevitably decreasing water level.

There is a method of preventing the spread of fires in peatlands (RF Patent No. 2191052, IPC 7 А62С 3/02, published 10.20.2002), which consists in cutting a trench with filling it with exhaust gases and a coating of fire-resistant hardening foam with urea-phenolic composition.

This method eliminates the disadvantage of the previous method, however, it violates the ecology of the environment due to the use of toxic urea-phenolic resins. Peatlands and industrial deposits of lignin are potential objects of further industrial processing and the presence of toxic components in them significantly reduces the value of this raw material. In addition, the effectiveness of the method is reduced due to the impossibility of maintaining the integrity of the cavity with exhaust gases due to unstable and collapsing its walls of porous incoherent material.

The prototype adopted a method of preventing the spread of fires in peatlands (RF patent No. 2214847, IPC 7 А62С 3/02, published October 27, 2003), which consists in laying a trench to a depth of peat with filling it with moistened sphagnum. When the fire approaches, the sphagnum heats up, intense vaporization occurs. Steam displaces air from the trench cavity, creating an oxygen-free environment and thereby preventing the spread of fire. In this method, the disadvantage of the previous one is eliminated, since an environmentally friendly material is used - sphagnum.

Laying trenches with filling them with non-combustible moistened material are the features of the prototype, coinciding with the essential features of the claimed invention.

The disadvantage of this method is the limited application: it can be used only in places where there is a moss-sphagnum. In addition, in the environment of burning peat or lignin deposits, moistened sphagnum moss in a short time equalizes its moisture content with the surrounding walls due to the natural sedimentation of the water contained in it, its percolation at lower intervals and inevitably subsequent drying of the upper intervals. As a result of these natural processes, moss-sphagnum will turn into the same combustible material, which reduces the effectiveness of the prototype method. The condition for laying a trench to a depth of peat, which may exceed several meters, is also problematic. In addition, the presence of open trenches on the cultivated area of the massif worsens the safety and labor inaccessibility of moving equipment and people.

The invention is aimed at improving the efficiency of a method of preventing the spread of fire in flammable deposits of natural origin, for example in peat bogs, and deposits of technogenic origin, for example lignin, without disturbing the environment.

The technical result of the claimed invention is to provide prophylactic localization of possible foci of ignition and increase the efficiency of suppressing existing foci by quickly contouring them with curtain walls from non-combustible material that has the ability to transform from a fluid state into a stationary one.

The technical result is achieved by the fact that in the method for preventing the combustion of peat bogs and lignin deposits, including laying trenches in a peat or lignin bed and filling them with non-combustible material, according to the invention, before laying trenches along their line, the critical humidity level of the peat or lignin is determined by means of depth sensing, at the same time, trenches are laid and filled with non-combustible material, while trenches are laid in the form of a gap deep to the level of critical humidity with Hovhan inflammable wall-fed curtain of non-combustible material therein, which is used as a flowable gel slabotverdeyuschy solution.

The technical result is also achieved by the fact that the determination of the critical humidity level of peat or lignin, i.e. humidity of the material, at which ignition is impossible, is carried out with a step due to the distance from the ignition center: with a decrease in the step close to the ignition center, for example, 2-5 m and with an increase in the distance away from it, for example, up to 10-20 m. In addition , slit-like trenches are laid, for example, using an excavator cable layer with a bar chain, and as a gel-like weakly hardening solution, a solution composed of clay and cement based mineral components with the addition of a structuring agent, for example, a solution, is used holding clay in the form of bentonite clay powder, cement, water glass in the following ratio of components, wt.%:

bentonite clay powder 5-10 cement 5-10 liquid glass 1,5-3 water rest.

The technical result is achieved using environmentally friendly mineral materials based on clay and cement.

The difference between the claimed invention and the prototype is to determine the critical humidity level of the processed massif by means of deep sounding, for example, using boreholes, manufacturing a system of trenches, for example, using an earth moving rotary cable-laying machine with a bar chain, filling them with a fluid gel-like weakly hardening non-combustible material of mineral composition, for example cement, to a depth of critical humidity, which proves the conformity of the claimed invention to the criterion of "novelty."

Conducting a deep sounding of a layer of peat or a lignin deposit, for example, using boreholes, will allow you to measure the moisture content of the material, which depends on the depth of groundwater, the shape of the relief and usually increases with depth, set the level of critical humidity below which the material becomes non-combustible. According to reference data, wood becomes non-combustible at a moisture content of more than 65%. According to Kornilov A.V. (“Development of the technology for extinguishing foci of spontaneous combustion at the lignin production waste landfill of the Ziminsky district municipality.” Research Report, East-Sib. Institute of the Ministry of Internal Affairs of the Russian Federation, Irkutsk, 2004, pp.16-33) lignin humidity at depth 0.5 m was 50%, with a depth of 1 m - 78%, that is, for this object, the depth of the critical humidity level is about 1 m, below which it is impractical to create a barrier to the spread of fire and, accordingly, to carry out labor-intensive excavation works.

The use of the critical humidity level of the treated massif of flammable peat bog or lignin deposits, below which the fire does not spread, will allow to choose the smallest trench depth, thereby optimizing labor costs and reducing the time for outlining existing foci, which increases the speed of their suppression, reduces the cost of constructing trenches and materials to fill them out.

The use of a solution having flowing properties as a non-combustible weakly hardening material will allow for the most complete filling of the cavity of the trench with continuity, which, in turn, will provide a more durable impermeable curtain wall, which prevents the penetration of fire.

The use of a non-combustible, weakly hardening material in the form of a gel-like solution eliminates the spreading of non-combustible material along the porous walls of a trench in a peat or lignin and allows creating a strong curtain wall.

The use of a non-combustible flowing gel-like material from a weakly hardening solution will eliminate the collapse of the walls of the trench and not violate the solidity of the processed array within its strength characteristics, which in turn does not impair safety and inaccessibility for moving equipment and people along the processed array.

The introduction of clay in the form of bentonite clay powder in a weakly hardening composition will allow to keep solid particles in suspension and water in a bound state. In addition, bentonite clay powder can reduce the cost of expensive cement and the strength of cement stone.

The introduction of cement in a weakly hardening composition allows to obtain a hardening material with a strength sufficient to maintain the shape of the wall and to keep the trench from collapsing and at the same time not complicating the possible industrial processing of lignin.

The introduction of liquid glass into a weakly hardening composition accelerates the setting process of cement mortar, stabilizes the properties of clay bentonite mortar.

The prior art method of laying trenches using a bar trencher or cable layer, for example, when laying an underground telecommunication cable.

In the inventive method, in contrast to the known method, trenching is carried out simultaneously with filling with a fluid gel-like weakly hardening composition, which allows you to create a vertical, non-flammable, monolithic curtain wall until the trench walls collapse.

In a known solution, trenching is carried out almost simultaneously with laying the cable and filling up a rather wide cavity of the trench with the extracted material.

In the inventive method, due to the simultaneous laying of trenches and filling them with a flowing gel-like weakly hardening solution, the strength characteristics of the processed array are maintained without the use of extracted material, and the creation of hardening curtain walls eliminates the collapse of trenches, as a result of which safe conditions for moving people are not violated and technology on the surface of the processed array and in general the integrity of the ecosystem is maintained. At the same time, carrying out preventive work to prevent the fire of peat or lignin by the claimed method will not interfere with the operational actions of fire extinguishing to lay trenches and create curtain walls in them, if necessary, additional contouring of the burning centers.

It is known from the prior art to use flowing gel-like weakly hardening solutions and mixtures of organic and inorganic composition, including clay cement, when drilling wells as grouting material, when it is necessary to prevent leakage of drilling drilling fluid from the well into fractured rocks or to prevent the flow of water along the wellbore, if the well is opened by mining (L.M. Ivachev. Flushing and plugging of exploration wells: a Reference manual. - M .: Nedra, - 1989. - P.213, 219-220). At the same time, a liquid gel-like solution containing clay and cement powders of industrial production with small additives of a structure-forming agent, for example, in the form of liquid glass and other components, is pumped into the well by pumps. The ratio of component components allows you to get in 1-2 hours in the wellbore sedentary weakly hardening material, easily destroyed by mechanical stress.

In the inventive method, a flowing gel-like weakly hardening solution, along with the well-known functions of preventing liquid leakage, exhibits a new quality - serves as a vertical barrier to the spread of fire in the form of a fire-resistant curtain wall, constructed in combustible deposits of natural and man-made origin. This provides a new technical result - the provision of prophylactic localization of possible sources of ignition and increasing the efficiency of suppressing existing foci by the possibility of quickly contouring the curtain walls from non-combustible material, which has the ability to transform from a fluid state into a stationary one.

It is known to use bentonite clay powders, for example, in foundry as a binder in the compositions of molding and core mixtures and non-stick coatings (GOST 28177-89. Molding clays bentonite. OTU).

It is known to use clay and clay-cement compositions in drilling as the basis of drilling drilling fluid and as grouting material for filling and closing natural cracks and other similar channels for drilling mud leakage, for fixing casing pipes, for fixing unstable intervals, for eliminating drilled wells and for solutions to other similar problems related to the elimination of drilling process complications (1. Handbook of a drilling engineer. In 2 volumes. / Ed. by V.I. Mishchenko, N.A. Sidorova. M .: Not Dra, 1973, T 2, C.62-85. 2. Handbook of a process engineer for deep well drilling / Edited by A.G. Kalinin. - M .: Nedra-Business Center, 2005. - S.355-373 )

In the inventive method, the use of bentonite clay powder as part of a gel-like weakly hardening solution in combination with other ingredients in the inventive ratio allows, in contrast to the known object, to create curtain walls from material of low strength and environmentally friendly composition, which is not an obstacle for further industrial processing deposits.

Comparative analysis shows that the state of the art does not follow the obviousness of the claimed technical solution, and therefore, this indicates the compliance of the proposed method with the criterion of "inventive step".

The method is as follows.

In the prophylactic localization of possible fire sources along the routes of the planned trenching, the critical humidity level in the peat or lignin deposits is determined by means of deep sounding, for example, by boreholes, with a step taking into account the terrain features (topography, surface inclination, groundwater level, etc.) . When contouring the current source of ignition, the distance from the source is taken into account: when approaching the source, the step is reduced, for example, to 2-5 m, when moving away from the source, the step is increased, for example, to 10-20 m.

Laying trenches and filling them with non-combustible material is carried out simultaneously, while trenches are constructed in the form of a narrow slit, for example, 0.15-0.2 m wide, depth to the level of critical humidity with the formation of a vertical fireproof curtain wall from the liquid hardening liquid supplied into the cavity material, which is used as a flowing gel-like weakly hardening solution. Slit-like trenches are laid, for example, using a self-propelled earth-moving rotary cable-laying machine or a trencher with a narrow bar chain and a special fire engine with a tank, mixing equipment and feeding arms.

The starting components for the formation of a gel-like and weakly hardening solution can be industrial powder materials: bentonite clay powder (GOST 28177-89) and cement (GOST 2581-85) with the addition of an inorganic structure-forming agent, for example, liquid glass (GOST 13078-81). As a flowing gel-like weakly hardening solution, for example, a solution containing cement, bentonite clay powder, water glass and water is used in the following ratio of components, wt.%:

Cement 5-10 bentonite clay powder 5-10 liquid glass 1,5-3 water rest

When this solution hardens in the trenches, vertical planar barriers form in the form of fire-resistant curtain walls, which prevent the spread of fire.

In laboratory conditions, studies were conducted on the selection of the optimal composition of a clay-cement solution, providing mobility of the starting material for filling the slit-like cavity (within 0.5 h), low water loss (20-40 cm ³ in 30 min) in the porous material, and rapid solidification with the formation of a rigid structure of low (0.5-1.5 MPa) strength. The content of cement and bentonite clay powder ranged from 3 to 15%, water glass from 0.5 to 8%. A representative number of experiments was carried out using standard laboratory equipment - the LGR-3 clay mud laboratory, which included an ABR-1 hydrometer, a BM-6 device for determining water loss, a Vika device, a SNS-2 plastometer, an SPV-5 viscometer, scales, etc. . (Volkov AS, Drilling rig operator. Training and reference manual .: VIEMS MPR of Russia, 2003. S.445-454). Reliable results were obtained.

Compounds containing 5-10% cement, 5-10% bentonite clay powder and 1.5-3% water glass were the most suitable for the accepted requirements, and mainly, in terms of strength characteristics, hardening time, and fluidity - for the convenience of filling trenches water is the rest.

Compositions containing fewer components, that is, less than 5% bentonite clay powder, less than 5% cement and less than 1.5% water glass, were characterized by increased fluidity and water loss - more than 50 cm ³ in 30 min, longer curing times - more than 1.0 h, and insufficient strength of the hardening material is less than 0.3 MPa.

Compositions containing a higher amount of components, i.e. more than 10% clay powder, more than 10% cement and more than 3% water glass, were characterized by low fluidity and water loss - less than 20 cm ³ in 30 minutes, quick hardening - less than 5 minutes and increased strength - more than 3 MPa.

At the lignin testing ground, experimental work was carried out to construct fire-resistant curtain walls in the lignin deposit. The critical humidity level was established by depth probing at a depth of 0.8-0.9 m.The experimental trench 2 m long and 0.25 m wide was dug to a depth of 1 m and filled with a method of pouring a fluid solution in an amount of 500 l containing 30 kg ( 6 wt.%) Bentonite clay powder GOST 28177-89 Montenegrin bentonite plant (Khakassia), 30 kg (6 wt.%) Cement GOST 2581-85 Angarsk (Irkutsk region) cement plant, 10 kg (2 wt.%) Common glass destination (GOST 133078-81).

After 10-15 minutes, the gel-like solution thickened and acquired a sedentary, non-fluid state, and after 3.5 hours it hardened, forming a fairly stable monolithic wall with a compressive strength of 0.8-2.2 MPa. When mechanizing the process of laying a narrow (15-20 cm) trench by using a bar cable layer and mechanizing the process of mixing mineral components by using a fire mixer with a hydraulic funnel, the construction of fire-resistant curtain walls can be accelerated to about 60 m / h. The obtained results confirmed the reality and prospects of these works to prevent the possible spread of fire on flammable deposits of material like lignin and peat.

Thus, an important task is being solved to reduce the likelihood of a fire spreading in peatlands, lignin deposits and other similar wastes from the wood processing and pulp and paper industries.

Claims (5)

1. A method of preventing the ignition and spread of burning of peat bogs and lignin deposits, including laying trenches in a peat or lignin bed, filling them with non-combustible material, characterized in that before laying trenches, they determine the critical humidity level of the peat or lignin by means of depth sensing, and the laying of trenches and filling them with non-combustible material is carried out simultaneously, while the trenches are laid in the form of a gap with a depth of up to the level of critical humidity with the formation of non-combustible emoy wall-curtain of feed therein non-combustible material, which is used as a flowable gel slabotverdeyuschy solution. 2. The method according to claim 1, characterized in that the slit-like trenches are laid, for example, using an earth moving rotary cable layer with a bar chain. 3. The method according to claim 1, characterized in that the determination of the critical humidity level of a peat bog or lignin is carried out with a step due to the distance from the source of ignition - with a decrease in step near the source of ignition, for example, 2-5 m, and with an increase in step away from him, for example, up to 10-20 m. 4. The method according to claim 1, characterized in that as a gel-like weakly hardening solution, a solution composed of mineral components, for example, based on clay and cement with the addition of an inorganic structure-forming agent, for example, liquid glass, is used. 5. The method according to claim 1 or 4, characterized in that as a flowing gel-like weakly hardening solution, a composition containing bentonite clay powder, cement, water glass in the following ratio of components, wt.%: Cement 5-10 Bentonite Clay Powder 5-10 Liquid glass 1,5-3 Water Rest