WO2007008098A1

WO2007008098A1 - Independent system for producing and delivering fire-fighting agents to a hot spot

Info

Publication number: WO2007008098A1
Application number: PCT/RU2005/000379
Authority: WO
Inventors: Gennadiy Petrovich Kuznetsov
Original assignee: Gennadiy Petrovich Kuznetsov
Priority date: 2005-07-11
Filing date: 2005-07-11
Publication date: 2007-01-18
Also published as: EA200702507A1; EA011050B1

Abstract

The invention relates to locating hot spots in forest areas, in particular in land regions, which are not accessible for transporting fire-fighting equipment and personnel thereto in a bad weather conditions. The operation of the inventive independent system for producing and delivering fire-fighting agents to a hot spot in a forest consists in releasing a carbon dioxide by thermally decomposing calcite in a reactor, in liquefying the half of the thus obtained carbon dioxide for using it in the form of a fire-fighting agent, in reducing the second half of carbon dioxide by a graphitised wood carbon in such a way that a carbon oxide is produced and mixed with a high-temperature water steam for obtaining a water gas , which is used for passing over a calcium oxide remaining in the reactor after the calcite decomposition, thereby converting the calcium oxide into the calcite. The released hydrogen is used for synthesising ethylene by heating a stoichiometrical mixture of hydrogen and carbon contained in wood, which is calcinated in absence of air to a graphitisaition state. Ethyl alcohol produced by the ethylene hydration is used in the form of a fuel for electric power stations producing electric power at a fire-fighting station.

Description

AUTONOMOUS SYSTEM OF PRODUCTION AND DELIVERY TO THE HEAT OF FIRE IN THE FOREST OF FIRE-FIGHTING SUBSTANCES.

The technical field to which the invention relates. The invention relates to the field of development of methods for protecting forests from destruction by fire in cases of fire, in particular in those places where it is not always possible to deliver fire fighting equipment and people for quickly localizing a fire source.

The level of technology. Forestry specialists and firefighters use all known measures aimed at reducing damage from fires, from the creation of a system for the timely detection of fire anywhere in the forest using artificial Earth satellites to the use of aviation in the localization of fires. The developers of methods to prevent the spread of fires in the forest to large tracts are trying to find an effective way to isolate the burning section of the forest from atmospheric oxygen by creating a protective cloud of inert gases over the fire source. For example, in the description of the invention to the copyright certificate SU Ж347940 A 1 4 A 62 C 1/14, 5/00 of 03/06/86, published on 10/30/87 in the Bulletin of the USSR State Committee for Inventions and Discoveries N ° 40 , a method for producing inert gases for controlling the spread of fires is disclosed, the essence of which is the combustion of hydrocarbon fuel in a stream of atmospheric air, then partial cooling of the combustion products containing oxygen and carbon monoxide in order to convert them in the presence of catalysts to carbon dioxide, and the cured mixture is additionally cooled before hydrate formation of carbon dioxide begins and saturated with water, after which it is cooled to the temperature of formation of carbon dioxide hydrate to separate the hydrate formed from the nitrogen gas stream. The disadvantage of the described method for producing carbon dioxide and nitrogen to combat fires is the limited reserves of hydrocarbon fuels intended for burning in inert gas production plants located close to the protected forest in difficult to reach areas, as well as the fact that when the received gases are supplied, they mix with air and do not form reliable insulation of burning materials from oxygen. To increase the efficiency of extinguishing fire with inert gases in the invention SU J \ | b494164 MKI A 62 d 1/00, A 62 from 1/10 dated 04.07.73, published on 05.12.75 in Bulletin JVM 5 of the State Committee of the USSR Council of Ministers for For inventions and discoveries, the authors consider it appropriate to apply carbon dioxide to the source of ignition in the form of a stable aerosol. To obtain carbon dioxide in the form of an aerosol in the pipeline along its entire length to the atomizer, it is necessary to maintain a pressure above 4.2 bar (up to 15 bar) by any known devices (for example, using a device such as a spring-loaded safety valve combined with the atomizer). In order to prevent the formation of snow when the stream of carbon dioxide leaves the atomizer, it is sprayed with any known device into small droplets (with a diameter of less than 200 microns). Aerosol carbon dioxide penetrates well into small pores and deep cracks, therefore it can extinguish smoldering combustible materials (wood, fabric). The increased fire extinguishing effect also provides a relatively low heat content (34-36 kcal / kg) of aerosol carbon dioxide. The claimed method of extinguishing a fire by supplying carbon dioxide in the form of a stable aerosol to the source of ignition implies the presence of an isothermal reservoir near the site of a possible fire, in which carbon dioxide is in a liquefied state at a temperature of minus 30 to minus 56 degrees Celsius, but the authors inventions do not provide a solution to the problem of uninterrupted replenishment of liquefied carbon dioxide in cases of spending it to extinguish fires, and this circumstance is most important in creating a reliable system for extinguishing forest fires, especially in hard-to-reach areas. Thus, we have to admit that, by the beginning of the 21st century, a reliable system for the production of fire-fighting substances and their supply to the source of fire in the forest without the use of imported energy resources required for the operation of the necessary equipment has not yet been created.

Disclosure of the invention. An autonomous system for the production and supply of substances to the source of ignition in the forest, intended to create a dense cloud of inert gas in the fire area to prevent access to burning oxygen of air, operates without the use of imported energy resources both in the variant of accumulation of liquefied carbon dioxide reserves and in the variant liquefaction of atmospheric air in order to release nitrogen from it in a liquefied state during energy supply of equipment due to its own production of the required mass of fuel in as such a chemical compound convenient for storage and use as ethyl alcohol. The timely supply of the necessary mass of liquefied nitrogen or carbon dioxide to the fire source is ensured by automating the operation of the entire complex of equipment designed for the production of these fire-fighting substances and accumulating them in thermally insulated tanks connected to spray guns with cryogenic pipelines that are protected from fire. In addition to furnaces for producing charcoal from wood, the set of equipment also includes reactors in which calcite is decomposed in order to separate carbon dioxide, and “hydrated” gas is passed over the remaining calcium oxide to produce hydrogen used for the synthesis of ethylene. During hydration ethylene is converted to ethyl alcohol, which is used not only as a very convenient fuel for power plants of generators designed to generate electricity, but also to extract hydrogen as the need arises. The reactor has a volume isolated from the environment, inside which pipes of heat-resistant material, for example, tantalum, are placed, designed to pass through them products of complete oxidation of hydrogen, having a temperature of about 2500 degrees Celsius, which allows the decomposition of calcite. In the same way, timber placed in the furnace to graphitize wood fibers is heated to 800 degrees Celsius without air access. The mass of charcoal formed during the graphitization of wood fibers is about 50 percent of the mass of calcined timber (in terms of dry wood). Charcoal preserves the structure of wood and is one of the varieties of the so-called "amorphous" carbon. Carbon dioxide gas is introduced into the furnace with “amorphous” carbon from the reactor to carry out the reaction of reduction of the latter to carbon monoxide, which is taken out of the furnace into mixers for the preparation of so-called “water” gas. The resulting “water” gas, in the mass of which carbon monoxide is 60.87 percent, and water vapor accounts for 39.13 percent of the total mass of gas, is introduced into a reactor in which, after the thermal decomposition of calcite is completed, calcium oxide is present. At a temperature of about 500 degrees Celsius, “water” gas interacts with calcium oxide so that in the reactor calcium oxide is converted into calcite and hydrogen is released, the mass of which is 1, 96% of the mass of calcium oxide and “water” gas. The mass of calcium oxide is 54.9%, and the mass of “water” gas is 45.1% of the total mass of substances in the reactor. The mass of calcite in the reactor after the removal of hydrogen is 98.04% the total mass of calcium oxide and "water" gas. The resulting hydrogen is introduced into a separate furnace for the synthesis of ethylene, in which the process of graphitization of timber has already been completed. Passing hydrogen over “amorphous” carbon heated to 1800 degrees Celsius, the mass of which is 85.71% of the total mass of the mixture, creates the conditions for the formation of ethylene in a gaseous state. Moreover, each unit mass of hydrogen contributes to the involvement in the process of ethylene formation of six times the mass of "amorphous" carbon. In the process of producing ethanol by ethylene hydration, ethylene accounts for 60.87%, and water accounts for 39.13% of the total mass of reacting substances. Calculations of the stoichiometric masses of substances that enter into chemical reactions established that for each thousand kilograms of ethyl alcohol to be produced by ethylene hydration, it is necessary to produce 87 kilograms of hydrogen, as well as 787 kilograms of “amorphous” carbon. To produce hydrogen weighing 87 kilograms, 1225 kilograms of carbon monoxide and 785 kilograms of water are consumed. Calcium oxide with a mass of 2450 kilograms participating in the hydrogen production reaction is converted to calcite with a mass of 4370 kilograms, that is, the initial mass of calcite that was in the reactor before the process of its thermal decomposition is restored is restored. The need for carbon dioxide for the production of 1225 kilograms of carbon monoxide is 960 kilograms, and with thermal decomposition of 4370 kilograms of calcite to produce 2450 kilograms of calcium oxide, 1920 kilograms of carbon dioxide are produced along the way, that is, 960 kilograms of carbon dioxide are produced in excess of the need for chemical reactions . Excessively obtained carbon dioxide weighing 960 kilograms is liquefied under a pressure of about 73 bar and stored as a fire-fighting substance ready for use. To extract the required masses of hydrogen from ethyl alcohol by technology that ensures the restoration of the initial mass of alcohol, use the set of equipment specified in the description of the invention according to patent RU Wb2142066 Cl 6 F 03 13/00, C Ol B 3/08 from 06.25.97, , which was published on November 27, 1999 in the Bulletin NsZZ of the Russian Agency for Patents and Trademarks. At the first stage, anodic dissolution of sodium in ethyl alcohol is carried out to carry out the process of dehydrogenation of alcohol in order to extract hydrogen and obtain sodium ethylate in the internal volume of the cell. At the second stage, water is added to sodium ethylate to carry out its hydrolysis in order to restore the initial mass of ethyl alcohol and to obtain sodium hydroxide in the internal volume of the electrolyzer for the preparation of the electrolyte. At the final stage of the conversion of chemical compounds in one set of equipment, electrolysis of an aqueous solution of sodium hydroxide is carried out in order to restore the initial mass of sodium, while additional masses of hydrogen and oxygen are simultaneously generated, not only due to the destruction of hydroxide ions, but also due to the electrolysis of water. As an example of calculating the masses of substances that are necessary at all three stages of the conversion of these chemical compounds, it was found that to obtain one kilogram of hydrogen create conditions for the anodic dissolution of 23 kilograms of sodium in 46 kilograms of ethyl alcohol, and in order to restore 46 kilograms of ethyl alcohol 18 kilograms of water are added to the sodium ethoxide formed in the electrolyzer with a mass of 68 kilograms. Precipitated by hydrolysis of sodium ethylate, sodium hydroxide weighing 40 kilograms is dissolved in 18 kilograms of water and 58 kilograms of electrolyte are electrolyzed, during which 23 kilograms of sodium are recovered, and 3 kilograms of hydrogen and 32 kilograms of oxygen are obtained. In case of education large masses of oxygen as a by-product when extracting hydrogen from an aqueous solution of sodium hydroxide according to the described method, it can be used to convert to ozone, which is used to carry out antiseptic measures such as, for example, disinfection of contaminated water, as well as for other purposes.

The best application of the invention.

After examining the forests and selecting areas where it is impossible to extinguish forest fires using well-known technologies and fire fighting equipment, the coordinates of the bases for placing equipment intended for the production of carbon dioxide in a liquefied state along with the processing of wood waste oriented to ethyl alcohol are established (ethanol), as well as equipment for the release of nitrogen from atmospheric air. Delivery of the necessary equipment to the areas where the selected bases are located is carried out by all known methods up to the transfer of finished modules by heavy helicopters. In parallel with the installation of equipment at the selected base, fire clears in the forest are cut through which cryogen pipelines are laid, protected from fire in the event of fire in the forest. Timber from the clearings is delivered to the base for the subsequent production of “amorphous” carbon, which is spent in the process of producing carbon monoxide and in the synthesis of ethylene. To meet the needs of people and technological equipment in water, they create a reliable water supply system. After completing the installation and testing of all equipment at the base, a shift shift is left for workers to ensure the operation of devices designed to control the automated process for the production of nitrogen and carbon dioxide in a liquefied state, as well as the process of replenishing ethanol. In addition to these specialists based they leave a shift shift for workers whose responsibilities include a systematic check of the condition of devices designed to respond to the occurrence of fires in the forest and to bring liquefied carbon dioxide or nitrogen sprayers to working position. In their free time from the main work, the base staff replenishes the stock of timber by cutting through additional clearings.

Industrial applicability of the invention.

An autonomous system for the production and supply of fire-fighting substances to the source of fire in the forest will be widely used to protect forests, especially those located in areas of the Earth where reliable localization of fires by traditional methods is impossible due to their inaccessibility even in normal weather conditions. Due to the fact that the production of fuel for the generation of electricity necessary for the operation of all the equipment and life support systems of the base employees, as well as for the supply of mobile equipment engines, will be carried out in the process of processing timber waste, the autonomy of the base is completely autonomous, that is, there is no need to import fuel or in receiving electricity from external sources of energy supply. In the process of arranging the bases, reliable ways of delivering people when changing shifts, as well as food and other goods necessary for them, taking into account local weather conditions at different periods of the year, are identified. The arrangement of the network of bases will not only ensure reliable protection of huge forests from their destruction in case of fires in any weather conditions, but also create conditions for large-scale harvesting of ripe wood using equipment whose power units will be fed with ethyl alcohol produced from timber waste near forest plots. For the export of wood can be used airships, fueled by its own hydrogen. Information sources:

1. Copyright certificate SU N ° 494164 MKI A 62 d 1/00, A 62 from 1/10 dated 07/04/73, published in Bulletin No. 45 of the State Committee of the Council of Ministers of the USSR for Inventions and Discoveries (prototype).

2. Copyright certificate SU N <> 1347940 Al 4 A62 C 1/14, 5/00 of 03/06/86, published in Bulletin No. 40 of the USSR State Committee for Inventions and Discoveries.

3. Patent RU JУГfi2142066 Cl 6 F 03 13/00, C Ol B 3/08 dated 06/25/97, published on 11/27/99 in Bulletin No. 33 of the Russian Patent and Trademark Agency.

Claims

CLAIM

1. An autonomous system for the production and supply of fire-fighting substances to the source of fire in the forest, including a network of cryogen pipelines in forest clearing with devices for spraying fire-fighting substances, characterized in that when processing local raw materials to create and replenish fire-fighting substances in the form of inert gases in liquefied gases the state used to localize the fires in the forest without the participation of people under any meteorological conditions, carry out a repeatedly repeated technological process the thermal decomposition of the mass of chemically pure calcite in the reactor, which is available in each set of equipment, and the subsequent liquefaction of half of the carbon dioxide formed and its accumulation in thermally insulated containers as a fire-fighting substance, ready for use to extinguish fires at any time, and the second half of the carbon dioxide formed reduced by carbon of graphitized wood to carbon monoxide, which is mixed with high-temperature water vapor to obtain “water” gas, designed to pass over calcium oxide remaining in the reactor after thermal decomposition of calcite, as a result of which calcium oxide is converted to calcite, the hydrogen liberated in this case is used to synthesize ethylene in a separate furnace during heating of a stoichiometric mixture of hydrogen and carbon in the mass of wood calcined without air access to the state of graphitization, and the synthesized ethylene is subjected to hydration in order to produce ethanol suitable for use as a fuel in units of electrical installations that generate electricity on a fire base, in the engines of mobile equipment, and as a reliable and convenient hydrogen accumulator in a chemically bound state.