RU2514826C1 - Microwave-gradient activation of coal fuel with help of protective film - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to microwave-gradient activation of coal fuel with the help of protective coat. This is performed by bringing microwave effects to coal fuel to activate coal particle. Note here that coal lump surface is coated with protective film to arrest the escape of volatiles during the microwave activation. Note here that pressure inside coal lump is over 10 atm and does not factures nor crack in the film. Protective film availability allows arresting the escape of volatiles and to sustain temperature approximating to 700°C without film fracture and crack formation.

EFFECT: higher completeness of combustion, lower rate of boiler inner surface slagging.

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Description

The invention relates to a technology for the preparation of coal fuel from various grades of coal, including coal from oxidized dumps, for burning in power boilers of a thermal power plant, transportation of coal fuel over long distances, especially at low temperatures, to a technology for coal enrichment, production of hydrocarbon products from coal for various industries, including primarily the metallurgical and chemical industries.

There is a method of burning coal fuel with additional arson of a jet of coal dust in boilers by passing this jet through plasma arcs formed by a plasma torch with electrodes. As a result, coal dust particles heat up and burn out faster during further movement inside a large energy boiler (Zhukov M.F. et al. Plasma oil-free kindling of boilers and stabilization of the combustion of a pulverized coal torch. - Novosibirsk: Nauka, 1995. - 304 p .; Imankulov E. R. and others. Plasma ignition and stabilization of the torch combustion of Donetsk AS // Thermal engineering. - 1990. - No. 1. - S.51-53).

The disadvantages of this method are: high power consumption by the plasma torch, sometimes up to 10% of the electricity generated by the boiler of a thermal power plant, pollution of a jet of coal dust by particles of the material of the electrodes of the plasma torch, fast wear of the electrodes of the plasma torch, the method cannot be applied to low power (less than 0.1 MW) boilers, since plasma torches are complex and expensive technical devices and they can be paid off only when working in large power plants and in coal-fired boilers with a capacity of more than 30 MW.

A known method of burning coal fuel in the form of coal dust in a high-frequency microwave plasma (Burov V.F., Strizhko Yu.V. Microwave plasmatron with a freely floating plasmoid // Combustion and plasmochemistry, - v.4, No. 2, 2007, C .103-109; Burov V.F., Strizhko Yu.V. Microwave plasmatron with a free-floating plasmoid // Collection of reports of the VI All-Russian conference "Solid fuel burning" November 8-10, 2006, Novosibirsk: IT SB RAS, 2006 ; Burov V.F., Strizhko Yu.V. Microwave plasmatron: for ignition of coal dust we use a free-floating plasmoid. Equipment. Developments. Technologies, No. 2 (02), 2007, p. 45-48; Patent RF №2328095, application filing date: 06/23/2006). In this method, the microwave plasma generated by the electrodeless plasmatron is also ignited at the base of the jet of coal powder entering the boiler furnace, however, a plasma type discharge is created due to ionization of the gas carrying the coal powder.

The disadvantages of this method: low, less than 10-15%, efficiency, because almost all the energy of the microwave discharge is spent on heating the plasma-forming gas and maintaining the gas discharge, and coal fuel particles absorb only a small fraction of the energy expended (less than 10-15%); The microwave plasma at the base of the jet is very unstable and requires special complex structures with gas flows to implement the method.

The closest in technical essence to the claimed method of microwave gradient activation of coal fuel using a protective film is the "Method of microwave gradient activation of coal fuel" (RF patent No. 2458107, application filing date: 10.11.2010). In this method of activating coal fuel, including microwave exposure to coal fuel, microwave gradient activation is performed in a high-gradient microwave field in the mode of controlling the rate of increase of the microwave field until deep cracks occur in a piece of coal, which do not lead to its complete destruction.

The disadvantage of this method is that during microwave gradient internal activation, microwave heating of the inner volume of the coal lump occurs, formation and heating of water vapor, which leads to a sharp formation of gaps in the coal lump from the center to its surface. Volatile hydrocarbons, both light and heavy, light hydrocarbons begin to be ignited above the coal surface through the cracks, while heavy hydrocarbons predominantly form an aerosol of hydrocarbons in the atmosphere above the coal surface, which does not allow reducing the fuel ignition temperature to 500-600 ° C and increase the completeness of fuel combustion up to 98% in the content of hydrocarbons in primary coal.

The objective of the invention is to reduce the ignition temperature of volatile up to 500 ° C, increase the yield of volatile hydrocarbons, decompose heavy hydrocarbons inside a coal lump, including heterogeneous decomposition on the mineral component of coal, which will provide highly efficient combustion of coal fuels of all industrial types of fuel, and increase the completeness of combustion of fuel to 98 % by hydrocarbon content in primary coal.

The technical result is achieved by the implementation of the method of microwave gradient activation of coal fuel using a protective film, the surface of a separate piece of coal is coated with a film before activation, which delays the initial volatile yield during microwave activation, while the pressure inside the coal matrix increases and exceeds 10 atmospheres without the formation of cracks and tears in the applied film.

There are dozens of ways to create a protective film from various materials. The type of film and the method of its production depends on the specific conditions for the activation of coal and the characteristics of the coal (for example, the size of the pieces of coal, the time of microwave activation, the type of coal). The protective film made in various ways must satisfy the following requirements: to delay the release of volatiles during the activation process, withstand pressure inside a piece of coal up to 10 atmospheres, withstand temperatures up to 700 ° C without cracking or tearing during the activation process.

The presence of a protective film on a piece of coal allows you to increase the temperature of a piece of coal without cracking it to 600-700 ° C, therefore, when implementing the proposed method, the decomposition rate of volatiles inside a piece of coal coated with a film increases by 10-100 times under the influence of a microwave gradient field depending on the type of coal and, as a result, during the activation process, up to 5-20 times, depending on the activation parameters (power, time, duty cycle of microwave pulses), the yield of light hydrocarbons not capable of forming visible aerosols increases her, the chemical composition of the products of emissions from a coal lump consists of much lighter, and therefore more volatile and combustible hydrocarbons, which in turn leads to a decrease in the ignition temperature to 500 ° C, an increase in the completeness of combustion of fuel to 98% and a decrease in the rate of slagging internal surfaces of boiler equipment by reducing the proportion of aerosols in the exhaust flue gases. With further combustion of the activated carbon of the claimed method in the boiler furnaces, combustion occurs in the gas flame mode, without a large emission of soot and unburned pieces of coal particles, while the oxide (consisting of oxides, for example, Al ₂ O ₃ , SiO ₂ , etc.) mineral part coal fuel does not pass into the aerosol fraction, but into a compact sediment at the bottom of the furnace, which reduces the rate of slagging of boiler structures and economizers by 3-8 times depending on the design of the boiler.

The presence of a protective film prevents the premature release of volatiles, which allows 3-8 times to reduce the energy consumption of microwave generators, since now splitting a piece of coal into many parts or the appearance of cracks in it is not a disadvantage of the method, because the internal activation of a piece of coal takes time from 1 to 5 s and manages to end before the rupture of the film or splitting of a piece of coal into separate parts. In addition, the presence of a protective film on the surface of the coal particle allows for additional energy savings spent by microwave generators to heat the coal particle by reducing heat loss from the coal particle.

Another important consequence of the application of the proposed method is that at the end of the internal activation process an explosive expansion of the activated lump of coal occurs. This phenomenon is very important for combustion in boilers of various types, and especially in boilers with a boiling lower and boiling bulk layer, because fragments of a lump of coal immediately fall into the oxygen medium of the fluidized beds and continue intensive burning out already as microwave activated coal fragments.

Microwave heating is carried out directly in the combustion chamber of a coal boiler until the film is destroyed by internal pressure. Moreover, the destruction of the film does not occur on the entire surface at the same time, but only in some places, often even in one. A powerful stream of light hydrocarbons instantly escapes from the destroyed area, and in the place of mixing with an external oxidizing agent (air), a high-temperature plume flashes (more than 1600 ° C), which in turn leads to efficient combustion of micron-sized coal particles that have broken off from a piece of coal. In this mode, the size of the breakaway coal particles is not large (up to 100-300 microns), so they effectively burn out in almost all boiler designs, including the fluidized bed. It follows that the claimed method not only increases the energy efficiency and environmental friendliness of coal burning, but its use should lead to a reduction in the size of the boilers.

Example 1

A sample of cylindrical coal 4.5 cm in size was installed so that the maximum microwave field was in its center or close to the center. Without a protective film, when exposed to a powerful microwave pulse, the sample instantly scattered into several pieces falling out of the microwave focal volume. If under the same conditions a similar specimen coated with a protective film was tested, the specimen was not destroyed and its internal activation occurred when the microwave generator power was increased from 600 W to 3500 W, and the water vapor pressure inside the specimen at the time of activation was 13 atm.

In this example, a protective film was created by immersing a primary lump of coal in a dilute concrete solution with the addition of certain salts (e.g. sodium chloride) to improve the adhesive properties of the film. The protective film dried out under the influence of heat from microwave activation. A wet film is useful in that it fills the cracks of a piece of coal characteristic of high-ash low-grade coals.

Example 2

Experiments were carried out in model modes of coal combustion in a fluidized bed and coal combustion on the grate on small boilers with a capacity of 0.8 and 0.3 MW produced by the Cherepanovsky plant (Novosibirsk region). The experiments were carried out during microwave activation of pieces of coal coated with a protective film.

In this example, a protective film was created based on the use of finished material, aerated concrete blocks, mechanically. Coal was placed inside a solid mold of aerated concrete and pressed tightly against the surface of the aerated concrete walls of the mold by a press. This mechanical method of manufacturing a protective film allows you to change the thickness and shape of the protective film over a wide range - from thousandths to hundredths of a meter, depending on the technological task and the speed of microwave activation for power boilers.

The analysis of coal fuel combustion was carried out using infrared imaging with an infrared telephoto lens and a high-speed movie camera in the optical range up to 4000 frames / s. High-speed vacuum samplers were used to select the aerosol fraction from the flame. The experiments showed that activated carbon particles emitted from a piece of coal coated with a protective film have a temperature of at least 1600 ° C and burn in the mode of an external diffusion torch. At the same time, coal particles from an inactive piece of coal, raised into the volume of combustion by air flows of a fluidized bed (air nozzle), burn in the mode of heterogeneous surface reactions with temperatures below 950 ° C, which leads to their incomplete burning, their entrainment from the boiler space and dogburn.

Example 3

Experimental studies of microwave activation of coal pieces coated with a protective film for various coal samples were carried out (Kemerovo coals, Novosibirsk, Krasnoyarsk). In this example, a polymer-adhesive method of manufacturing a protective film was used. Namely, pieces of coal were immersed for several seconds in a mixture of stationery glue and ceramic particles with sizes of 1-10 microns. After this, a piece of coal was immediately subjected to microwave activation. The drying of the protective film, as in example 1, occurred under the action of heat from microwave activation.

It turned out that for microwave activation of coal pieces not coated with a protective film, the grade of coal pretty much affects the choice of activation modes and the selection of optimal modes, and for the activation of coal pieces coated with a protective film, the grade of coal has almost no effect on the choice of activation modes and selection of optimal modes. Which, of course, is another positive feature of the invention.

Claims (1)

The method of microwave gradient activation of coal fuel using a protective film by microwave exposure to coal fuel, which produce microwave gradient activation of a coal particle, characterized in that the surface of the pieces of coal is coated with a protective film that delays the release of volatiles during the microwave activation process while the pressure inside a piece of coal exceeds 10 atmospheres without the formation of cracks and tears in the film.