UA117029C2 - DEVICES FOR THE FULL-GAS CARRIER FROM CARCINOGENIC SUBSTANCES - Google Patents

Abstract

The invention relates to the thermal power industry, in particular to technology for the purification of flue gases from carcinogenic resins. The device comprises a supercharger, a condenser ejector filter (CEF), a reversible flow divider, a reservoir of harmful fractions, a refrigerant storage and supply tank, refrigerant spray nozzles, a refrigerant supply line. The condenser ejector filter consists of a confuser, a mixing chamber and a diffuser. The output of the supercharger is coupled with the KEF confuser. The CEF diffuser is coupled to a reversible flow divider, at the bottom of which is installed a collection of harmful fractions. In the mixing chamber of the CEF are nozzles for spraying the refrigerant, connected by a pipeline supply refrigerant with a capacity for storage and supply of refrigerant. The proposed device provides an increase in the degree of purification of flue gases from carcinogens to 85… 95%.

Description

The invention belongs to the thermal power industry, in particular to the technology of cleaning flue gases, namely - from carcinogenic resins (pyrene, phenanthrene, benzapyrene, benzathracene), and can be applied at CHP plants and industries that use boiler installations to obtain water vapor of various characteristics.

In the process of industrial and energy development, the level of environmental pollution is increasing. The atmosphere is polluted by industrial emissions, including sulfur and nitrogen oxides, carcinogens (pyrene, benzathracene, phenanthrene, benzapyrene) and other harmful substances.

There are various devices for cleaning flue gases, based on the application of heat-mass exchange or electrical effects.

Venturi scrubbers consisting of three sections are usually used at thermal power plants: a narrowing section, a small neck, and an expanding section. The inlet gas flow enters the constriction section, and as the cross-sectional area of the flow decreases, the gas velocity increases. At the same time, from the side, through the nozzles, liquid enters the narrowing section. Since the gas is forced to move at very high speeds in a small throat, there is a great turbulence of the gas flow. This turbulence breaks up the liquid stream into a large number of very small droplets. The dust contained in the gas settles on the surface of these droplets.

Leaving the throat, the gas, mixed with small liquid droplets, passes into the expansion section, where the gas velocity decreases, the turbulence decreases, and the droplets collect into larger ones. At the exit from the scrubber, liquid drops with particles adsorbed on them are separated from the gas flow.

Venturi scrubbers can be used both for gas cleaning from small particles and for cleaning from impurities in the form of extraneous gases. However, they are more effective for cleaning flue gases from suspended particles (dust, ash) than from carcinogenic substances (see

Kasatkin A. G. Basic processes and apparatus! chemical technology / ed. 8th, revised. -M: 1971.-784 p).

At large power units of thermal power plants, in order to achieve the deepest cleaning of flue gases, modern electrostatic precipitator installations are used, in which methods are used to suppress the reverse corona (short-term pulse change of the polarity of the voltage feeding the corona electrode from negative to positive) or

To prevent its formation (this is achieved by changing the properties of the electric current supplied to the electrodes). Electrostatic precipitators are usually of tubular or plate design. Plates or tubes with a wire wound on them are installed in the filter housing, which play the role of corroding and sediment surfaces that are blown by flue gases with ash that settles on them under the influence of electromagnetic forces. These methods are aimed mainly at changing the electrophysical properties of combustion products (see Noskov A. S., Savynkina M. A.,

Anyshchenko L.Ya. The impact of TZS on the environment and ways to reduce the damage caused / Catalysis Institute of the Academy of Sciences of the USSR, Institute of Solid State Chemistry and Mineral Sulfur Processing of the Academy of Sciences of the USSR, GIPNTB of the Academy of Sciences of the USSR - Novosibirsk: ed. GPNTB SO Academy of Sciences of the USSR, 1990. - P. 29-33).

The above-mentioned devices, when used, ensure a sufficient degree of purification from suspended particles and some chemical pollutants (sulfur and nitrogen oxides, ash, etc.), but cannot ensure the purification of flue gases from carcinogens (benzapyrene, benzathracene, pyrene, phenanthrene, etc.). They are designed to clean flue gases from suspended particles, which are formed during the combustion of certain brands of fuel, and when it is changed (to low-quality mixtures of coal and fuel oil), their efficiency decreases significantly.

The closest thing to the claimed invention is a device for cleaning and utilizing the heat of flue gases (see the Ukrainian patent for the invention No. 42820), which contains a housing-chamber placed in the gas duct, a device that sprays water installed in the housing-chamber, a heat exchanger and a tray for collecting and removing waste.

The device that sprays water is installed near the upper wall of the housing-chamber and is a collector with nozzles in which there are calibrated holes through which water is injected under pressure from the water pipeline.

The areas of the lower wall of the chamber housing adjacent to the pallet are inclined towards each other at a taper angle of 457 and represent a water-repellant screen (water-repellant sections), and the heat exchanger is located behind the chamber housing, outside the zone of interaction of flue gases with sprayed water.

Smoke gases are pumped into the device by a smoke extractor.

This device is selected as a prototype.

The claimed device and the prototype have the following common nodes: because the pipeline for the supply of the cleaning component (in the prototype - a water pipeline);

blower (in the prototype - a smoke extractor - draws smoke gases into the device and directs them for cleaning); sprayer of the cleaning component (in the prototype - a device for spraying water); collection of harmful fractions (in the prototype, pallets - for collecting and removing waste); a node for mixing and heat exchange of flue gases (in the prototype - a housing-chamber); the sprayer of the cleaning component is located inside the unit for mixing and heat exchange of flue gases.

The device according to the prototype has a number of disadvantages: local supports created by the heat exchanger unit lead to deterioration of the passage of flue gases through the device, therefore, to ensure its normal operation, there is a need to increase the power of the smoke extractor; the flow of flue gases carries particles of water and ash beyond the filter curtain, which leads to sticking of ash particles on the heat exchanger, which worsens the heat exchange; degree of purification from carcinogenic substances - no more than 5 9o; large water flows to ensure reliable operation of the device.

The invention is based on the task of creating a device for cleaning flue gases from carcinogenic substances, in which, by replacing the node for mixing and heat exchange of flue gases (introduction of a condensation ejector filter) and introducing new nodes, it is possible to increase the degree of purification of flue gases from substances of the group of carcinogens up to 85. ..95 95.

The task is solved in a device for cleaning flue gases from carcinogenic substances, which contains an interconnected compressor, a unit for mixing and heat exchange of flue gases, a sprayer for the cleaning component located inside the unit for mixing and heat exchange of flue gases, a collector of harmful fractions, a pipeline for the supply of the cleaning component by the fact that it additionally contains a reversible flow separator and a container for storing and supplying the refrigerant, the node for mixing and heat exchange of flue gases is made in the form of a condensing ejector filter, the sprayer of the cleaning component is made in the form of nozzles for spraying the refrigerant, while the output of the blower is connected to the confusor of the condensing an ejector filter, the diffuser of which is connected to a reversible flow separator, in the lower part of which a collector of harmful fractions is installed, nozzles

The nozzles for spraying the refrigerant are located in the mixing chamber of the condensing ejector filter and are connected by the refrigerant supply pipeline to the container for storing and supplying the refrigerant.

It is known to use a thermocondenser-ejector in an installation for the condensation of hydrocarbons in a flow (see Ukrainian patent for utility model Mo 92555). The installation contains a receiving capacity of hydrocarbon vapors, combined with a working capacity for hydrocarbon vapors. A regulating valve is installed on the pipeline that connects the receiving container for hydrocarbon vapors with the working container for hydrocarbon vapors. The output of the working capacity for hydrocarbon vapors is connected to the hydrocarbon vapor compressor. The output of the hydrocarbon vapor compressor is connected to the confusor of the ejector thermocondenser. A sprayer is located in the mixing chamber of the ejector thermocondenser, which is connected to a thermally insulated container for an inert gas, such as nitrogen. The diffuser of the ejector thermocondenser is connected to the inlet of the container for liquid hydrocarbons, the output of which is connected to the supercharger for supplying liquid hydrocarbons to the consumer. The working capacity for hydrocarbon vapors is installed on the scales, the capacity for liquid hydrocarbons - on other scales. The opening angles of the ejector thermocondenser confusor are equal to 45", and the opening angles of the ejector thermocondenser diffuser are 10...127.

The specified installation for the condensation of hydrocarbons in the flow is designed for the condensation of hydrocarbons from the air with the temperature of the surrounding environment and condensation into the hydrocarbon supply system. The considered installation is intended for use in liquid fuel overflow systems from container to container.

The technical result is the simplification of the installation, preservation of liquid fuel when pouring from container to container and reduction of evaporation of hydrocarbon vapors of oil products due to the possibility of controlling the heat of condensation of hydrocarbons in the flow.

The claimed device and the installation according to the Ukrainian patent for utility model Mo 92555 have different operating modes (flow speeds, temperatures). Due to the fact that the temperature pressure in the claimed device is much higher than in the installation according to the patent

of Ukraine on the useful model Mo 92555, this makes it possible to use lower speeds of the flow of the mixture (smoke gases-carcinogenic substances).

The installation according to the patent of Ukraine for the utility model Me 92555 is aimed at achieving another technical result, and does not solve the task - cleaning flue gases from carcinogens.

The claimed device is explained by the drawings, where: fig. 1 - scheme of the device for cleaning flue gases from carcinogenic substances; fig. 2 - graph of dependence of combustion temperature zones on boiler operation time.

The claimed device includes a supercharger 1, a condensation ejector filter (KEF) 9, a reversible flow separator 5, a collector of harmful fractions 6, a container for storing and supplying refrigerant 7, nozzles for spraying refrigerant 8, a pipeline for supplying refrigerant 10.

Condensation ejector filter 9 consists of confusor 2, mixing chamber 3 and diffuser 4.

The listed nodes of the claimed device are interconnected as follows.

The inlet of the supercharger 1 is connected through a horizontal section of the pipe (flow stabilizer) to the electric filter (not shown in the drawing), and the output is to the confusor 2 KEF 9. The diffuser 4 KEF 9 is connected through another horizontal section of the pipe (flow stabilizer) to the reversible flow separator 5, in the lower part of which a collector of harmful fractions 6 is installed. In the mixing chamber Z KEF 9 there are nozzles for spraying the refrigerant 8, connected by the refrigerant supply pipeline 10 to the container for storing and supplying the refrigerant 7.

The claimed device works in the following order.

Flue gases from the electrostatic precipitator through the horizontal section of the pipe (flow stabilizer) are fed to the supercharger 1, where they are accelerated to a speed of 10...15 m/s, and from there - to the confusor 2 of the condensation ejector filter 9, where they are accelerated to a speed of 20...50 m/s. Then the flue gases are fed into the mixing chamber Z KEF 9, into which a liquid refrigerant (for example, nitrogen, carbon dioxide) is injected from the container for storage and supply of the refrigerant 7 through the refrigerant supply pipeline 10 through the nozzles for spraying the refrigerant 8 at a speed of 20...50 m /with.

In the L,ZhKEF 9 mixing chamber, the flue gas comes into contact with finely dispersed refrigerant, due to which instantaneous heat exchange occurs, and the condensation of harmful fractions begins.

Next, the flow enters the diffuser 4 of the KEF 9, where it slows down and condenses the remnants of carcinogens, and the vapor-liquid mixture through another horizontal section of the pipe (flow stabilizer) enters the reversible flow separator 5, where it is separated into liquid and gaseous fractions.

The liquid fraction goes to the collector of harmful fractions b, and the residual gases are removed from u

From the environment.

In the claimed device, the temperature difference between the flue gases and the refrigerant reaches 600...650 "С. This leads to the instantaneous evaporation of the refrigerant, with an increase in the rate of heat exchange.

The minimum number of nozzles for spraying the refrigerant is three.

The device works during the ignition period of the boiler (see Fig. 2). In fig. 2 shows the graph of the dependence of the combustion temperature zones on the boiler operation time (the number of nozzles for spraying the refrigerant is 8 - three), where:

H - boiler ignition zone, "C; 12 - combustion stabilization zone, "C;

IZ - combustion zone with a constant temperature, "C; t1 - boiler ignition time, s; t2 - burning time with a constant temperature, s.

In zone 1 (the ignition zone of the boiler, the temperature of the flue gases increases from the initial temperature to the temperature of the start of stable fuel combustion), one injector works for injection.

When the temperature of the start of stable combustion of fuel is reached (zone 12 - stabilization of combustion), the second nozzle is turned on, and they work together to ensure that the amount of refrigerant is sufficient to condense carcinogens.

In the IZ zone (combustion zone with a constant temperature, when the maximum fuel combustion temperature is reached), the last injector is switched on for supply. When the temperature stabilizes and reaches the value at which carcinogens are burned in the furnace, the nozzles are turned off.

Due to the number of nozzles for spraying the refrigerant, they control the condensation of carcinogenic substances from flue gases during the start-up of the boiler, depending on the temperature of the flue gases. Each of the nozzles turns on depending on the gas temperature - the higher it is, the more the nozzle works.

Obtaining the specified technical result is possible thanks to the special design of the condensation ejector filter. The use of a liquid refrigerant (nitrogen, carbon dioxide) provides the possibility of condensation of carcinogenic substances from flue gases. After using this device, the level of chemical and thermal emissions of carcinogenic substances into the atmosphere decreases. because This device can be installed in existing flue gas cleaning systems.

Claims (1)

FORMULA OF THE INVENTION A device for cleaning flue gases from carcinogenic substances, which contains an interconnected compressor, a unit for mixing and heat exchange of flue gases, a sprayer for the cleaning component located inside the unit for mixing and heat exchange of flue gases, a collector of harmful fractions, a pipeline for supplying the cleaning component, which differs in that it additionally contains a reversible flow separator and a container for storing and supplying the refrigerant, the node for mixing and heat exchange of flue gases is made in the form of a condensing ejector filter, the sprayer of the cleaning component is made in the form of nozzles for spraying the refrigerant, while the output of the blower is connected to the confusor condensing ejector filter, the diffuser of which is connected to a reversible flow separator, in the lower part of which a collector of harmful fractions is installed, the nozzles for spraying the refrigerant are located in the mixing chamber of the condensing ejector filter and are connected by pipes refrigerant supply piping with a container for storing and supplying refrigerant. and men i vimy taZ V i: sn SA She i i r zn PDK he ZODIDENN N 5. N i I i KO shiy in feno lntnnyi Z I Z N : i: ku sche i i SO pkzsheyu re Koko i dionschitakh sho g. 1