SU735865A1 - Cyclone fire box - Google Patents

Description

The invention relates to techniques for burning sulphate liquor and can be used in furnaces intended. for burning black liquor.

There are known cyclone furnaces containing * · three consecutively mounted ⁵ chambers with tangentially mounted nozzles for supplying air to the first two of them, the first being equipped with pat .. cuttings for supplying, for example, liquor and fuel, and a burner, and the third with nozzles for removal of combustion products and removal of liquid melt [11.

A disadvantage of the known cyclone furnaces is the impossibility of obtaining _{') 5} Nia desired melt sulphidity.

The purpose of the invention is an increase in sul. fluid melt by providing contact of liquid melt, with reducing agents formed during the combustion of liquor and _m fuel in the first chamber.

This goal is achieved by the fact that in the cyclone furnace the first chamber is equipped with a bathtub. For collecting liquid melt with pipes for supplying the reducing agent and. nozzles for removing liquid melt. In addition, the first and second chamber of the furnace are lined.

In FIG. 1 schematically shows the proposed furnace, ^ longitudinal section;, in FIG. 2 is the same, cross section (section A — A in FIG. 1) d’ in FIG. 3 is a section BB in FIG. 1; in FIG. 4 is a section BB in FIG. 1; in FIG. 5 is a section GG in FIG. 1. .

The proposed furnace consists of three sequentially installed chambers 1, 2, and 3. In chamber 1, incomplete combustion occurs, in chamber 2, the product® incomplete combustion mixes with air, and in chamber 3, complete combustion occurs.

In the chamber 1, tangentially nozzles 4 and adjustable nozzles 5 are installed, which serve to supply liquor and air in order to carry out reductive incomplete burning of liquor to obtain a reducing medium containing products of incomplete combustion. Reg. 735865

.................. 3 nozzles 5 have internal rotary walls 6 and allow you to adjust the amount of air supplied, change the direction of its divided flows and redistribute the amount of air in the latter.

. The chamber 1 is equipped with a burner 7 and a pipe 8 for supplying air, employees. both for starting the furnace, and for the possibility of burning auxiliary fuel - natural gas or fuel oil.

In the chamber 1 there is a bath 9 for liquid melt, the surface of which is indicated by 10. The bath 9 is equipped with a tap hole 11 for removing liquid melt *

The maximum level of liquid melt in the bath 9 is provided due to its free overflow through chamber 2 and ’chamber .3, which protects nozzles 4. and;' adjustable nozzles 5 Yt of flooding in case of accidental non-observance of control over the level of melt and ensures normal operation of the furnace.

Camera 1 simultaneously serves to. melting ash liquor, and also is a chamber for the reduction of sodium sulfate.

In chamber 2, which serves to mix incomplete combustion products with air, adjustable are tangentially installed: nozzles 12 for supplying air in the amount necessary for complete compression, genia of incomplete combustion products, Adjustable nozzles 12 have internal 'rotary walls 13 and are similar in design 5. adjustable nozzles

The chamber 3 with a tangential entry has a device for removing liquid melt - the test tube 14. A burner 15 and a nozzle 16 for supplying air are used in the chamber 3, which serve for auxiliary operational purposes (starting the firebox, etc.). Chamber 3 has an opening 17, which serves to remove from it products of complete combustion, followed by their heat content. Depending on the specific solutions, the bath 9 is equipped with a device 18 for supplying a reducing agent, for example, natural gas, to the melt. The arrangement of the device 18 with nozzles 19 allows the liquid melt to move in the same direction as the rotating torch of incomplete combustion products, which acts to the surface 10 of the liquid melt in the bath 9, resulting in vigorous mixing of the liquid melt.

A cyclone furnace works as follows. Lye 4 is fed into the chamber 1 through nozzles, through air through an adjustable nozzle 5, through the burner 7 is natural gas, and through the nozzle 8 is air.

In the chamber 1, the process of reductive incomplete combustion of these components takes place with the formation of a reductive medium with incomplete combustion products that contain gaseous reducing agents: hydrogen, methane, carbon monoxide and solid reducing agent - carbon. In this case, products of incomplete combustion — gaseous and solid reducing agents — will be continuously produced in chamber 1. Moreover, their torch will be twisted along the axis of the chamber 1 due to the tangential arrangement of the nozzle inlets 4 and the adjustable nozzles 5. These / incomplete combustion products will continuously enter the chamber 2. Air is continuously supplied through the tangentially located chamber 2 under pressure. adjustable nozzles 12, swirling in ^{25 in} the same direction as the product stream of incomplete combustion.

Due to this direction of the products of incomplete combustion and air entering the chamber 2 and the adjustment made by nozzles 12, the products of incomplete combustion mix well with air. Further, this mixture continuously tangentially enters the chamber 3, in which the products of incomplete combustion burn out, forming products of complete combustion - flue gases, which are removed from the chamber * 3 through the opening 17 for subsequent use of their heat content. In chamber 1, the ash of the liquor forms ⁱ liquid. . a melt which is centrifugal. the swirling torch will be discarded on the surface 10 of the liquid melt in the bath 9 and on the inner surface of the chamber G, from which it will flow into the bath 9. As a result, the film 1 will effectively capture the liquid melt as directly the surface 10 of the liquid melt in the bath 9, and the inner surface of the chamber 1, with which liquid melt will drain into the bath 9 and collect in it. At the same time, during the run-off of liquid melt (and during its dropping), as well as while it is on the surface 10 of the melt in bath 9, sodium sulfate contained in the melt will interact vigorously with gaseous and solid reducing agents in the reducing gas harm camera

1. As a result, sodium sulfate will be intensively reduced to sodium sulfide. Simultaneously, the liquid 'com ₅ will be melted and the like; chemical processes, including the recovery of sodium sulphate.

Due to the intensive contact of the cell of the incompletely combusted product swirled along the chamber axis 1 with a surface of 10 molten melt in the bath 9, vigorous stirring forms, the melt in the latter with the formation of circular rotation of the melt in the bath 9 with 15 contact of the entire mass of melt with the torch of incomplete combustion products, which will also restore sodium sulfate afloat. Furthermore, the presence of the liquid bath 9 vom pla- 20 provides the necessary time DLL * der'zhki it takes to complete all of the chemical processes occurring in the melt of Yid ohm, including sulfate and regeneration process nat- ²⁵ dence.

The apparatus 18 installed in the tub 9, allow to intensify recovery of sodium sulfate in the liquid melt of both the direct result of the organization 'recovery ³⁰ therein sodium sulphate supplied reducing agent, in this case natural gas, and by increasing the intensity of stirring in the melt bath 9. This , in turn, it will increase the rate of reduction of sodium sulfate in the entire mass of liquid melt in the bath 9 as a result of vigorous contact of the melt on its surface 10 with a rotating torch ⁴⁰ products of incomplete combustion in the chamber 1. The liquid melt contained in the bath 9 containing reduced sodium sulfate will be removed from the bath 9 through the tap hole 11 as directed. ⁴⁵

From ^ swirling flame combustion products mixture with air in the chamber 2 under the action of centrifugal force on the inner surface of the torch of this camera will be discarded minor portion ⁵⁰ but remaining quantity of liquid melt contained in the products of incomplete combustion. This is the film capture of this part of the liquid melt, which from the chamber 2 will flow into ⁵⁵ chamber 3.

From the torch swirling along the axis of the chamber 3 (due to the tangential supply of a mixture of products of incomplete combustion with air) of the torch of products of complete combustion under the action of the centrifugal force of the torch, a portion whiter than an insignificant amount of liquid melt will be discarded onto the inner surface of the chamber 3, as a result of which film capture and this part of the liquid melt, which then, together with the melt coming from the chamber 2, will be removed from the chamber 3 through the tap hole

14. ..... ...... _ζ

The proposed furnace provides a sequential three-stage cyclone-type film capture of liquid melt, carried out in its three chambers, and purification of flue gases, and also increases the reliability and service life of soda recovery boiler units, eliminates their explosion hazard, which gives a significant economic effect.

Claims (2)

The invention relates to a technique for burning sulphate bounty and can be used in furnaces for burning black chips. Cyclonic furnaces are known that contain three successively installed chambers with tangentially installed nozzles for supplying air to the first two of the nicknames, and the first one is equipped with nozzles for supplying, for example, liquor and fuel, and a burner, and a third - nozzles for exhausting combustion products and removing liquid melt ij. A disadvantage of the known cyclone furnaces is the impossibility of obtaining the required sulphidity of the melt. The purpose of the invention is to increase the melt level of the melt by providing a contact of the liquid melt with the reducing agents formed during the combustion of the liquor and fuel in the first chamber. This goal is achieved by the fact that in the cyclone furnace the first chamber is provided with & on a bathtub for collecting liquid water with pipes for feeding the reducing agent and pipes for removing liquid water. In addition, the first second chambers of the top kn are lined. In FIG. The first model depicts the proposed firebox, a power cut; in FIG. 2 is the same cross section (section A-A in FIG. 1); FIG. 3 section bb in fig, jl; in fig. 4 shows a section B-B in FIG. 1; FIG. 5 - section GG on f. I.. The proposed firebox consists of three successively installed chambers 1, 2 in 3. In chamber 1 incomplete combustion occurs, in chamber 2 - mixing of products of incomplete combustion with air, in chamber 3 - complete .. In chamber I, tangentially nozzles 4 and adjustable nozzles 5 are installed serving for the supply of liquor and air in order to carry out the reducing incomplete burning of the liquor to obtain a reducing medium containing products of incomplete combustion. Reguli735865 pens & nozzles 5 have internal floating walls b and allow you to adjust the amount of air supplied, m & The direction of its divided flow and reallocate the amount of air on the latter. . Chamber I is equipped with a burner 7 and a port 8 for supplying air by employees, both for starting the furnace and for burning the auxiliary fuel, natural gas or fuel oil. Chamber 1 has a bath 9 for liquid melt, the surface of which is indicated by the position 10. Bath 9 is equipped with a tap hole 11 for removing liquid foam. The maximum level of liquid melt in bath 9 is provided by the cBt of its overflow through chamber 2 and chamber 3. that protects the nozzles 4., and; Adjustable nozzles 5 Yt flooded with melt in case of accidental non-observance of controls for the level of the melt and ensures the normal operation of the furnace Camera 1 simultaneously serves for dl. melting liquor ash, as well as being a sodium sulphate reduction chamber. In chamber 2, which serves to mix the products of incomplete combustion with air, thai) adjustable nozzles 12 are installed for supplying air in an amount that is necessary for complete compressed air, products of incomplete combustion, Adjustable nozzles 12 have internal turning walls 13 and are similar in design adjustable nozzles 5. Chamber 3 with a special input has a device fOis for removing liquid melt - tap 14. In chamber 3 it is installed on the burner 15 and inlet 16 for air supply, serving for auxiliary operational purposes (starting furnace and t. d.). Chamber 3 has an opening 17, which serves to remove the product from it in full combustion and then use its heat content. Depending on the specific solutions, the bath 9 is equipped with a device 18 for supplying a reducing agent, such as natural gas, to the melt. The arrangement of the device 18 with the nozzles 19 provides for the movement of the liquid fusion in the same direction in which the rotating flame of the KTOB incomplete combustion is carried out and affected. on the surface 10 of the liquid melt in the bath 9, as a result of which there is an energetic mixing of the liquid melt. The cyclone furnace works as follows. 4 liquors are fed through the nozzles into chamber I, through the adjustable nozzles, la 5 air, through the burner 7 - natural gas and through the nozzle 8 - air. In chamber 1, a process of reducing incomplete combustion of these components takes place with the formation of a reducing environment with products of incomplete combustion, which contain gaseous reducing agents: hydrogen, methane, carbon monoxide and solid reducing agent — carbon. In this case, products of incomplete combustion — gaseous and solid Bot disinfectants — will be generated in chamber .1. Moreover, their torch will be twisted along the g axis of the chamber 1 due to the tange of the arrangement of the nozzles 4 and adjustable nozzles 5. These /. products of incomplete combustion will continuously flow into chamber 2. Pressure under chamber is continuous: eno enters the air through tangentially positioned adjustable nozzles 12, twisted in the same direction as the flow of incomplete combustion. Due to this direction, the injectors of incomplete combustion and air, and the nozzles 12 being adjusted by the nozzles 12, mix well with the air. Further, this mixture continuously tangentially enters the chamber 3, in which the impacted combustion burns out, form products of complete crqpaHHH Chimney gases, which are removed through the opening 17 from chamber 3 for subsequent use of their heat content. In chamber I, the liquor ash forms a liquid. . melting, which centrifugal forces. of the swirling plume will be thrown onto the surface 10 of the liquid melt in the bath 9 and on the inner surface of the chamber 1, from which it will flow into the bath 9. As a result, the film 1 will efficiently carry out the film trapping of the hot melt HF in the bath 10 9 as well as the inner surface of chamber 1, from which liquid melt will flow into bath 9 and collect in it. At the same time, during the flow of the liquid melt (and during its dropping), as well as the burden of finding it on the surface 10 of the melt in the bath 9, the sodium sulfate contained in the melt will vigorously interact with the gaseous and solid reducing agents in the reducing gas chamber. I. As a result, sulfate will sodium be intensively reduced in sodium sulfide. At the same time, other processes will take place in the liquid melt: chemical processes, including the reduction of sodium sulfate. Due to the intensive contact of the end product combustion products swirling along the axis of chamber 1 with n "surface 10 of the liquid melt in bath 9, vigorous stirring is formed, the melt in the latter with circular rotation of the melt in bath 9 with successive contact of the whole mass of the melt with a torch of product of indirect combustion which also howls to set sodium sulphate in water. In addition, the presence of a bath 9 with a liquid melt provides the necessary time for holding it, which is required to complete the implementation of all the chemical processes occurring in the liquid melt, including the day of the HBTIph sulfate regeneration process. The device 18 installed in bath 9, will allow intestinating the reduction of sodium sulfate in liquid nrtase, both as a result of organizing direct reduction of sodium sulfate in it by the supplied reducing agent, in this case natural gas, and as a result of an increase in the intensity of sodium sulfate. stirring the melt in bath 9. This, in its very best, will increase the intensity of the reduction of sodium sulfate in the whole mass of molten melt in bath 9 as a result of vigorous contact of the products of incomplete combustion in chamber 1 along its surface 10 in the bath 9 liquid melt containing reduced sodium sulphate will be removed from port 11 to port 9 for its intended purpose. From a swirling torch of a mixture of schyrukt of combustion with air in the chamber 2. under the action of the centrifugal force of the torch, an insignificant part of the remaining amount of liquid melt contained in the products of incomplete combustion will be rejected on the inner surface of this chamber. This is a film trapping of this part of the liquid melt, which from chamber 2 will flow into chamber 3. From the axis of swirling chamber 3 (due to the tangential supply to it of the mixture of products of incomplete combustion with air) the torch of the products of complete combustion under the action of the centrifugal force of the torch internal cam surface & The portions 3 will suck off a part of an even more insignificant amount of liquid melt, which will result in a film catcher and this part of the molten melt, which then, together with the melt coming from chamber 2, will be removed from chamber 3 through a tap 14.: -. - -. Pre / stepping furnace provides a consistent three-stage cyclonic type film of liquid liquid captured in its three chambers and cleaning fumes of gases, as well as increases the reliability and service life of the sludge recovery boilers, eliminates their explosion hazard, which gives a significant economic effect. 1. Cyclone ToifiKa, mainly for burning liquor, containing three series-connected chambers with tangentially settled patches & air supply to the first two of them, and the first one is provided with nozzles for supplying liquor and fuel, for example natural gas, and a burner, and a third by pipes for removal of combustion products and removal of liquid melt, characterized in that, c. the purpose of the increase; sulphidity of the melt by contacting the molten melt with the reducing agents formed by combusting the fuel and the fuel in the first chamber, the latter is equipped with a bath and collecting the liquid melt with nozzles for supplying the reducing agent, for example, natural gas, with the nozzles for removing the liquid melt. . 2. The furnace according to claim 1, which means that its first and second chambers are lined. Sources of information taken into account in the examination 1. Cyclone firebox. Ed. G. F. Knorre and M.A. Nafiarova. l95fe, s. 16, fig. 2-1 .. C / a 1. Dl Phil.1 111 Fie-3 FIG A - "G / 9 u