CN202452484U - Split-type self-excited serial electric-cyclone gas-solid separating device for circulating fluidized bed boiler - Google Patents

Abstract

The utility model discloses a split-type self-excited serial power-cyclone separation device for a circulating fluidized bed boiler, which comprises a cyclone separator and an electric gas-solid separator. The upper part of the cyclone separator is provided with a flue gas discharge tube, At the lower end of the cyclone separator is a fly ash return pipe. The electric gas-solid separator includes a shell, an emitter plate and a dust collecting plate. The shell is provided with a flue gas inlet, a flue gas outlet and a falling The ash outlet, the emitter plate is set inside the flue gas inlet, the dust collecting plate is set at the upper end of the ash falling outlet; the flue gas inlet and the flue gas discharge tube connect. Compared with the prior art, the electrostatic separation part is changed from more curved surface structures to planar structures, which is conducive to the improvement of the discharge voltage level of the electrostatic field, thereby improving the stability and safety level of the separation device.

Description

Circulating fluidized bed boiler split type self-excited serial power-cyclone gas-solid separation device

Technical field:

The utility model relates to a gas-solid separation device, in particular to a split-type separation device for flue gas gas-solid separation used in circulating fluidized bed boilers at high temperatures above 800°C or similar applications. the

Background technique:

In the occasion of separating high-temperature materials above 800 ° C in circulating fluidized bed boilers, separators using integrated electric power and cyclone combination have been seen. It mainly relies on the electron thermal emission mechanism of the material to charge the dust, and then is driven to the dust collector by the low-voltage electric field to collect the new corona-free electric dust removal technology, which is different from the traditional cyclone separator that relies on the rotating centrifugal force to achieve gas-solid separation. The technology is connected in series to form a combined technology; and it can be applied to occasions where the working environment temperature is higher than 800°C, the dust concentration is extremely high, and gas-solid separation is required, such as the high-temperature flue gas gas-solid separation process of circulating fluidized bed boilers (It can also be extended and applied to similar industrial high-temperature dust removal processes). the

Since this new type of power separator mainly relies on electrode materials with extremely low work function to absorb heat in a high-temperature flue gas environment as emission energy, it can release a large amount of energy only with an extremely low emission voltage (2500 volts). The free electrons promote the charging of dust, so we call it the environment "self-excitation". the

At the same time, in order to avoid the problem that the solid concentration in the circulating fluidized bed boiler cyclone separator is too high and it is easy to shield the electric field, we have changed the current popular electric field force and rotating centrifugal force applied in parallel to the flue gas flow. Existing combinations of cyclone technology. The utility model uses rotating centrifugal force to separate high-concentration dust first, and then taps in the area where the dust concentration is greatly reduced from the end of the separator to the outlet of the cyclone separator to join in the power strengthening effect, so that the electric field force is concentrated on the collection of fine dust It not only highlights the advantages of electrostatic dust removal technology, but also makes up for the low efficiency of cyclone dust removal technology for fine particle classification and collection. Therefore, it can be called "serial" in terms of the seamless connection between these two technologies. the

Therefore, we call the device combined by these two technologies to realize the gas-solid separation of flue gas as "self-excited serial power-cyclone gas-solid separation device (or dust removal device)"

This high-temperature gas-solid separator has the characteristics of compact equipment structure, but there are also some shortcomings. For example, the cathode is arranged in the central tube of the cyclone separator, the layout space is small, and the emission power of the cathode is limited, which affects the large-scale application of this technology. Another example is that there are many curved surface structures in the electrostatic separation space, resulting in low electric field performance. Furthermore, its manufacturing process is complicated, and its manufacturing and maintenance costs are relatively high. the

Invention content:

The technical problem to be solved by the utility model is to provide a split-type self-excited serial power-cyclone gas-solid separation device with unlimited cathode emission power and stable electric field for the above-mentioned deficiencies in the prior art. Features of simple installation and convenient maintenance. the

In order to solve the problems of the technologies described above, the technical solution adopted in the utility model is:

A split-type self-excited serial power-cyclone separation device for a circulating fluidized bed boiler, characterized in that it includes a cyclone separator and an electric gas-solid separator, and the upper part of the cyclone separator is provided with a flue gas discharge tube. The lower end of the cyclone separator is a fly ash return pipe. The electric gas-solid separator includes a shell, an emitter plate and a dust collection plate. The shell is provided with a flue gas inlet, a flue gas outlet, and ash falling outlet, the emitter plate is set inside the flue gas inlet, the dust collecting plate is set at the upper end of the ash outlet; the flue gas inlet is connected to the flue gas discharge tube . the

The dust collecting pole plate is a flat plate. the

The falling ash outlet is connected to the fly ash return pipe. the

The operating principle and technological process of the utility model separation device are as follows:

The dust-laden flue gas with a temperature higher than 800°C is accelerated tangentially into the high-temperature cyclone separator from the flue gas inlet. First, a large amount of dust with various particle sizes is separated from the high-temperature flue gas by the rotating centrifugal force generated by the tangential circle of the cylinder. , gather on the inner wall of the cyclone separator, and then sink down to the fly ash return pipe under the action of gravity, and return to the furnace of the circulating fluidized bed boiler. After the initial gas-solid separation, the flue gas that still contains fine dust particles is boosted in the central space of the cyclone separator, rebounds and rotates upwards, and is introduced into the electric gas-solid separator through the flue gas discharge tube of the cyclone separator. During the plate process, a large number of free electrons in the emitter material are jointly excited by the high-temperature flue gas energy and the low electric field force with a voltage of 2500 volts, resulting in the charge of fine dust particles passing through the flue gas. A large number of negatively charged dust particles flow through the dust collecting plate area with the high-temperature flue gas, are trapped under the action of the electric field force, and fall into the ash hopper at the bottom and the fly ash return pipe, and then enter the furnace after confluence. the

Compared with prior art, the beneficial effect of the utility model is:

(1) The self-excited serial power-cyclone gas-solid separation device of the circulating fluidized bed boiler in a split arrangement uses the power emission cathode plate of the self-excited serial power-cyclone gas-solid separation device of the integrated circulating fluidized bed boiler from the The arrangement of the inner wall of the cyclone separator central cylinder is transferred to the outlet of the cyclone separator flue gas discharge cylinder. The flue gas discharge cylinder is just a connecting pipe to export the flue gas, so the mechanism of the cyclone separator is greatly simplified. This change It not only makes it possible to arrange emitters in a large area in the high-temperature flue gas-solid separation process section of circulating fluidized bed boilers, but also facilitates the development of this technology in the direction of large-scale application. Moreover, the electrostatic separation part of this technology can be changed from more curved surface structure forms to planar structure forms, which is conducive to the improvement of the discharge voltage level of the electrostatic field, thereby improving the stability and safety level of the separation device operation. the

(2) The separation device strengthens the gas-solid separation effect of the cyclone separator by the power separation effect. This combined gas-solid separation method has been widely used in the electric cyclone dust collector technology, but it uses the corona electric dust collector as the basis of the combination of the two technologies. However, the maximum operating temperature of the corona electric dust collector is generally below 500-600°C. The higher the temperature is, the smaller the gas density is, the corona field will easily break down, making the electric precipitator unable to work stably. the

And what the utility model uses is the electric dedusting technology based on material electron thermal emission, and it does not produce corona, thus also does not have the risk of corona field breakdown. However, there must be high-temperature energy above 800°C in the electric field, relying on it as the main force to excite the free electrons inside the emitter of the electrostatic precipitator to break through the surface potential barrier of the material. In the circulating fluidized bed boiler, the process temperature of the high-temperature flue gas gas-solid separation section just has such conditions and can be used. In this way, not only the working performance of the power separator is stabilized, but also the energy in the boiler production process can be fully utilized; the stable application and equipment performance under high temperature environment is one of the advantages of the utility model. the

(3) Secondly, although the power separator has obvious advantages over the cyclone separator in terms of strengthening the capture of fine dust particles of 1 to 100 μm, it is easily shielded by dust in a high-concentration environment. The utility model uses rotating centrifugal force to separate about 90% of the coarse dust particles in the flue gas, and the outlet of the cyclone separator whose dust concentration in the flue gas is greatly reduced is connected in series with a power separator to strengthen the effect on residual dust in the flue gas. The secondary capture effect of fine particles. This combination of technologies not only gives full play to the respective strengths of the two technologies, but also avoids the respective weaknesses of the two technologies, so that the entire gas-solid separation device has improved both in terms of total separation efficiency and fine particle classification efficiency; fine particles Low collection efficiency is a common defect of various types of gas-solid separators currently used in circulating fluidized bed boilers, which cannot be solved well. The utility model is expected to obtain a major technical breakthrough in this respect. High fine particle separation efficiency and good anti-dust shielding performance are the second advantages of the utility model. the

(4) The circulating fluidized bed boiler self-excited serial power-cyclone gas-solid separation device with split arrangement can reduce the cost of the self-excited serial power-cyclone gas-solid separator of the circulating fluidized bed boiler with integrated layout. Difficulty in manufacturing and maintenance, saving production costs. the

Moreover, in the process flow of circulating fluidized bed boiler, there is just a section of process transition channel between the outlet of high temperature gas-solid separator and the downstream connecting equipment, which is enough to arrange electrostatic separator; without basically changing the common structural design of main equipment of circulating fluidized bed boiler The fourth advantage of the utility model is to make full use of the free space in the process transition and reduce the difficulty of manufacture and maintenance of the integrated design of the circulating fluidized bed boiler self-excited serial power-cyclone gas-solid separator. the

Description of drawings

Fig. 1 is a schematic structural view of the separation device of the present invention. the

Among them: 1. High temperature cyclone separator, 2. Electric gas-solid separator, 3. DC power supply, 4. Emitter plate, 5. Dust collecting plate, 6. Fly ash return pipe, 7. Flue gas discharge tube, 8. High-temperature dusty flue gas inlet, 9. Fly ash dust returning to the furnace, 10. Purified high-temperature flue gas outlet. the

Detailed ways

Below in conjunction with Fig. 1, the utility model is further described:

As shown in Figure 1, the utility model circulating fluidized bed boiler split type self-excited serial power-cyclone separation device includes high-temperature cyclone separator 1, power gas-solid separator 2, DC power supply 3, emitter plate 4, dust collection The pole plate 5, the ash falling channel 6 and the flue gas discharge tube 7 are composed. The upper part of the cyclone separator 1 is provided with a flue gas discharge tube, and the lower end of the cyclone separator is a fly ash return pipe 6. The electric gas-solid separator includes a shell, an emitter plate 4 and a dust collecting plate 5. The shell is provided with There are flue gas inlet, flue gas outlet and ash outlet, the emitter plate is set inside the flue gas inlet, and the dust collection plate is set on the upper end of the ash outlet; the flue gas inlet is connected with the flue gas discharge tube 7 , the dust collection pole plate is a flat plate, and the DC power supply 3 is connected to the emitter pole plate and the dust collection pole plate. The falling ash outlet is connected to the fly ash return pipe. the

Claims (3)

1. the split type self-excitation serial electric power of CFBB-cyclone gas-solid separator; It is characterized in that: comprise cyclone separator and electric power gas-solid separator; The top of described cyclone separator is provided with the flue gas expelling tube; In the lower end of cyclone separator is the flying dust refeed line, and described electric power gas-solid separator comprises housing, emission pole plate and dust collecting pole plate, and described housing is provided with gas approach, exhanst gas outlet and falls the ash outlet; It is inner that described emission pole plate is arranged on described gas approach, and described dust collecting pole plate is arranged on the described ash outlet upper end that falls; Described gas approach is connected with described flue gas expelling tube.

2. the split type self-excitation serial electric power of CFBB according to claim 1-cyclone gas-solid separator, it is characterized in that: described dust collecting pole plate is a surface plate.

3. the split type self-excitation serial electric power of CFBB according to claim 1 and 2-cyclone gas-solid separator is characterized in that: the described ash outlet that falls is connected to described flying dust refeed line.

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