JP2566378B2 - Spouted bed coal gasifier - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a spouted bed coal gasification furnace applied to commercial and industrial coal gasifiers.

[0002]

2. Description of the Related Art Conventional spouted bed coal gasification furnaces include pressurized and atmospheric pressure as their types, and the number of burner stages is divided into two stages or one stage. There are so many different. As an example of a conventional pressurized gas two-stage spouted bed coal gasifier, FIG. 4 shows the overall structure of the furnace and FIG. 5 is a schematic diagram showing the internal cross section of the coal gasifier or the function of each part. It will be explained based on.

In FIG. 4, a pressurized two-stage spouted bed coal gasification furnace is a double pressure vessel because it is pressurized to improve gasification efficiency and reduce the size of the furnace. The inner pressure vessel 2 surrounded by the outer pressure vessel 1 of the above includes a combustor 3 having a furnace wall formed of a water cooling tube, a diffuser 4,
It is composed of three parts of the reductor 5.

Each of the combustor 3 and the diffuser 4 is provided with a plurality of burners mounted in the direction in which the gas in the furnace is swirled, one stage at a time.
It is called the reductor burner 17. There is a slag discharge port 8 on the bottom part 7 of the combustor of the combustor 3,
A gasifier lower slag hopper 14 is provided immediately below it. The function of each part of the coal gasifier 1 having such a configuration will be described with reference to the schematic diagram of FIG.

(1) Combustor 3: Coal pulverized by a mill and dried by a drying gas, and recycled char (recovered unburned carbon) recovered at the outlet of the coal gasification furnace 1.
In the combustor burner 6 together with the combustion air having a relatively high air ratio into the furnace to generate a high temperature combustion gas by burning and keep the temperature inside the furnace high and separate it from the combustion gas. Ash content in the coal that has adhered to the furnace wall or dropped to the combustor furnace bottom portion 7 is discharged downward as a molten slag 16 from a lower slag discharge port 8 provided in the furnace bottom.

(2) Diffuser 4: A reductor burner 17 is installed in the upper part of the combustor 3 and in the middle of the diffuser 4 whose cross section expands upward.
From 7, the same as in the combustor burner 6, the coal pulverized by the mill and dried by the drying gas is put into the furnace together with a small amount of carrier air, and the high temperature combustion gas from the combustor 3 and the coal are mixed sufficiently. .

(3) Reductor 5: The reducer 5 above the diffuser 4 produces a combustible gas (CO, H ₂ ) by sufficiently causing a gasification reaction between the activated char and the exhaust gas in a high temperature reducing atmosphere. It is a part. Then, the gas temperature and the char temperature are cooled by a water cooling wall tube on the furnace wall.
At the outlet of the reductor 5, there is also combustible gas and char particles that have not reacted yet, but the unreacted part is recovered and charged again into the combustor 3.

The combustible gas produced in the coal gasifier is
It is sent to the downstream side and is combusted by a prime mover such as a gas turbine to generate electricity.

[0009]

In such a conventional coal gasification furnace, the following problems may occur. That is, in the combustor section or diffuser section, coal injected with air from the combustor burner or reductor burner, etc., burns to generate high-temperature combustion gas, but coal ash content is separated from the combustion gas and adheres to the furnace wall, Alternatively, it falls to the bottom of the combustor furnace, melts due to the high temperature atmosphere in the furnace, and becomes slag that flows downward. The molten slag is designed to fall from the lower slag discharge port to the lower slag hopper of the gasifier below that.

Since the inside of the combustor is at a high temperature, there is no problem under normal conditions, but there is a temporary large amount of fall due to the separation of the solidified slag ash from the diffuser part or the reducer part, or at the bottom of the combustor. It solidifies in the part that drips from the slag discharge port to the slag hopper below,
Although it is considered to be rare, such as when it overlaps with other factors such as the fall of solid ash, it may cause blockage of the lower slag discharge port. If such a trouble occurs, the plant must be stopped and restored, which will cause a great deal of damage.

The present invention solves the above problems found in conventional coal gasification furnaces and is constructed so that the lower slag discharge port of the furnace is not blocked by the slag. The challenge is to provide.

[0012]

DISCLOSURE OF THE INVENTION The present invention is a spouted bed coal which gasifies pulverized coal to generate combustible gas and discharges slag-like ash content melted by a high temperature atmosphere in the furnace from the lower part of the furnace. In order to solve the above-mentioned problems in the gasification furnace, a recycled gas burner for combusting a part of the gas produced by the coal gasification furnace and an oxidant gas nozzle for combustion are provided under the slag discharge part at the lower part of the furnace to support the combustion of recycled gas. Adopt a configuration with rooms.

The combustible gas generated in this coal gasification furnace is sent to the downstream side and used as fuel for a gas turbine or the like. The generated gas after passing through a cyclone or a filter is branched as a recycled gas, and the recycled gas is recycled by a recycle gas burner installed in the lower combustion chamber of the combustor together with combustion air from a nozzle also installed in the same chamber. The combustion keeps the auxiliary combustion chamber at a high temperature and facilitates discharge of the molten slag that drops from the bottom of the combustor through the lower slag discharge port.

Further, even when solid slag or the like is peeled off from the diffuser portion or the reducer portion, the high temperature gas from the recycle gas combustion chamber is jetted from below the lower slag discharge port to remelt the slag. Due to
It works to prevent accidents such as blockage of the lower slag discharge port.

In the spouted bed coal gasification furnace according to the present invention, one of air, pure O ₂ and O ₂ -enriched air is supplied to the combustion oxidant gas nozzle of the recycle gas auxiliary combustion chamber.
It is preferable that the seeds or a combination of them be used for guiding.

Thus, by using O ₂ or O ₂ -enriched air as the oxidizing gas for combustion in the recycle gas auxiliary combustion chamber, the auxiliary combustion chamber temperature as shown in FIG. 3 is kept constant (1.500 ° C.). In view of the tendency of the O ₂ concentration of the secondary air for gas combustion and the recycled gas circulation ratio (wt%), the GR amount, that is, the recycled gas amount can be reduced by increasing the O ₂ concentration. To be understood.

As a result, the amount of air introduced into the combustor increases, and the temperature is maintained high as shown in FIG.
Therefore, it is advantageous to use combustion air having a high O ₂ concentration in terms of the gas production capacity of the coal gasifier and the stable operation of the coal gasifier such as molten slag discharge performance.

[0018]

EXAMPLE A spouted bed coal gasification furnace according to the present invention will be specifically described below based on an example shown in FIG. The figure shows the whole of the spouted bed coal gasification furnace, and since the internal pressure is as high as 27ata, the coal gasification furnace main body is put in the cylindrical vertical external pressure vessel 1 enclosing it. Reference numeral 2 denotes an internal pressure-resistant container which has a furnace wall of a water cooling pipe and is composed of three parts, that is, a combustor 3, a diffuser 4 and a reducer 5.

Burners are provided in the combustor 3 and the diffuser 4, respectively, and are referred to as the combustor burner 6 and the reducer burner 17. Compressed air for combustion is supplied to the burners 6 and 17, respectively. Furnace bottom 7 of combustor 3
In the lower part of the lower slag discharge port 8 at, the gasifier lower slag hopper 14 is provided, and the combustor lower auxiliary combustion chamber 13 is disposed in the space surrounded by the water cooling wall header and the rising water cooling wall pipe to the upper part between them. Has been done.

In the lower combustion chamber 13 of the combustor, coal is
Gas generated in the gasification furnace 1 and used as fuel for gas turbines, etc.
Cyclone bar in the downstream of the coal gasifier 1
Branch off from the main gas pipe at a point after the
The recycled gas is burnt through the Kurgas supply pipe 9.
Recycled gas burner 10 to be installed and installed in the plant
O₂O from a generator (not shown)₂Or pressure switch
From a desorption (PSA) plant₂Enriched air
O₂・ O₂With the enriched air supply system 11, O₂・ O₂wealth
Recycling to inject the modified air into the combustor lower combustion chamber 13
Lugas for combustion O ₂・ O₂The enriched air nozzle 12 is provided.
You.

In the jet bed coal gasification furnace according to the embodiment shown in FIG. 1 having the above structure, the produced gas generated in the coal gasification furnace is sent to the downstream side and used for the gas turbine or the like. The produced gas after passing through the cyclone bag filter 15 on the way is branched and the produced gas recycled through the recycle gas supply pipe 9 is provided in the lower combustor combustion chamber 1 of the combustor 1.
The recycle gas burner 10 provided in the 3, also the O ₂ · O ₂ enriched air from the O ₂ generator O ₂ · O
Guided by ₂ enriched air supply system 11, the recycle gas combustion O ₂ · O ₂ Tomikasora Kibuki port 12 to be introduced into the combustor lower auxiliary combustion chamber is 13, it is burned by blowing a combustor lower auxiliary combustion chamber is 13.

As a result, the inside of the auxiliary combustion chamber 13 is maintained at a high temperature, facilitating the discharge of the molten slag 16 that drops from the combustor furnace bottom 7 through the lower slag discharge port 8. Also,
Even when solid slag or the like is separated and dropped from the diffuser 4 part or the reductor 5 part, the hot slag of high temperature is ejected from the lower part of the lower slag discharge port 8 to remelt the slag, thereby lower slag discharge port. 8 has the function of preventing accidents such as blockage.

It is of course possible to use normal air instead of the O ₂ · O ₂ enriched air as in this embodiment, but as described above, the amount of recycled gas as shown in FIG. As a parameter, and the change in the auxiliary combustion chamber temperature with the O ₂ concentration of the secondary air for gas combustion as a variable, it is understood that the GR amount, that is, the recycled gas amount can be reduced by increasing the O ₂ concentration. It

Therefore, in terms of the gas production capacity of the coal gasifier, it is advantageous to use combustion air having a high O ₂ concentration.

[0025]

EFFECTS OF THE INVENTION In a spouted bed coal gasification furnace, as in the present invention, by providing a lower combustor combustion chamber under the lower slag discharge port of the combustor at the lower part of the furnace, the recycled gas is efficiently supported by the slag. Since the slag near the discharge port can always be maintained in a molten state, damage due to an accidental blockage of the lower slag discharge port can be prevented and the reliability of the plant can be improved.

Further, if necessary, by using combustion air having a high O ₂ concentration, the amount of the above-mentioned recycled gas can be reduced, and it is possible to avoid reducing the gas production capacity of the coal gasifier. Is. These effects are particularly important during the partial load operation of the gasifier in which the gas temperature in the combustor tends to decrease, and become remarkable when coal having a high ash melting point is used as the fuel.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing a spouted bed coal gasification furnace and a recycled gas auxiliary combustion system according to an embodiment of the present invention.

FIG. 2 is a graph showing changes in the auxiliary combustion chamber temperature depending on the O ₂ concentration of secondary air for gas combustion in the jet bed coal gasification furnace of the present invention.

FIG. 3 shows O of secondary air for gas combustion when the auxiliary combustion chamber temperature of the gasification furnace according to the present invention is constant (1.500 ° C.).
₂ is a graph showing the concentration and the recycled gas circulation rate (wt%).

FIG. 4 is a pressurized two-stage 2 as an example of a conventional coal gasification furnace.
Overall view of chamber spouted bed coal gasification furnace.

FIG. 5: Pressurized two-stage 2 as an example of a conventional coal gasification furnace
The functional schematic diagram which shows the internal cross section of a room spouted bed coal gasification furnace.

[Explanation of symbols]

1 External pressure vessel 2 Internal pressure vessel 3 Combustor 4 Diffuser 5 Reductor 6 Combustor burner 7 Combustor furnace bottom 8 Lower slag discharge port 9 Recycled gas supply pipe 10 Recycled gas burner 11 O ₂ · O ₂ enriched air supply system 12 For combustion of recycled gas O ₂ / O ₂ enriched air nozzle 13 Lower combustor auxiliary combustion chamber 14 Lower slag hopper of gasifier 15 Cyclone bag filter 16 Molten slag 17 Reductor burner 18 Recycled gas compressor

Claims (2)

(57) [Claims] 1. A slag discharge in the lower part of a furnace in a jet-bed coal gasification furnace in which pulverized coal is gasified to generate a flammable gas and slag-like ash that is melted by a high temperature atmosphere in the furnace is discharged from the lower part of the furnace. A spouted bed coal gasifier equipped with a recycled gas burner chamber provided with a recycled gas burner for burning a part of the gas produced by the coal gasifier and an oxidant gas nozzle for combustion under the section. 2. The spouted bed coal gasification furnace according to claim 1, wherein the combustion oxidant gas nozzle has a configuration in which any one of air, pure O ₂ , and O ₂ -enriched air or a combination thereof is introduced.