JP2011251222A - Biomass crusher, and biomass-coal co-firing system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a biomass crusher and a biomass-coal co-firing system, capable of discharging efficiently crushed biomass powder to an outside.SOLUTION: This biomass crusher/biomass-coal co-firing system includes a crusher body 13 having a raw material supply pipe 12 for supplying a biomass raw material 11 from a vertical axis-directional upper side, a crushing table 14 mounted with the supplied biomass raw material 11, a driving part 15 for rotation-driving the crushing table 14, a crushing roller 16 operated interlockedly with rotation of the crushing table 14, to crush the biomass raw material 11 by a pressing force, and a blowing means for forming an upward flow from an outer circumferential side under side of the crushing table 14 to an upper side, and for injecting a conveying gas 18 for airflow-conveying the crushed biomass powder 17, a barrel part 21 in the vertical axis-directional central part of the crusher body 13 is diameter-contracted, and a plurality of discharge pipes 22 for discharging the biomass powder 17 is provided along a circumferential direction, in a top part 13a of the crusher body 13 on a vertical axis-directional extension line of the diameter-contracted barrel part 21.

Description

  The present invention relates to a biomass pulverization apparatus and a biomass-coal co-firing system for pulverizing and pulverizing biomass solids.

In recent years, CO ₂ emission reduction has been promoted from the viewpoint of global warming. In particular, fossil fuels such as coal and heavy oil are often used as fuel in combustion facilities such as power generation boilers, but these fossil fuels cause global warming due to the problem of CO ₂ emissions, and protect the global environment. Its use is being regulated from the viewpoint of In addition, from the viewpoint of depletion of fossil fuels, the development and commercialization of alternative energy resources are required. Therefore, as an alternative to fossil fuels, the use of fuel using biomass has been promoted. Biomass is an organic substance resulting from photosynthesis, and includes biomass such as wood, vegetation, crops, and moss. By converting this biomass into a fuel, the biomass can be effectively used as an energy source or an industrial raw material.

  From the viewpoint of highly efficient use of biomass, which is renewable energy, biomass is used as a fuel. One of the methods used as fuel is a method in which biomass solids are pulverized and pulverized and supplied to a pulverized coal-fired boiler for use as fuel. This is known as a single pulverization method in which coal and biomass are separately pulverized, and a mixed pulverization method in which coal and biomass are mixed and then pulverized. In either method, a biomass pulverizer for pulverizing biomass solids is necessary. However, when trying to use an existing mill used in a conventional coal-fired boiler, due to capacity limitations of the existing mill, The mixed firing rate remained at a maximum of about 10 cal%.

  In order to pulverize conventional biomass to a particle size for a coal-fired boiler, a coal pulverizer is used. For example, biomass raw material is put into a pulverization table in a pulverizer and rotated in conjunction with the pulverization table. It is crushed and dried by a pulverizing roller to be classified. And the finely pulverized biomass is air-flow conveyed to the burner side (see Patent Document 1 and Patent Document 2).

JP 2004-347241 A JP 2009-291692 A

  However, when the woody biomass raw material is pulverized using a conventional coal pulverizer, there are the following problems.

  1) Biomass raw materials have a lighter specific gravity than coal and various pulverization shapes, so the product particle size is controlled mainly by adjusting the air volume. For example, classification using a mechanical classifier such as a rotary classifier is sufficient. There is a problem that it is not done.

  In addition, since the biomass raw material is fibrous and soft and is a hardly pulverizable fuel compared to coal, the pulverization capacity is reduced during biomass pulverization. Therefore, when diverting biomass raw material using a vertical roller pulverizer that pulverizes coal, the A (air) / C (coal) ratio is 7 or more (actually 7 to 13), and the boiler equipment There is a problem in that, on the upstream side of supplying air to the air conditioner, for example, a facility for separating air is required using a bottle system such as a bag filter or a cyclone. As a result, troubles such as blockage and ignition may occur in the bin system.

  Therefore, unlike a pulverizer that simply uses a conventional coal pulverizer, the emergence of a biomass pulverizer that can efficiently discharge the pulverized biomass powder to the outside is desired.

  In view of the above problems, an object of the present invention is to provide a biomass pulverization apparatus and a biomass-coal mixed combustion system that can efficiently discharge pulverized biomass powder to the outside.

  1st invention of this invention for solving the subject mentioned above is a grinding | pulverization apparatus main body which has a raw material supply pipe | tube which supplies biomass raw material from a vertical-axis direction upper direction, The grinding | pulverization table in which the supplied biomass raw material is mounted, A driving unit for rotating the pulverizing table, a pulverizing roller that operates in conjunction with the rotation of the pulverizing table, and pulverizes the biomass material by pressing force, and rises upward from the lower peripheral side of the pulverizing table. And a blowing means for jetting a carrier gas for air-carrying the pulverized biomass powder, and reducing the diameter of the body portion in the center in the vertical axis direction of the pulverizing apparatus main body. The biomass crushing apparatus is characterized in that a plurality of discharge pipes for discharging the biomass powder are provided around the top of the crushing apparatus main body on the vertical axis direction extension line of the trunk portion.

  According to a second aspect of the present invention, there is provided the biomass pulverizing apparatus according to the first aspect of the present invention, wherein a collision plate is provided in the vicinity of the opening of the discharge pipe.

  According to a third aspect of the present invention, there is provided the biomass pulverizing apparatus according to the first or second aspect of the invention, wherein the diameter-reduced body portion is extended by a predetermined length in the vertical axis direction.

  According to a fourth aspect of the present invention, there is provided a biomass pulverizing apparatus according to any one of the first to third aspects, wherein the diameter of the crushing apparatus main body body on the top side is variable.

  According to a fifth aspect of the present invention, any one of the first to fourth biomass pulverization apparatuses, a coal pulverization apparatus that pulverizes the coal raw material, biomass powder pulverized by the biomass pulverization apparatus, and coal pulverized by the coal pulverization apparatus A biomass-coal co-firing system comprising a boiler furnace to which powder is supplied.

  According to the present invention, biomass powder can be transported even when the air volume of the transport gas is equivalent to a desired amount (A / C = 2 to 5) by adopting a structure in which the diameter of the barrel portion at the center is reduced. It is possible to satisfy the required internal superficial velocity.

FIG. 1 is a schematic diagram of a biomass crusher according to the first embodiment. FIG. 2 is a schematic cross-sectional view of the biomass crusher according to the first embodiment. FIG. 3 is a schematic diagram of a biomass crusher according to the second embodiment. FIG. 4 is a schematic diagram of a biomass crusher according to the third embodiment. FIG. 5 is a schematic diagram of a biomass crusher according to the fourth embodiment. FIG. 6 is a schematic diagram of a biomass-coal mixed combustion system including a boiler furnace according to a fifth embodiment.

  Hereinafter, the present invention will be described in detail with reference to the drawings. Note that the present invention is not limited to the embodiments. In addition, constituent elements in the following embodiments include those that can be easily assumed by those skilled in the art or those that are substantially the same.

A biomass pulverizing apparatus according to Embodiment 1 of the present invention will be described with reference to the drawings. FIG. 1 is a schematic diagram of a biomass crusher according to the present embodiment. FIG. 2 is a schematic cross-sectional view of the biomass crusher according to the first embodiment.
As shown in FIGS. 1 and 2, a biomass crusher 10A according to the present embodiment includes a crusher body 13 having a raw material supply pipe 12 that supplies a biomass raw material 11 from above in the vertical axis direction, and the supplied biomass raw material 11. , A driving unit 15 that rotationally drives the pulverizing table 14, a pulverizing roller 16 that operates in conjunction with the rotation of the pulverizing table 14, and pulverizes the biomass raw material 11 with a pressing force. And an air blowing means (not shown) for forming an upward flow from the lower peripheral side of the pulverizing table 14 upward and ejecting a carrier gas 18 for air-carrying the pulverized biomass powder 17. The diameter of the barrel portion 21 at the center in the vertical axis direction of the pulverizer main body 13 is reduced, and the top portion 13a of the pulverizer main body on the extension line in the vertical axis direction of the reduced barrel portion 21 is placed on the top portion 13a. The discharge pipe 22 for discharging the mass powder 17 is made by providing a plurality circumferentially.

The pulverizing table 14 is formed in a substantially circular trapezoidal shape, and the upper surface of the pulverizing table 14 is formed in a concave shape so that biomass solid matter placed on the table does not spill out, and a dam is formed on the outer peripheral side thereof. 14a is provided. In order to prevent the grinding table 14 from being worn, a replaceable table liner 14b is provided.
The crushing table 14 is connected to a drive shaft (not shown) extending from the lower side of the table, and a motor (not shown) is connected to rotate the crushing table 14 by the motor.

The crushing roller 16 is provided above a position shifted outward from the center of the crushing table 14. The crushing roller 16 crushes the biomass raw material 11 placed on the table liner 14 b of the crushing table 14 by applying a pressing force while rotating in conjunction with the rotation of the crushing table 14.
At this time, a speed reducer is connected to the motor, and a variable hydraulic power source or a spring for changing the grinding load is connected to the grinding roller 16, and the grinding load of the grinding roller 16 is increased steplessly or stepwise. The pulverization power is configured to be controllable by a control device (not shown) so that the pulverization power is within a rated range, preferably substantially constant.

  The raw material supply pipe 12 is inserted into the top plate 13 a of the pulverizer main body 13 in the vertical axis direction, and is installed so as to drop the biomass raw material 11 onto the pulverization table 14.

  The blowing means for supplying the carrier gas (primary air) 18 supplies primary air at a predetermined flow rate and a predetermined temperature from the periphery of the crushing table 14 into the apparatus main body 13, and a damper is used to adjust the air flow rate. Etc. are used. Moreover, a temperature adjustment means is provided as needed. The air flow rate or temperature is appropriately controlled by a control device (not shown).

  A gap 19 is provided between the outer peripheral edge of the pulverizing table 14 and the inner peripheral surface of the apparatus body 13, and the carrier gas (primary air) 18 supplied from the blower means passes through the gap 19. It blows out above the crushing table 14. A drift vane (not shown) may be provided in the gap 19. The drift vane adjusts the blowing direction of the primary air, and more preferably, the angle of the drift vane can be arbitrarily controlled.

  In the present embodiment, the diameter of the barrel portion 21 at the center in the vertical axis direction of the pulverizer main body 13 is reduced, and the top portion 13 a of the pulverizer main body 13 on the vertical axis extension line of the barrel portion (reduced diameter portion) 21 is A plurality of discharge pipes 22 for discharging the biomass powder (fine powder) 17 are provided in the circumferential direction.

  In this manner, by adopting a structure in which the diameter of the trunk portion 21 at the center is reduced, the biomass powder 17 is necessary for conveying the biomass gas 17 even when the flow rate of the carrier gas 18 is equivalent to A / C = 2-4. The internal superficial velocity can be satisfied.

Further, by providing a plurality of discharge pipes 22 on the vertical extension line of the barrel portion 21 of the throttle structure, the biomass powder 17 transferred to the transfer gas 18 is directly discharged while maintaining its flow rate.
That is, since the carrier gas 18 has no obstacles, the biomass powder (fine powder) 17 can be conveyed while maintaining the increased superficial velocity.

  Here, the relationship between the diameter d of the narrowed portion of the body portion 21 and the diameter D of the powder table 14 is preferably d ≦ D × 0.8. This is because if d> D × 0.8, a desired flow rate cannot be ensured.

  In the present invention, classification can be performed only by gravity classification in the height direction of the pulverizer without installing a conventional mechanical classifier (such as a rotary classifier). Can be achieved.

  The height adjustment by gravity classification depends on the size of the device. After determining the relationship between the crushing table and the body and determining the A / C of the carrier gas, the optimum height of gravity classification is obtained. do it.

  As described above, in this embodiment, the trunk portion 21 is configured to be narrowed down so that the biomass powder 17 can be transported even when the flow rate of the transport gas 18 is reduced to A / C = 2-5. It is possible to secure the necessary internal superficial velocity.

Here, the internal superficial velocity V preferably has a relationship of 0.5 ≦ V ≦ 2.0 (m / s). If it is less than 0.5 m / s, the amount of air is too small, resulting in excessive pulverization. On the other hand, if it exceeds 2.0 m / s, the amount of coarse powder of the pulverized product increases and combustion efficiency is increased. This is because both are not preferable.
In the present invention, the throttle part is formed by the body part (reduced diameter part) 21 and the superficial speed is maintained, so that the speed is maintained up to the discharge pipe 22. In addition, although the diameter of the upper side of the throttle portion is increased, gravity classification is appropriately performed by adjusting the amount of diameter expansion and the length from the body portion to the top portion 13a.
The relationship between the air amount Q, the cross-sectional area of the body portion 21 (excluding the area of the raw material supply pipe 12) S and the superficial velocity V is expressed by the following equation (1).
Air volume (Q: m ² / s) = cross-sectional area (S: m ² ) × superior velocity (V: m / s) (1)

  Therefore, by reducing A / C to about 2 to 5, a direct combustion method for boiler equipment becomes possible, and a conventional bin system such as a bag filter or a cyclone that separates excess air as in the prior art becomes unnecessary. . As a result, a simple boiler combustion system is provided, and costs can be reduced and troubles in the bin system (for example, blockage, ignition, etc.) can be avoided.

A biomass crusher according to Example 2 of the present invention will be described with reference to the drawings. FIG. 3 is a schematic view of a biomass crusher according to the present embodiment. In addition, the same code | symbol is attached | subjected to the same member as the structure of the biomass grinding | pulverization apparatus which concerns on Example 1, and the description is abbreviate | omitted.
As shown in FIG. 3, the biomass crushing apparatus 10 </ b> B according to the present embodiment has a collision plate 23 in the vicinity of the opening of the discharge pipe 22 in the biomass crushing apparatus 10 </ b> A according to the first embodiment.

Here, the diameter of the collision plate 23 is preferably 0.8 times or less of the opening of the discharge pipe 22. In addition, it is preferable that the height of the collision plate 23 in the vertical axis direction is freely movable by lifting means (not shown).
Among the biomass powders, those having a large particle size become unburned during boiler combustion. Therefore, the boiler combustion state is monitored, and when there is a large amount of unburned, the collision plate 23 is raised to the opening side. The inlet is narrowed to prevent discharge of large grains in the biomass powder 17.

  In this embodiment, the collision plate 23 is suspended from the inside of the discharge pipe 22 by the suspension means. However, the present invention is not limited to this, and for example, the collision plate 23 is suspended from the periphery of the discharge pipe 22 by the suspension means. In addition, when the height is not changed, it may be supported by the support member from the inner wall side of the pulverizing apparatus main body 13.

A biomass crusher according to Example 3 of the present invention will be described with reference to the drawings. FIG. 4 is a schematic diagram of the biomass crusher according to the present embodiment. In addition, the same code | symbol is attached | subjected to the same member as the structure of the biomass grinding | pulverization apparatus which concerns on Example 1, and the description is abbreviate | omitted.
As shown in FIG. 4, the biomass crushing apparatus 10C according to the present embodiment extends the reduced diameter barrel portion 21 by a predetermined length L in the vertical axis direction in the biomass crushing apparatus 10B according to the second embodiment. .
As a result, it is possible to reliably maintain the desired flow velocity that changes when the diameter is reduced in the height direction.

A biomass crusher according to Example 4 of the present invention will be described with reference to the drawings. FIG. 5 is a schematic diagram of the biomass crusher according to the present embodiment. In addition, the same code | symbol is attached | subjected to the same member as the structure of the biomass grinding | pulverization apparatus which concerns on Example 1, and the description is abbreviate | omitted.
As shown in FIG. 5, the biomass crushing apparatus 10D according to the present embodiment has a movable wall 24 that can change the diameter of the crushing apparatus main body body on the top side in the biomass crushing apparatus 10C according to the third embodiment. is doing. The movable wall 24 is movable by, for example, a hinge 25 or the like, and is usually integrated with the inner wall side.

  As described above, since the diameter of the upper portion of the body portion (reduced diameter portion) 21 is variable, gravity classification is performed by arbitrarily changing the internal superficial velocity, and the particle size of the product discharged from the discharge pipe 22 is controlled. can do.

  Further, the flow rate of the carrier gas 18 to be blown up may be changed as a variable structure in which a member that increases the opening area of the gap 19 on the outer periphery of the crushing table 14 can be inserted and removed.

  Since the specific gravity of biomass varies depending on the type (conifer, hardwood, pellet), the required internal superficial velocity varies depending on the type of biomass even if A / C is constant. By adjusting the opening area of the gap 19, the internal superficial velocity can be adjusted, and the product particle size can be controlled well.

A biomass / coal mixed combustion system including a boiler furnace according to a fifth embodiment of the present invention will be described with reference to the drawings. FIG. 6 is a schematic view of a biomass-coal mixed combustion system including a boiler furnace according to the present embodiment.
As shown in FIG. 6, the biomass pulverization apparatus 10 </ b> A (10 </ b> B to 10 </ b> D) described above is applied to the biomass / coal mixed combustion system including the boiler furnace according to the present embodiment.
As shown in FIG. 6, the biomass / coal co-firing system according to the present embodiment stores a biomass raw material 11 that is a primary crushing (coarse crushing) and dried biomass solids to a predetermined particle size or less as necessary. Biomass storage facility 40, biomass crusher 10A (10B to 10D) provided with biomass hopper 41 supplied with biomass raw material 11, coal pulverizers 52a, 52b provided with hoppers 51a, 51b for receiving coal 50, biomass The boiler furnace 60 to which the biomass powder 17 obtained by the pulverization apparatus 10A (10B to 10D) and the coal powder 53 obtained by the coal pulverization apparatuses 52a and 52b are supplied.
The biomass raw material 11 such as wood chips is sized to some extent and stored in the biomass storage facility 40 as a biomass chip, and then supplied to the biomass hopper 41. The biomass chip is supplied from the biomass hopper 41 to the biomass crusher 10A (10B to 10D) and is crushed by the crushing table 14 and the crushing roller 16. The pulverized biomass pulverized product and coal pulverized product are supplied to the boiler furnace 60, and the biomass powder 17 and the coal powder 53 are mixed and burned in the boiler furnace 60.

The furnace body of the boiler furnace 60 is provided with a fuel supply nozzle and a burner that cooperates therewith. The combustion exhaust gas generated by the combustion heats the heat transfer tube 61 arranged in the furnace and is sent to the flue. An air heater (AH) 62 is disposed in the middle of the flue provided at the furnace outlet of the furnace body, and the combustion exhaust gas that has passed through the air heater 62 is exhaust gas treatment equipment such as an ash collector (not shown). And then released into the atmosphere.
The high-temperature air 64 generated by heating the outside air 63 with the air heater 62 is supplied to the coal pulverizers 52a and 52b and used for drying the coal. Further, a part 65 of the combustion exhaust gas is supplied to the biomass crusher 10A (10B to 10D) by the attracting fan 66, and used for classification and drying of the biomass.

As described above, since the biomass pulverization apparatus according to the present invention is provided with the system, the biomass pulverization becomes good. Therefore, even when the pulverized product is directly introduced into the combustion apparatus and burned, the combustion performance is lowered. And stable combustion is possible.
In addition, since the total amount of the pushed-in gas does not change from the conventional amount, there is no fluctuation in the primary air, and the biomass pulverizer can be operated stably within the range of the air amount required in the combustion facility. Is possible.

  As described above, according to the biomass pulverization apparatus according to the present invention, the biomass raw material can be pulverized efficiently and stably.

10A to 10D Biomass crusher 11 Biomass raw material 12 Raw material supply pipe 13 Crusher main body 14 Crushing table 15 Drive unit 16 Crushing roller 17 Biomass powder 18 Carrier gas 21 Body (reduced diameter portion)
22 discharge pipe 23 collision plate

Claims (5)

A pulverizer body having a raw material supply pipe for supplying biomass raw material from above in the vertical axis direction;
A crushing table on which the supplied biomass material is placed;
A drive unit for rotationally driving the grinding table;
A grinding roller that operates in conjunction with the rotation of the grinding table and crushes the biomass raw material by a pressing force;
Forming an upward flow from the outer peripheral side lower side of the pulverization table to the upper side, and comprising blowing means for jetting a carrier gas for air-carrying the pulverized biomass powder,
While reducing the diameter of the body portion of the central portion of the pulverizer body in the vertical axis direction,
A biomass pulverizer characterized in that a plurality of discharge pipes for discharging biomass powder are provided around the top of a pulverizer main body on a line extending in the vertical axis direction of the barrel portion having a reduced diameter. In claim 1,
A biomass pulverizing apparatus comprising a collision plate in the vicinity of the opening of the discharge pipe. In claim 1 or 2,
The biomass crusher characterized in that the diameter-reduced body portion extends in the vertical axis direction for a predetermined length. In any one of Claims 1 thru | or 3,
A biomass pulverizer characterized in that the diameter of the pulverizer main body barrel on the top side is variable. A biomass crusher according to any one of claims 1 to 4,
A coal crusher for crushing the coal raw material;
A biomass-coal co-firing system comprising a biomass powder pulverized by a biomass pulverizer and a boiler furnace to which the coal powder pulverized by the coal pulverizer is supplied.

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