JP7147616B2 - Equipment and method for recycling wood pellets - Google Patents

Description

TECHNICAL FIELD The present invention relates to a wood pellet recycling facility and method applicable to a storage and transportation facility that receives or discharges wood pellets.

Wood pellets are obtained by compression-molding sawdust or pulverized wood into granules, and are formed into pellets by melting and fixing lignin contained in wood with heat. Pelletization of wood pellets facilitates handling during transportation and storage. The main use of wood pellets using such biomass resources is as an alternative fuel to fossil fuels. Examples include fuel for small pellet stoves to large thermal power plants. In recent years, from the viewpoint of global warming prevention measures, formation of a recycling-oriented society, etc., various systems for biomass utilization have been enforced and biomass power generation facilities have been installed in various places.

FIG. 3 is an explanatory diagram of a conventional storage and transportation facility for wood pellets. Wood pellets transported by truck from a wood pellet manufacturing facility are supplied to a pellet receiving conveyor 2 by a screw conveyor 1. At the end of the pellet receiving conveyor 2, there is a pellet storage hopper 3 for temporarily storing wood pellets. After that, it is carried out from the discharge conveyor 4 to a supply line as a fuel for a boiler or the like.
Wood pellets are formed from wood powder, and during the transportation process, some of them crumble into powder due to the impact and flow when they are put into a conveyor or a storage hopper (also called a tank). The wood pellets received are partially pulverized during shipment from the manufacturing plant, intermediate storage, and transportation, and contain several percent of powder. This dust accumulates in the non-flowing areas of the transport conveyor and storage hoppers. If powder stays or accumulates in a conveying machine such as a conveyor that receives or discharges wood pellets, problems such as generation of dust and impossibility of conveying occur. In the worst case, it may stay in the machine and ignite due to frictional heat. Therefore, the equipment must be periodically stopped for maintenance. The amount of powder generated from wood pellets varies depending on the type of wood raw material, water content, molding method, etc., but the powder weight ratio during pellet molding is, for example, within about 1%. Due to storage and transportation, when powdered, it floats up in the equipment and stays in unexpected places, and the electrostatic force generated on the belt and moisture adhesion increases the amount of powder that falls over a wide area and increases the frequency of maintenance. increase. Moreover, when the weight ratio of the powder content reaches 5 to 10% of the total wood pellets, the equipment must be stopped to plan and implement cleaning and powder recovery work.
Patent Literature 1 discloses a wood pellet conveying device that discharges powder generated during wood pellet conveyance to a stacking box outside the conveying pipe and does not stop the device.
However, in the case of the storage and transportation device, since there are many locations over a wide range where the powder is accumulated, it is difficult to efficiently collect the powder because it is costly to install a collection box in such a location. .

JP 2015-51829 A

The problem to be solved by the present invention, in view of the above-mentioned problems of the prior art, is to regenerate wood pellets that can improve the operating efficiency of the entire equipment by eliminating the troubles of the equipment due to the dust generated during the storage or transportation of the wood pellets. It is to provide equipment and its method.

As a first means for solving the above problems, the present invention provides a storage hopper for collecting powder generated in a storage and transportation facility for wood pellets;
a moisture measurement hopper that receives the powder in the storage hopper and measures the moisture content of the powder;
water adding means for adding water so that the powder in the water content measurement hopper has a predetermined water content;
a molding material storage hopper for receiving the powder adjusted to a predetermined moisture content and stirred;
a molding machine for producing wood pellets using the stored powder;
, and the molding material storage hopper is of a batch type that is provided with two or more hoppers and alternately receives or discharges the molding material .
According to the first means, it is possible to prevent troubles such as generation of dust and ignition in the transfer equipment. In addition, it is possible to reduce the frequency of stopping the equipment for maintenance work and improve the operating efficiency.

As a second means for solving the above-mentioned problems, the present invention provides, in the first means, that the molding material storage hopper is of a batch type, which is provided with two or more hoppers and alternately receives and discharges the molding material. The purpose of the present invention is to provide equipment for recycling characteristic wood pellets.
According to the second means, it is possible to sufficiently absorb water into the powder and uniformly add water to the powder. In addition, since the entire powder is moistened, the generation of dust can be reduced.

According to the present invention, as a third means for solving the above problems, in the first or second means, a recycled pellet storage hopper for receiving the wood pellets from the molding machine is provided,
An object of the present invention is to provide equipment for recycling wood pellets, wherein the recycled pellet storage hopper is equipped with ventilation means for ventilating the inside of the hopper.
According to the third means, it is possible to increase the strength by cooling the exothermic wood pellet after molding. In addition, powder adhering to the pellets during the molding process can be removed.

As a fourth means for solving the above problems, the present invention provides a step of collecting and storing powder generated in a storage and transportation facility for wood pellets;
a step of adjusting the stored powder to a predetermined moisture content;
a step of regenerating wood pellets using the powder;
To provide a method for recycling wood pellets characterized by having
According to the fourth means, it is possible to prevent troubles such as generation of dust and ignition in the transportation equipment. In addition, it is possible to reduce the frequency of stopping the equipment for maintenance work and improve the operating efficiency.

As a fifth means for solving the above problems, the present invention provides a step of collecting and storing powder generated in a storage and transportation facility for wood pellets;
measuring the moisture content of the stored powder;
a step of adding water when the powder whose water content is measured is less than a predetermined water content;
a step of stirring the powder having a predetermined moisture content;
storing the stirred powder;
a step of regenerating wood pellets using the stored powder;
and storing the agitated powder alternately using two or more hoppers to receive or discharge the wood pellets.
According to the fifth means, it is possible to prevent troubles such as generation of dust and ignition in the transportation equipment. In addition, it is possible to reduce the frequency of stopping the equipment for maintenance work and improve the operating efficiency.

According to the present invention, as a sixth means for solving the above problems, in the fifth means, the step of storing the stirred powder is
To provide a method for recycling wood pellets characterized by alternately receiving and discharging wood pellets using two or more hoppers.
According to the sixth means, it is possible to sufficiently absorb water into the powder and uniformly add water to the powder. In addition, since the entire powder is moistened, the generation of dust can be reduced.

According to the present invention, in the receiving, storing, and discharging equipment for wood pellets, by providing the recycling equipment downstream of the receiving hopper for wood pellets, which have a high pulverization rate, dust generation and ignition troubles in the conveying equipment can be prevented. can be prevented. In addition, it is possible to reduce the frequency of stopping the equipment for maintenance work and improve the operating efficiency.

FIG. 2 is an explanatory diagram of a recycling facility for wood pellets according to the present invention. 1 is a processing flow of a method for recycling wood pellets of the present invention. FIG. 2 is an explanatory diagram of conventional wood pellet storage and transportation equipment.

An embodiment of the wood pellet recycling equipment and method of the present invention will be described in detail below with reference to the drawings.
[Wood pellet recycling equipment 10]
FIG. 1 is an explanatory diagram of a recycling facility for wood pellets according to the present invention.
The wood pellet recycling equipment 10 of the present invention includes a storage hopper 20 that collects the powder generated in the wood pellet storage and transportation equipment, and a moisture content that receives the powder in the storage hopper 20 and measures the moisture content of the powder. A measuring hopper 30, a water adding means 40 for adding water so that the powder in the moisture measuring hopper 30 has a predetermined moisture content, and a molding material storage hopper 50 for receiving the powder adjusted to the predetermined moisture content and stirred. , a molding machine 60 that manufactures wood pellets using the stored powder, and a recycled pellet storage hopper 70 that receives the wood pellets from the molding machine 60 .
The wood pellet recycling facility 10 of the present invention is provided downstream of a wood pellet receiving hopper that pulverizes at a high rate in the wood pellet receiving, storing, and discharging facility.

The storage hopper 20 is a hopper (tank) that collects and temporarily stores the wood pellets discharged to the screw conveyor 1 of the subsequent combustion equipment and the separated powder when receiving the wood pellets transported by the truck or transport conveyor. be. The storage hopper 20 is controlled so that it is intermittently discharged when a predetermined amount of powder accumulates so as not to run out of the molding material in the subsequent recycling process.
The moisture measurement hopper 30 is a hopper that temporarily stores the powder discharged from the storage hopper 20 and measures the moisture content of the powder in the hopper.
The powder obtained by pulverizing wood pellets is wood powder that has been once formed into pellets, and has little variation in powder size and water content. Therefore, the amount of water necessary for remolding should be added to the water content of the powder measured in advance. Specifically, the weight of powder accumulated in the moisture measurement hopper 30 is measured. Then, water is added according to the weight of the wood flour by means of adding water 40, which will be described later. In addition, an electric moisture meter may be installed during transportation for the purpose of improving the reliability of measured values. For example, a method that converts the electrical resistance of wood flour into moisture content (calculate moisture content from the electrical resistance value in advance by adding a coefficient that corrects the resistance characteristics of objects with different shapes, such as wood flour and wood chips). It may be measured continuously in a short period of time using an electric resistance moisture meter.
The hydrating means 40 is a water supply pipe or the like that is connected to the water content measurement hopper 30 to add water to the powder in the hopper. The adding means 40 can arbitrarily adjust the flow rate by a flow control valve, and can control the water content so as to obtain a powder having a predetermined water content. Such a hydrating means 40 can add a predetermined amount of water necessary for pelletizing to the powder whose water content has decreased during production of wood pellets.
The powder adjusted to a predetermined moisture content required for pelletization in the moisture measurement hopper 30 is discharged to an agitator (also referred to as a mixer) 42 and agitated.
The water adding means 40 may be connected to a stirrer 42 to add water to the powder being stirred.

The molding material storage hopper 50 is composed of two or more hoppers, and stores the powder discharged from the preceding stirrer by a predetermined amount in each hopper. The molding material storage hopper 50 employs batch mode operation with alternating powder intake and discharge. The molding material storage hopper 50 having such a configuration can sufficiently absorb water into the powder and uniformly add water to the powder. In addition, since the entire powder is moistened, the generation of dust can be reduced. The molding material storage hopper 50 is a hopper for supplying powder to the molding machine 60 in the subsequent stage.
The forming machine 60 is provided with a small cylindrical hole made of metal called a die, and is used to press-in the raw material powder and form it into wood pellets. The molding machine 60 softens and plasticizes the sugars and lignin in the wood due to the frictional heat generated by the frictional force with the inner walls of the small cylindrical holes during compression and the moisture in the raw material powder. Then, the high-density pellets immediately after being extruded from the small holes are cooled and hardened.

The recycled pellet storage hopper 70 is a hopper that temporarily stores wood pellets formed by recycling the powder in the molding machine 60 . The recycled pellet storage hopper 70 employs a cyclone system having an air supply port 74 and an exhaust port 76 of the ventilation means 80 on the inner wall of the hopper. The ventilation means 80 includes an air supply pipe 82, an air exhaust pipe 84, and a fan 86 (a blower or an exhaust fan can be employed. FIG. 1 employs an exhaust fan) to supply air to the hopper. After receiving the wooden hopper molded by the molding machine 60 , the recycled pellet storage hopper 70 having such a configuration is ventilated inside the hopper by the ventilation means 80 . At this time, it is possible to increase the strength by cooling the wood pellets which are heating after molding. In addition, powder adhering to the pellets during the molding process can be removed.
Further, the recycled pellet storage hopper 70 can discharge the stored wood pellets to the screw conveyor 1 or the transport conveyor for supplying the combustion equipment.

[Wood pellet recycling method]
The method for recycling wood pellets according to the present invention having the above configuration will be described below.
FIG. 2 is a processing flow of the wood pellet recycling method of the present invention.
(Powder storage) Step 1
When wood pellets transported by a truck or a transport conveyor are received, the wood pellets discharged to the screw conveyor 1 of the subsequent combustion equipment and the separated powder are collected and temporarily stored in a storage hopper 20.例文帳に追加
(Powder moisture measurement) Step 2
The powder discharged from the storage hopper 20 is temporarily stored in the moisture measurement hopper 30, and the moisture content of the powder in the hopper is measured. The powder is dehydrated during the production of wood pellets. Water is added to the entire powder by water adding means 40 so as to obtain a predetermined amount of water required for pelletization.

(Stirring) Step 3
The powder adjusted to a predetermined moisture content by the moisture measurement hopper 30 is discharged to the stirrer 42 and stirred.
(Molding material storage) Step 4
The powder discharged from the stirrer 42 is divided into predetermined amounts for each hopper of the molding material storage hopper 50 and stored. The forming material storage hopper 50 adopts a batch type operation in which the powder is alternately received and discharged, so that the powder can be sufficiently soaked with water and uniformly hydrated. In addition, since the entire powder is moistened, the generation of dust can be reduced.

(Pellet molding) Step 5
Wood pellets are produced by press-fitting raw material powder into a small metal cylindrical hole called a die of a molding machine 60 and molding it. At this time, sugars and lignin in the wood can be softened and plasticized by heat due to frictional heat generated by the frictional force with the inner walls of the small cylindrical holes during compression and moisture in the raw material powder.
(Storage of recycled pellets) Step 6
Wood pellets formed by regenerating powder in a molding machine 60 are temporarily stored in a regenerated pellet storage hopper 70. - 特許庁Recycled pellet storage hopper 70 adopts a cyclone system having air supply port 74 and exhaust port 76 of ventilation means 80 on the inner wall of the hopper. be ventilated. At this time, it is possible to increase the strength by cooling the wood pellets which are heating after molding. In addition, powder adhering to the pellets during the molding process can be removed.
Further, the recycled pellet storage hopper 70 can discharge the stored wood pellets to the screw conveyor 1 or the transport conveyor for supplying the combustion equipment.

According to the wood pellet recycling equipment and method of the present invention, in the wood pellet receiving, storing, and discharging equipment, the recycling equipment is provided downstream of the receiving hopper for wood pellets that are highly pulverized. It is possible to prevent dust generation and ignition troubles in transportation equipment. In addition, it is possible to reduce the frequency of stopping the equipment for maintenance work and improve the operating efficiency. In addition, inconvenience due to dust generation can be eliminated. In addition, the frequency of cleaning work in the narrow conveyor can be reduced, eliminating the risk of fire.
The preferred embodiments of the present invention have been described above. However, the present invention is not limited to the above-described embodiments, and various modifications are possible without departing from the gist of the present invention.
Moreover, the present invention is not limited to the combinations shown in the embodiments, and can be implemented in various combinations.

INDUSTRIAL APPLICABILITY The wood pellet recycling equipment and method of the present invention have industrial applicability particularly in the field of biomass resource production.

1 Screw conveyor 2 Pellet receiving conveyor 3 Pellet storage hopper 4 Discharge conveyor 10 Wood pellet recycling equipment 20 Storage hopper 30 Moisture measurement hopper 40 Water supply means 42 Stirrer 50 Molding material storage hopper 60 Molding machine 70 Recycled pellet storage hopper 74 Air supply port 76 exhaust port 80 ventilation means 82 air supply pipe 84 exhaust pipe 86 fan

Claims (3)

A storage hopper that collects the powder generated by the storage and transportation equipment for wood pellets,
a moisture measurement hopper that receives the powder in the storage hopper and measures the moisture content of the powder;
water adding means for adding water so that the powder in the water content measurement hopper has a predetermined water content;
a molding material storage hopper that receives the powder that has been adjusted to the predetermined moisture content and stirred;
a molding machine for producing wood pellets using the stored powder;
, wherein the molding material storage hopper is of a batch type that is provided with two or more hoppers and alternately receives and discharges them . The wood pellet recycling facility of claim 1 , comprising a recycled pellet storage hopper for receiving the wood pellets from the molding machine,
A wood pellet recycling facility, wherein the recycled pellet storage hopper is equipped with ventilation means for ventilating the inside of the hopper. A step of collecting and storing powder generated in a storage and transportation facility for wood pellets;
measuring the moisture content of the stored powder;
a step of adding water when the powder whose water content is measured is less than a predetermined water content;
a step of stirring the powder having a predetermined moisture content;
storing the stirred powder;
a step of regenerating wood pellets using the stored powder;
and storing the stirred powder,
A method for recycling wood pellets, characterized in that two or more hoppers are used to alternately receive and discharge wood pellets.

Images