KR101797431B1 - Multi-Pass Continuous type High-moisture waste and biomass dryer - Google Patents

Abstract

The present invention relates to a high-efficiency, large-capacity thermal decomposition treatment apparatus which uses hot air and organic wastes. The present invention is to provide a continuous high-moisture content biomass dryer which, in a pre-treatment process to use organic wastes, which may be made into solid fuel such as dried food wastes and agricultural by-products, dries high-moisture content raw materials such as food wastes and agricultural by-products to supply the raw materials to a thermal decomposition apparatus. The conventional technologies do not reflect drying characteristics of high-moisture content raw materials, leading to a great deal of energy consumed for drying and a long drying time. To settle those issues, the present invention is to provide a continuous high-moisture content biomass drying apparatus, which divides sections into three steps to fit the drying steps and controls a volume and a temperature of hot air to reduce the use of thermal energy and to reduce drying time. According to the present invention, the continuous multi-stage drying apparatus for biomass containing much moisture comprises: a perforated conveyor; a raw material supply silo; a screw conveyor; a height adjustment stick; a first hot air supply duct; a second hot air supply duct; five intake ducts; and a third hot air supply duct.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a multi-pass continuous type high-moisture waste and biomass dryer for a high-

The present invention relates to a high-efficiency and high-capacity pyrolysis apparatus using organic wastes utilizing hot air, and is characterized in that it is used in a pretreatment process for using organic wastes capable of solid fuel conversion such as dried food waste and agricultural by- As well as a continuous high moisture content biomass dryer in which a raw material having a high water content is dried and supplied to a pyrolysis apparatus.

  Background Art [0002] Conventionally, there is an invention related to a continuous-type agricultural product dryer using a heat pump system. A plurality of conveyor conveying parts arranged in a line so as to move the drying drum carrying the laundry to be dried, one end part serving as a charging part and the other end part serving as a discharging part, and a plurality of conveyor moving parts And a plurality of drying chambers, each of which is installed in the drying chamber and provided with a moving passage through which the drying drum moves, wherein one of the drying chambers is provided for each of the two drying chambers to circulate the refrigerant, A heat pump system to supply the other drying chamber to the other drying chamber; A heat agitation device in which one of the two drying chambers provided with the hydraulic pump system is installed to stir air between the drying chambers; And a plurality of blowers installed on top of the plurality of drying chambers. However, the present invention is not suitable for drying a raw material having a high moisture content as in the present invention.

  Another conventional art is a continuous type agriculture and mariculture drying system capable of reducing drying time and drying cost by continuously drying the agricultural and horticultural products using hot air, radiant heat, and microwave energy. A first conveyor for conveying the object to be dried to the discharge port side of the first drying chamber, and a second conveyor for heating the air by sucking the outside air to form the first drying chamber on the inlet side of the first drying chamber, A first drying device including a hot air dryer for discharging the microwave to the inside of the drying chamber and a first microwave dryer for emitting microwaves into the first drying chamber at the discharge side of the first drying chamber; A second drying chamber having a charging port and a discharging port on both sides in the longitudinal direction and a second drying chamber for discharging the drying object discharged to the discharge port of the first drying chamber into the inlet port of the second drying chamber from the inlet port side to the discharge port side of the second drying chamber, A second drying device including a conveyor and a second microwave dryer provided to discharge microwaves into the second drying chamber; A third conveyor for conveying from the inlet to the outlet a discharge space which is discharged to the outlet of the second drying chamber and which is introduced into the inlet of the third drying chamber, A dehumidifying and temperature controller for sucking and cooling the air inside the third drying chamber to supply the heated air to the inside of the third drying chamber, and a controller for detecting the temperature and humidity inside the third drying chamber, And a controller for controlling the operation of the regulator. However, since they are connected in multiple stages, energy loss is large between the transports, and various energy types are used. Therefore, the configuration of the apparatus is complicated and the cost is high.

Patent Document 10-2013-0134556 Patent Registration No. 10-0755384

Drying is essential to use agricultural by-products and food waste as raw materials. The above conventional techniques have a disadvantage that not only the energy is used much but also the drying characteristics of the high moisture content raw materials such as the agricultural products and the food waste are not reflected, so much energy is consumed in drying and the drying time is long. To solve this problem, the present invention provides a continuous multi-stage drying and pyrolysis apparatus for a biomass containing high water content which controls the amount and temperature of hot air in accordance with the drying step.

In order to solve the above-mentioned problems, the present invention provides a perforated conveyor (310) having perforations formed on a conveyor belt and allowing air to pass therethrough up and down, and an overhead conveyor (310) provided on one side of the perforated conveyor A screw conveyor (210) is provided at one end of a raw material supplier (200) to supply raw materials to the perforation conveyor (310), and a screw conveyor (210) is provided at one end of the perforation conveyor A high puddle bar 320 for uniformly adjusting the height of the raw material supplied from the raw material feeder 200 to a predetermined height is provided so as to prevent the hot air from escaping to a point at which the sediment elevation is low due to the difference in the accumulation height of the raw material, The lower part of the perforation conveyor 310 is divided into three pieces to supply the hot air different in temperature and wind speed according to the nature of the biomass material at the upper part Wherein the first compartment is a compartment in which the raw material is supplied at a low temperature and the highest moisture content, so that the raw material can be heated, and hot air having the highest temperature and medium pressure can be obtained A first hot air duct 330 for allowing the raw material to be effectively heated by the heat of hot air, and the raw material passing through the second compartment passes through the raw material which is still at a high temperature and still has a high water content, In order to supply a large amount of dry air in order to supply a large amount of dry air in order to remove moisture on the surface of the raw material, air having passed through the water removing device and hot air at a high temperature are mixed to supply a large amount of air A second hot air supply duct for supplying high-pressure air of a dry middle temperature), a second hot air supply duct There is a problem that the hot air can escape to the side where the air resistance is low because a little moisture still remains and the temperature is also relatively lowered and there is a lot of pores through which the air can escape between the raw materials due to drying The upper part of the third compartment is provided with five suction ducts at a distance of 3 cm from the raw material so that the hot air supplied from the lower part is discharged through the suction duct so that the hot air can be uniformly passed through the raw material And a third hot air supply duct for heating and drying the raw material by supplying a hot air of a low temperature and a low pressure so that the moisture inside the raw material can be rapidly diffused to the surface by raising the temperature of the raw material supplied to the pyrolysis unit at the downstream stage, (350). ≪ RTI ID = 0.0 > 8. < / RTI > And an object thereof is to provide to the device (100).
In addition, the present invention is characterized in that at the end of the continuous multi-stage drying and pyrolysis apparatus (100) for biomes containing high water content, a chopper (400) And to provide a continuous multistage drying and pyrolysis apparatus (100) for biomass.
In addition, the present invention provides continuous multistage drying and pyrolysis for biomes containing high water content which supplies hot air through the duct for supplying the hot air from the perforation conveyor (310) to the first compartment, the second compartment and the third compartment And an object of the present invention is to provide a device.

In order to solve this problem, the present invention provides a continuous high moisture content biomass dryer for controlling the amount and temperature of hot air in accordance with the drying step. The hot air is supplied to the first compartment, the second compartment and the third compartment through a duct In particular, five suction ducts are disposed at the upper part of the third compartment with a distance of 3 cm between the raw material and the hot air supplied from the lower part is discharged through the suction duct, so that the hot air is uniformly passed through the raw material , And the air supplied from the lower end is heated to a high temperature to supply the raw material to the pyrolysis unit, and the heat inside the raw material is rapidly diffused to the surface, thereby supplying heat to the raw material to maximize thermal efficiency can do.

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1 is a block diagram of an entire system of the present invention

Drying is essential to use agricultural by-products and food waste as raw materials.
Further, in order to treat a large amount of drying in a small space, it is necessary to dry the raw material using a perforated conveyor. In the case of dry drying, the lower part contacting with the hot air is first dried first, and when the height is relatively higher, the hot air flows through the lower part And the moisture released from the lower part is accumulated in the upper raw material which is a relatively cool raw material.
In order to solve this problem, there is a case where a perforation conveyor is constituted by two stages or three stages. However, in order to solve such a problem, the present invention divides three compartments under one perforated conveyor, A drying device for a high moisture content raw material capable of supplying hot air having different characteristics to each of the compartments by measuring the temperature and humidity of air and drying both the upper and lower portions of the raw material on the perforated conveyor belt, ≪ / RTI >
For this purpose, it is necessary to provide a piercing conveyor 310 having a length of 5 to 10 m, a raw material input port provided on one side of the perforation conveyor 310, a raw material supply conveyor for supplying a raw material to the raw material input port, The conveyor 310 prevents the hot air flowing from the lower part to the upper part of the conveyed material to a predetermined height by uniformly feeding the supplied raw material to the one place due to the difference in the height of the sediment. The lower part of the perforated conveyor 310 is divided into three sections and supplies hot air having different temperatures and wind speeds. Because the first compartment is a compartment where raw materials are supplied at the lowest temperature and the highest moisture content, the objective is to transfer the heat of the hot wind to the raw material rather than the wind speed. Therefore, hot air with the highest temperature and medium pressure is supplied. The second compartment is high temperature, but the raw material still high in water content still passes through, so that it is intended to remove moisture from the surface of the high temperature raw material in a large amount of air volume. However, it provides a large amount of dry air for quick drying. That is, air having passed through the water removal device is mixed with hot air at a high temperature to supply a large amount of air though the temperature is low. Therefore, medium-temperature, high-pressure air is used. The third compartment located at the end has a problem in that it can dry out the raw material which still has a slight amount of moisture and the temperature is relatively lowered and also the space between the raw materials is large,
Therefore, the upper part of the third compartment is provided with five suction ducts located at a distance of 3 cm from the raw material so that hot air supplied from the lower part is discharged through the suction duct, thereby allowing the hot air to pass through the raw material uniformly. The air can increase the temperature of the raw material supplied to the pyrolysis apparatus and heat the raw material by supplying hot air at a low temperature and high pressure so that the moisture inside the raw material can spread rapidly to the surface, thereby maximizing the thermal efficiency.

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100: Continuous multistage drying and pyrolysis device for biomass with high water content
200: raw material supplier
210: Screw conveyor
310: perforated conveyor
320: High-pitched bar
330: First hot air supply duct
340: second hot air supply duct
350: Third hot air supply duct
360: Suction duct
370: hot air supply duct
380: Hot Air Suction Duct
400: Chopper
500: Screw conveyor for conveying

Claims (4)

A piercing conveyor having a perforation formed in a conveyor belt and capable of passing air upward and downward; a raw material supplier provided at an upper portion of one side of the perforated conveyor to supply the biomass raw material to the perforated conveyor, A screw conveyor is provided so that the raw material can be supplied smoothly and a high puddle rod for adjusting the height of the raw material supplied from the raw material supplier to a predetermined height is provided on one side of the perforated conveyor, The lower part of the perforated conveyor is divided into three compartments in order to supply the hot wind different in temperature and wind speed according to the nature of the biomass material in the upper part, The biomass feedstock has a low temperature and the highest moisture content A first hot air blower for supplying the hot air having the highest temperature and medium pressure so that the raw material can be heated and the air resistance can be also obtained by heating the raw material by hot air, Since the raw material passing through the supply duct and the second compartment is at a high temperature but still has a still high moisture content, it is required to supply a large amount of dry air in order to remove moisture at a high temperature at a high temperature in a large amount of air A second hot air supply duct for supplying a dry medium temperature high pressure air which is supplied at a low temperature but supplies a large amount of air by mixing the air having passed through the moisture removing device and the hot air to supply a large amount of dry air, The compartment is in a state where the temperature is relatively lowered, and air can pass between the raw materials due to drying The third compartment is provided with five suction ducts located at a distance of 3 cm from the raw material, so that the hot air supplied from the lower part The temperature of the raw material supplied to the downstream pyrolyzing device is increased and the temperature of the raw material is increased so that the moisture inside the raw material can be rapidly diffused to the surface, And a third hot air supply duct for supplying the hot air of low pressure to heat and dry the raw material. The continuous multi-stage drying apparatus for biomass containing high water content The method according to claim 1,
A continuous multi-stage drying apparatus for biomass containing high water content, characterized by further comprising a chopper at the end of the continuous multi-stage drying apparatus for biomes containing high water content, which can be used in the next step by pulverizing the biomass raw material The method according to claim 1,
Wherein the hot air is supplied to the first compartment, the second compartment, and the third compartment through a duct for supplying the hot air to the perforated conveyor. 3. The method of claim 2,
Wherein the chopper further comprises a screw conveyor for conveying a raw material at a rear stage of the chopper.

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