RU2732325C1 - Condensation drier - Google Patents

Abstract

FIELD: drying equipment.SUBSTANCE: condensation dryer relates to drying equipment, specifically to condensation driers, and can be used for drying of lumber and vegetal raw materials. Drier includes drying chamber 1 with circulation, conditioning and heat pump, having calorifier 2 and drier 3. Drier 3 houses condensate collector 4 and condensate trap 5. Circulation and air conditioning system comprises fan 6 and has a perforated false ceiling 7, false walls 8 and false floor 9. Behind false walls 8 on both sides of drying chamber 1 heat exchangers are arranged in the form of a heat pump drier 3. False floor 9 is equipped with air injection nozzles 10, main calorifier 11 is located above it, in which liquid heat carrier circulates, heat exchangers in the form of calorifier 2 of compression heat pump are arranged under it in side parts of drying chamber 1. Compressor 12 together with fan 6 are connected with internal combustion engine 14 outside drying chamber, dryer is equipped with gasifier 17. Internal combustion engine 14 and gasifier 17 are equipped with heat exchanger of "water-air" type 16 for heating of liquid heat carrier, as well as circulation pump for supply of liquid heat carrier into main calorifier 11.EFFECT: invention allows providing autonomy due to generation of own electric power from wood and vegetal wastes and reducing costs due to use of a compression heat pump in it.1 cl, 1 dwg

Description

The invention relates to drying technology, specifically to condensation dryers and can be used for drying sawn timber and plant materials.

Known drying chamber for drying and other heat and moisture treatment of various materials, containing an insulated housing with closed end openings for loading and unloading material and a longitudinal vertical diaphragm, condensing equipment, as well as a fan unit with a built-in humidifier, see RU Patent No. 2338136, IPC F26B 9/06 (2006.01), 2008.

The disadvantages of the known drying chamber are the content of complex condensation equipment combined with a fan unit for heating the drying air, which leads to a significant increase in the cost of the drying unit and a decrease in energy efficiency.

The closest in technical essence is a condensation dryer, which includes a drying chamber in the form of a room, equipped with a circulation and air conditioning system and a heat pump, which has heat exchangers in the form of a heater and a dehumidifier, a condensate collector and a condensate drain are located under the dehumidifier, the circulation and air conditioning system contains fans and has a perforated a false ceiling, in which the dryer contains an absorption lithium bromide heat pump-utilizer as a heat pump, which is used to obtain cold and hot water supplied to recuperative water-to-air heat exchangers, the latter are located inside the room, inside the room above the false ceiling there are reversible fans and recuperative heat exchangers of the "water-to-air" type, recuperative heat exchangers of the "water-to-air" type are located on both sides of the fans on the suction and discharge sides, performing the functions of dehumidifiers and air heaters, respectively , while changing their functions when the air flow is reversed, the dryer has a system for supplying a heat carrier (water) from an absorption lithium bromide heat pump-utilizer to recuperative heat exchangers, made in such a way that hot water enters the heat exchangers located on the discharge side of the fans, and cold water enters the heat exchangers located on the suction side of the fans, and when the air flow is reversed, the flows of cold and hot water change their direction of movement, while the absorption lithium bromide heat pump-utilizer with heat exchangers in the form of an air heater and a dryer are located outside the drying chamber, cm . RU Patent No. 2499211, IPC F26B 9/06 (2006.01), 2013.

The disadvantages of this condensation dryer are its stationary nature, the need to be connected to electricity, and the presence of a complex and expensive heat pump in the dryer, which is necessary for the dryer to operate properly.

The technical problem is the creation of an autonomous condensation dryer due to the generation of its own electricity by gasification of wood and plant waste, as well as a reduction in the cost of a condensation dryer due to the use of a compression heat pump in it.

The technical problem is solved by a condensation dryer, which includes a drying chamber in the form of a room, equipped with a circulation and air conditioning system and a heat pump, which has heat exchangers in the form of an air heater and a dehumidifier, a condensate collector and a condensate drain are located under the dehumidifier, the circulation and air conditioning system contains a fan and has a perforated false ceiling, according to According to the invention, the circulation and air conditioning system additionally has false walls, behind the false walls on both sides of the drying chamber there are heat exchangers in the form of a heat pump dehumidifier, and a raised floor equipped with nozzles for air injection, a main heater is located above the raised floor, in which the liquid heat carrier circulates, under the raised floor in the side parts of the drying chamber there are heat exchangers in the form of a heat pump heater, as a heat pump it contains a compression heat pump, the heat pump additionally contains a compressor, a compressor together with a fan are connected to an internal combustion engine outside the drying chamber, a condensation dryer is equipped with a gasifier, an internal combustion engine and a gasifier are equipped with a water-to-air heat exchanger for heating the liquid heat carrier, as well as a circulation pump for supplying a liquid heat carrier to the main heater.

The solution of the technical problem makes it possible to give the condensation dryer autonomy due to the generation of its own electricity by gasification of wood and plant waste, as well as to reduce the cost of the dryer due to the use of a compression heat pump in it.

Condensing dryer, see FIG. 1, includes a drying chamber 1 in the form of a room, equipped with a circulation and air conditioning system and a heat pump, which has heat exchangers in the form of an air heater 2 and a dehumidifier 3, a condensate collector 4 and a condensate drain 5 are located under the dehumidifier, the circulation and air conditioning system contains a fan 6 and has a perforated false ceiling 7. The circulation and air conditioning system additionally has false walls 8, behind which on both sides of the drying chamber are heat exchangers in the form of a dehumidifier 3, and a raised floor 9 equipped with nozzles 10 for air injection, the main heater 11 is located above the raised floor, in which the heated liquid heat carrier circulates. Above the raised floor 9, in the lateral parts of the drying chamber 1, there are heat exchangers in the form of a heater 2. It contains a compression heat pump as a heat pump. The compression heat pump contains a compressor 12, which, together with a generator 13, is connected to an internal combustion engine 14 and is located outside the drying chamber. The generator 13 is connected to the fan 6 of the circulation and condensing system and to the circulation pump 15 for supplying the liquid heat carrier through pipes from the water-to-air heat exchanger 16 to the main air heater 11. The condensation dryer is equipped with a gasifier 17, which generates generator gas for operating the internal combustion engine 14. The gasifier 17 contains a cyclone 18 and a filter 19. The internal combustion engine 14 and the gasifier 17 are equipped with a water-air heat exchanger 16 for heating the liquid heat carrier. It contains water as a heat transfer fluid. The compression heat pump contains freon as a refrigerant.

FIG. 1 shows a diagram of the device of a condensation dryer and a diagram of the aerodynamic path of the coolant (air) movement during drying with forced circulation in the drying chamber.

Drying of the material is carried out as follows: the material to be dried is placed in the drying chamber 1 of the condensation dryer in the form of a stack for sawn timber or perforated sheets for plant materials. After loading the material and closing the chamber, the material is heated by heating the air of the drying chamber 1, for this, the fan 6 of the circulation and condensation system is switched on for forced circulation of the air in accordance with the aerodynamic path scheme and the main heater 11. After the stage of heating the material, the drying stage is carried out when the fan 6 is off, for this, the heat pump is turned on, which contains the compressor 12, heat exchangers in the form of a dryer 3 and a heater 2. At the drying stage, a natural circulation of the air occurs due to the operation of heat exchangers in the form of a dryer 3 of a compression heat pump located behind the side false walls 8, and heat exchangers in the form of an air heater 2 of a compression heat pump located in the lateral part above the raised floor 9 due to the temperature difference. The heating stage is continued until the temperature of the material reaches 70 ° C, the drying stage is continued until the material is cooled to a temperature of 40 ° C. Drying consists of alternating stages of heating and drying (impulse drying), which eliminates the need for intermediate and final moisture-heat treatment, and continues until the moisture content of the material reaches 6-8%.

The condensation dryer operates as follows: wood and / or plant waste in a crushed form is fed into the gasifier 17, in which the thermochemical conversion of wood and / or plant raw materials takes place, with the subsequent production of generator gas. The resulting generator gas, after cleaning in a cyclone 18, enters a water-air heat exchanger 16, where it is cooled by transferring thermal energy to a liquid heat carrier, which, using a circulation pump 15, is sent to the main heater 11 to heat the air in drying chamber 1 The generator gas, after cooling and additional purification in the filter 19, enters the internal combustion engine 14, the combustion of which generates thermal and mechanical energy. Thermal energy in the form of waste flue gases enters the water-to-air heat exchanger 16, after cooling the flue gases are emitted into the atmosphere. Mechanical energy is used to implement impulse drying in the form of alternating heating stages and a drying stage in a drying chamber 1. To carry out the heating stage, an electric generator 13 is driven by a belt drive from an internal combustion engine 14, which generates electricity for a fan 6, which circulates an air medium in drying chamber 1 at the stage of drying, and for the circulation pump 15, which supplies the heated liquid heat carrier to the main heater 11 at the stage of heating. To carry out the drying stage by means of a belt drive from the internal combustion engine 14, the compressor 12 of the heat pump is driven to dry the air in the dryer 3 and the natural circulation of the air due to the operation of the heat exchangers in the form of a dryer 3 and a heater 2. Condensed moisture in the heat exchangers in the form of a dryer 3 during the drying process, it accumulates in the condensate trap 4 and is removed through the condensate drain 5.

Thus, the invention makes it possible to give the condensation dryer autonomy by generating its own electricity from wood and plant waste and to reduce costs due to the use of a compression heat pump in it.

Claims (1)

Condensation dryer, including a drying chamber in the form of a room, equipped with a circulation and air conditioning system and a heat pump, which has heat exchangers in the form of an air heater and a dehumidifier, a condensate collector and a condensate drain are located under the dehumidifier, the circulation and air conditioning system contains a fan and has a perforated false ceiling, characterized in that the circulation and air conditioning system additionally has false walls, behind the false walls on both sides of the drying chamber there are heat exchangers in the form of a heat pump dehumidifier and a raised floor equipped with nozzles for air injection, the main heater is located above the raised floor, in which the liquid heat carrier circulates, under the raised floor in the side parts of the drying chamber heat exchangers are located in the form of a heat pump heater, as a heat pump it contains a compression heat pump, the heat pump additionally contains a compressor, the compressor together with the fan are connected to the motor With an internal combustion heater outside the drying chamber, the condensation dryer is equipped with a gasifier, the internal combustion engine and gasifier are equipped with a water-to-air heat exchanger for heating the liquid heat carrier, as well as a circulation pump for supplying the liquid heat carrier to the main heater.

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