UA13421U - Appliance for thermal processing of organic wastes - Google Patents

Abstract

The appliance for thermal processing of organic wastes has furnace chamber, with thermal chamber installed in it, at least one combustion chamber, at the outlet of this one smoke duct is counted, and system for loading waste and for removal of residual products of thermal treatment. All the chambers, namely: the furnace, the thermal and the combustion chamber are connected to each other. At that the system for loading waste and for removal of residual products of thermal treatment is separately for the furnace and the thermal chambers the unit for loading waste and the unit for removal of residual products of thermal treatment.

Description

Description of the invention

The utility model refers to the field of waste disposal, namely to the design of equipment intended for the processing of household and industrial waste and can be used for the destruction by heat treatment of organic garbage and household and industrial waste in the chemical, woodworking industry, in the communal household economy, and as well as agricultural production.

Thermal processing meets both sanitary-epidemiological and environmental requirements.

A large amount of equipment for thermal processing of garbage and waste is known. In particular, furnaces are known, which as a rule have a lined furnace chamber for burning garbage, in which the garbage is placed directly in the chamber (EPO applications Mo0405375, E23055/00; Mo0509774, E2309/00; US patent Mo5099771)| or on special grids | PCT application Mo92/20965, E2301/00; French application Mo2665749, E23055/261.

The camera, and together with it, the garbage is heated using an electric heater | Japanese application Mo1-169227,

E2305/001 or under the action of a fuel injector (assistant USSR Mo1135969, P2305/00; Mo1605092, E2307/06; application PCT 75 Mo89/077036, g23O05/14).

Known structures in which the burning of garbage and waste is carried out either by supplying the air necessary for combustion | (US patent Mo5054405, E2305/00; PCT application Mo90/04741, P23(5/001), or without access to air - pyrolysis | EPO application Mo0486728 , E23055/027; ASSR Mo1548601, E2305/027; US patent Mo5040972,

E2305/121.

Thus, in the equipment of known designs, garbage is burned either in bulk in the combustion chamber, or on the grate of the combustion chamber. In the first case, the installation has significant dimensions and mass. In the second, the installation has a compact appearance, but there is a significant removal of unburned waste parts from the combustion chamber, which pollutes the environment and requires an additional combustion chamber.

As a prototype, a device for thermal processing of such organic waste as garbage was chosen, which contains a 22 furnace chamber, a thermal chamber installed in it and a combustion chamber connected to it. The device has a node for loading garbage and a node for removing residual products after heat treatment. The node for loading garbage is made in the upper part of the combustion chamber in the form of a hatch with a cover, which is a means for loading garbage into the thermal chamber. The unit for removing residual products after heat treatment is located at the bottom of the thermal chamber and is made in the form of a hatch with a cover. The combustion chamber has a chimney, which is connected to the atmosphere, with which the combustion chamber is connected. A pyrolysis chamber was chosen as the furnace chamber. Ha

The furnace chamber is made of heat-insulating material. The device is equipped with upper and lower nozzles, the upper one of which is located above the thermal chamber, and the lower one is located below the furnace chamber at the base M of the thermal chamber (patent KO Mo2117871, P2305/00, publ. 08/20/1998.1

The prototype device works as follows.

З Through the loading hatch, garbage is loaded into the thermal chamber and the hatch door is closed. At the same time (77) the hatch in the lower part of the thermal chamber is closed. The upper and lower nozzles are turned on. The garbage in the lower part of the thermal chamber is set on fire. Under the action of the flame of the nozzle torches, the thermal chamber is heated.

Garbage decomposes under the influence of high temperatures along the entire length of the chamber. Vapor-gaseous products, which were "formed during pyrolysis, from the thermal chamber fall on the torch of the upper nozzle of the combustion chamber, where Z 50 their combustion takes place. Their complete combustion takes place in the combustion chamber of the chimney. After complete incineration of garbage, the nozzles are turned off, the hatch for shipment in the thermal chamber is opened, and the ash is removed. Then reboot the device.

Thus, the known device is characterized by a low efficiency of burning garbage, due to the fact that for complete burning of garbage and combustion of vapor-gas-like products that were formed during burning, it is necessary to maintain a high temperature in the device, which is carried out at the expense of natural energy resources - such as gas, processing products oil, resulting in their high costs. оз The task of the useful model is to improve the design of the device for thermal processing of organic waste, in which, by changing the connections between the furnace and thermal chambers and the combustion chamber, it is possible to carry out thermal effects on organic waste simultaneously in the furnace and thermal chambers and at the expense of steam and gas thermal chamber waste activates the combustion process in the combustion chamber, which contributes to the maximum burning of garbage in the combustion chamber with minimal use of natural energy resources.

C At the same time, they provide the possibility of maximum combustion in the combustion chamber of residual steam and gas waste both from the furnace and from the thermal chambers, which eliminates environmental pollution.

The problem is solved by the fact that in the device for thermal processing of organic waste, which 29 contains a furnace chamber, a thermal chamber installed in it, at least one combustion chamber, at the exit of which a chimney is mounted, and a system for loading garbage and removing residual after thermal processing products, according to the useful model, all chambers, namely: furnace, thermal and combustion chamber are interconnected, while the system for loading garbage and for removing residual products after thermal processing is a node for loading garbage and 60 nodes for removing residual products after thermal processing.

The device can have two combustion chambers, each of which is connected to a furnace and thermal chambers.

To activate the combustion process in the initial period of the garbage burning process in the combustion chamber, the combustion chamber is connected to the air supply unit.

At the same time: because the node for loading garbage and the node for removing residual products after thermal processing of the combustion chamber are located in the lower part of the chamber; the node for loading the combustion chamber is made in the form of a pipeline, the node for removing residual products after thermal processing of the combustion chamber includes grates and a system of inclined trays located under them; the assembly for loading thermal chamber garbage is made in the form of a hopper located above the upper part of the chamber, equipped with means for its alternate opening and closing, located in its upper and lower parts, and a dispenser; the unit for removing residual products after thermal processing of the thermal chamber is made in the form of a pipeline, which is located in the lower part of the thermal chamber and passes through the furnace chamber. 70 For the possibility of heat utilization, the device for thermal processing of organic waste is equipped with a water-heating boiler with a cavity in which the combustion chamber and loading hopper are located, the shape of which repeats the contours of the combustion chamber and loading hopper. The water heating boiler in the lower part has hatches connected to the combustion chamber pipelines and pipelines for removing products of the thermal chamber after thermal processing. In addition, the water heating boiler is equipped with a water quantity dispenser and an expansion /5 tank.

At the same time, the chimney is equipped with filters, gas and smoke flow regulator, and the combustion chamber is equipped with control and regulation devices.

The device for thermal processing of organic waste is equipped with an exhaust system.

Designing the furnace and thermal chambers and the combustion chamber connected to each other and equipping the furnace and 2o thermal chambers with autonomous nodes for loading each of them with organic waste and nodes for removing residues after their thermal processing provides the possibility of simultaneous thermal processing in the furnace and thermal chambers of one and of the same species. At the same time, natural fuel is used only when igniting garbage in the combustion chamber. Further, the recycling process is carried out by activating the process of burning waste in the furnace chamber due to the steam-gas mixture from the thermal chamber, which contributes to the combustion of even wet garbage. This allows efficient thermal processing of organic waste almost without the use of natural coal and gas. At the same time, a high temperature is constantly maintained in all chambers, which makes it possible to burn waste as much as possible in them, and in the combustion chamber to process the remains of the burning process and heat treatment of the furnace and thermal chambers, which prevents their release into the atmosphere, which contributes to the maintenance of environmental ecology "- zo The essence of the useful model is explained by the drawing, which shows: in Fig. 1 - a schematic representation of the device for processing organic waste; c in Fig. 2 - section AA in Fig. 1. "Mr

A device for thermal processing of organic waste, which includes a combustion chamber 1, a thermal chamber 2 installed in it, at least two symmetrically located combustion chambers C and a system for loading garbage and removing residual products after thermal processing. All chambers, namely: furnace 1, thermal chamber 2 and combustion chamber C are interconnected. Each of the combustion chambers C is connected to the furnace 1 and thermal 2 chambers. All chambers, in order to exclude the accumulation of a steam-gas mixture in them and to prevent an explosion in the event of accumulation of gases, have the shape of bodies of rotation and do not have nooks, grooves, partitions, etc., that is, everything that can form spatial pockets, lagoons, containers (Fig. 1). "

The system for loading garbage and removing residual products after thermal processing is separately for furnace 1 and thermal 2 chambers a node for loading garbage and a node for removing residual products after thermal processing. ;" The furnace chamber 71 is made of heat-insulating material, namely, refractory brick. The node for loading garbage and the node for removing residual products after thermal processing of the combustion chamber 1 are located in the lower part of the chamber. At the same time, the node for loading garbage is made in the form of a pipeline 4.

The unit for removing residual products after thermal processing of the furnace chamber 1 includes grates 5 and a system of inclined trays 6 located below them. In the lower part of the chamber 1, under the grates 5, there is their blower 7 (Fig. 2), equipped with an opening 7 (Fig. 1) , which is also an opening for removing combustion products. An air supply unit in the form of a fan 8 is mounted with the garbage loading unit 5 at the entrance to the pipeline 4. The combustion chamber 1 is equipped with control and regulation devices (not shown in the drawing). as Thermal chamber 2 is a sealed chamber with a neck 9.

The assembly for loading the waste of the thermal chamber 2 is made in the form of a hopper 10 located directly above the mouth 9 of the chamber with a mouth that coincides with the mouth 9 of the chamber 2, and equipped in the upper part with a device 11 for opening and closing the chamber 2. The hopper 10 has bars 12 on top to open the hopper 10 and to load it. Bunker 10 is equipped with means for its alternate opening and closing, located in its upper and lower parts (not shown in the drawing). Bunker 10 is equipped with a dispenser (not shown in the drawing).

The unit for removing residual products after heat treatment of the thermal chamber 2 is made in the form of a pipeline 13, which is located in the lower part of the thermal chamber 2 and passes through the furnace chamber 1.

The thermal chamber 2 is equipped with two bypass channels 14, 15 located above its walls. Channels 14 are connected to combustion chamber 1, and channels 15 are connected to combustion chambers 3.

A chimney 16 is mounted at the exit of each of the combustion chambers, which is a metal pipe, the diameter of which depends on the amount of gas-smoke mixture, the working area of the pipe, and the removal speed. Chimney 16 is equipped 65 with a filter 17 for cleaning burnt gas mixtures that are released into the atmosphere, located outside the industrial enterprise, in which a device for cleaning organic waste is installed.

Chimney 16 is equipped with a gas-smoke flow regulator (not shown in the drawing).

The device for thermal processing of organic waste is equipped with a water heating boiler 18 with a cavity in which the combustion chamber 1 and loading hopper 10 are located. The shape of the cavity of the boiler 18 repeats

Contours of combustion chamber 1 and loading hopper 10. Boiler 18 is made of sheet refractory steel 10 mm thick and mounted directly at its installation site.

The water heating boiler 18 in the lower part has mounting holes (not shown in the drawing) hermetically connected to the loading pipelines 4 of the combustion chamber 1, and mounting holes (not shown in the drawing) hermetically connected to the pipelines for removing 13 after heat treatment of products thermal chamber 2. In addition, the 70 water heating boiler 18 has a pipeline 19 with a diameter of 100-150 mm or more for supplying hot water to heating objects and a pipeline 20 through which the spent and cooled water is returned to the boiler 18.

The water heating boiler 18 is equipped with a water dispenser 21, which is a water tank located above the level of the boiler 18.

To regulate the steam pressure of hot water, the water heating boiler 18 is equipped with an expansion tank 22.

The device is equipped with exhaust ventilation 23, located above the bars 12 of the bunker 10, which ensures the removal of decomposition products of organic substances, which in small quantities can enter the working room (not shown in the drawing).

A device for thermal processing of organic waste is nothing more than a mini-plant for burning garbage (Fig. 2).

The device for thermal processing of organic waste works as follows.

Household and industrial waste, sorted according to purpose, is delivered to the mini-plant by garbage trucks.

Before loading, open the holes in the pipeline 4 and the upper part of the hopper 10 - the bars 12. The lower part of the hopper 10 and the neck 9 of the thermal chamber 2 are closed. With the help of a belt conveyor or a scraper loader, the hopper 10, the volume of which is a one-time dose for loading the thermal chamber 2, is loaded through the open shelves 12. In the furnace chamber 1, garbage is loaded through pipelines 4. Into the thermal chamber 2, garbage is fed through the neck 9. For the upper part of the hopper 10 is closed, and the neck 9 of the thermal chamber 2 and the lower part of the hopper 10 are opened with the device 11. Then the waste is simultaneously fed into the combustion chamber 1 and the thermal chamber 2. At the same time, the thermal chamber 2 is loaded with waste weighing twice as much as the combustion chamber 1 After loading garbage into chambers 1 and 2, close the openings of the loading node 4 of the combustion chamber 1, the lower part of the hopper 10 and the device 11 close the neck 9 of the thermal chamber 2. Thus, the thermal chamber 2 becomes hermetically closed. After loading the thermal chamber 2, the lids 12 are opened and the hopper 10 g is again filled with waste. The hopper 10 filled with waste is closed again. Through the holes 7 of the blower 7, garbage is set on fire in the combustion chamber 1. To spread the fire throughout the volume of the chamber 1 for 2-3 minutes (me)

Зз5 Turn on the fan 8. When the fire occupies the entire volume of the combustion chamber 1, the fan 8 is turned off. Through "- viewing windows in the door (drawn not shown), the combustion process in chamber 1 is monitored and, if necessary, another portion of garbage is added. Unburnt residues of organic substances with high temperature from chamber 1 enter combustion chamber 3, where they burn completely.

During the burning of garbage in the combustion chamber 1, the thermal chamber 2 heats up and its temperature rises. At the same time, the lack of oxygen and draft in chamber 2 helps to create the necessary conditions for the penetration of organic waste. At a temperature of 702 in thermal chamber 2, phenol begins to be released. When a temperature of 450-6002C is reached in chamber 2, methane (CH )), hydrogen sulfide Noz), methanol (СНЗОН) - "» wood alcohol, and then resins burn, etc. begin to be released in chamber 2. Thus, a gas-smoke mixture is formed in chamber 2, which is divided into two flows. One flow through the bypass channel 14 enters the combustion chamber 1, and the second flow through the outlet channel 15 into the final combustion chamber 3. When entering the combustion chamber 1, the gas-smoke mixture, which - consists of phenol with a calorific value of 9000Ocal /m U, methane with a calorific value of 10,000 kcal/m 3, hydrogen sulfide with a calorific value of 9,000 kcal/m 3 and methanol with a calorific value of 11,000-12,000 kcal/m 3, increases the temperature in the combustion chamber 1 and activates the combustion process to such a temperature that even wet garbage can burn in chamber 1 without the use of additional natural fuel. ko 20 The second stream of unburned remains of organic substances of combustion chamber 1, which enters combustion chamber 3, taking into account the due to its high heat capacity, it also burns under the influence of high temperature. Thus, in combustion chamber 1, the physical process of burning organic substances in the presence of oxygen takes place, and in thermal chamber 2, in hermetic conditions, the physical and chemical process of decomposition of organic substances into volatile and combustible components takes place, with subsequent burning of these components in the final combustion chamber 3 .

The number of combustion chambers C can be 2-4-6 depending on the volume of the thermal chamber 2 and the type of fuel C (wood, coal, sunflower seed meal, buckwheat, etc.). The amount of gases released as a result of the thermal reaction of the decomposition of organic substances in chamber 2 can have a critical volume, which is explosive when mixed with oxygen. An explosion can occur when there are two volume units of hydrogen and nine volume units of methane per unit volume of oxygen. Thus, knowing the volume of oxygen that flows from 60 combustion chamber 1 to combustion chamber 3, it is always possible to calculate how many parts the volume of gas released as a result of the thermal reaction in chamber 2 must be divided into in order to prevent a critical mass for explosion Therefore, the number of cameras C can be different. Doubling the amount of oxygen leads to a safe situation. To avoid such a situation, forced air blowing is carried out.

From the combustion chamber C through the chimney 16 through the filters 17, the exhausted and purified combustion products in the form of a gas-smoke mixture are released into the atmosphere.

During the opening period of the lid 12, the exhaust ventilation system works to extract the gas-smoke mixture, which can accumulate in the waste, in the hopper 10.

The mini-factory has an automated air condition monitoring system that immediately notifies of deviations

From the norm of the air condition by sound or global signals; in addition, there is a separate exhaust ventilation system that ensures normal sanitary working conditions regarding the composition of air and its sufficient quantity (not shown in the drawing).

Combustion products of combustion chamber 1 fall into hole 7, from where they are removed by means of water washing through a system of trays and ash receivers. 70 Residues from the thermal process in the thermal chamber 2, such as carbon, charcoal, clots of melted polyethylene bags, etc., are formed little due to the fact that the high temperature is constantly maintained in the chamber 2. Therefore, it makes no sense to automate the removal process, and they are removed using a regular poker through pipelines 13.

Loading of thermal chamber 2 with the next portion of waste is carried out only after 7/5 The previous portion has been fully processed.

Equipping the device with a water heating boiler 18 contributes to the transfer of heat from the combustion chamber to the water of the boiler 18, which is used for heating any premises.

During operation, part of the water from the water heating boiler 18 evaporates, the rest is lost, passing through pumps, couplings, etc. The amount of water in the water heating boiler is determined by the dispenser 21. Expansion tanks 22 are used to regulate the pressure 2o of hot water vapor as a result of overheating, into which part of the water from the dispenser 21 is poured, which ensures the integrity of the structure and trouble-free operation of the device.

Thus, in the proposed design of the device for the thermal processing of organic waste, natural fuel from cylinders with liquefied gas is used only during the ignition of garbage in the combustion chamber 1. Further, for the combustion of garbage in the combustion chamber 1, the thermal processing products of the chamber 7 are used, namely, the steam-gas mixture , which excludes the use of expensive natural energy products. In addition, with the use of thermal processing products that come out of chamber 2, unburned products of chamber 1 are burned in the combustion chamber C, which prevents them from being released into the atmosphere, which contributes to the maintenance of environmental ecology.

According to the proposed solution, an operational experimental sample was made at the Oleksandriysk ship repair plant. high school

Claims (1)

The formula of the invention in part 35 1. A device for thermal processing of organic waste, which contains a combustion chamber installed in it "- a thermal chamber, at least one combustion chamber, at the exit of which a chimney is mounted, and a system for loading garbage and for removing residuals after thermal processing of products, which differs in that all chambers, namely: furnace, thermal and combustion chamber, are interconnected, while the system for loading garbage and for removing residual products after thermal processing is a node separately for "furnace and thermal chambers for loading garbage and a node for removing residual products after thermal processing. 2. The device for thermal processing of organic waste according to claim 1, which differs in that it has two combustion chambers, each of which is connected to a furnace and a thermal chamber. Z. The device for thermal processing of organic waste according to claim 1, which differs in that the combustion chamber is connected to the air supply unit. - 4. The device for thermal processing of organic waste according to claim 1, which is characterized by the fact that the node for loading garbage and the node for removing residual products after thermal processing of the combustion chamber o are located in the lower part of the chamber. 5. Device for thermal processing of organic waste according to claim 4, which is characterized by the fact that the node for loading the combustion chamber 5 is made in the form of a pipeline. eat) 6. The device for thermal processing of organic waste according to claim 4, which is characterized by the fact that the unit for removing residual products after thermal processing of the combustion chamber includes grates and a system of inclined trays located under them. 7. The device for thermal processing of organic waste according to claim 1, which is characterized by the fact that the node for Loading thermal chamber garbage is made in the form of a hopper located above the upper part of the chamber. c 8. Device for thermal processing of organic waste according to claim 7, which is characterized by the fact that the hopper is equipped with means for its alternate opening and closing, located in its upper and lower parts. in 9. The device for thermal processing of organic waste according to claim 7, which is characterized by the fact that the hopper is equipped with a dispenser. 10. The device for thermal processing of organic waste according to claim 1, which is characterized by the fact that the unit for removing residual products after thermal processing of the thermal chamber is made in the form of a pipeline, which is located in the lower part of the thermal chamber and passes through the furnace chamber. 65 11. The device for thermal processing of organic waste according to claim 1, which is characterized by the fact that it is equipped with a water-heating boiler with a cavity in which the combustion chamber and loading hopper are located and the shape of which repeats the contours of the combustion chamber and loading hopper. 12. The device for thermal processing of organic waste according to claim 5, which is characterized by the fact that the water heating boiler in the lower part has hatches connected to the pipelines of loading the combustion chamber. 13. The device for thermal processing of organic waste according to claim 10, which is characterized by the fact that the water heating boiler in the lower part has hatches connected to pipelines for removing products of the thermal chamber after thermal processing 14. Device for thermal processing of organic waste according to claim 11, which is characterized by the fact that the water heating boiler is equipped with a water quantity dispenser. 70 15. Device for thermal processing of organic waste according to claim 11, which is characterized by the fact that the water heating boiler is equipped with an expansion tank. 16. Device for thermal processing of organic waste according to claim 1, which is characterized by the fact that the chimney is equipped with a regulator of gas and smoke flow. 17. A device for thermal processing of organic waste according to any of claims 1 or 13, which differs 7/5 THAT the chimney is equipped with filters. 18. Device for thermal processing of organic waste according to claim 1, which is characterized by the fact that the combustion chamber is equipped with control and regulation devices. 19. Device for thermal processing of organic waste according to claim 1, which is characterized by the fact that it is equipped with an exhaust system. that 2 "- s " (ze) є - and? - (95) sh» ime) - 60 b5