KR200424339Y1 - Solvation device of waste paint using accumulation heat - Google Patents

Abstract

The present invention applies the method by evaporation and condensation of the waste paint in the sludge (semi-solid) state while controlling the heat storage (temperature), which is an indirect heat supplied from the heat storage boiler. It is to provide a waste paint recycling method for regenerating and recycling a solvent to a range of 70 parts by weight with respect to 100 parts by weight of the input, and also a simple device for producing them. The device of the present invention comprises a regenerative boiler for supplying controlled indirect heat; A cylindrical evaporator having an input device for inputting waste paint in a sludge (semi-solid) state and a recovery device for retrieving the residues; It is connected to the evaporator outlet of the evaporator is made of a condenser for producing an organic solvent by cooling the organic solvent evaporated gas discharged from the evaporator by the cooling water and the evaporator (2) is characterized in that the screw type stirrer is installed .

 Waste paint, heat storage, evaporation, condensation, organic solvent (thinner)

Description

SOLVATION DEVICE OF WASTE PAINT USING ACCUMULATION HEAT}

1 is a block diagram schematically showing an apparatus for recycling semi-solid (sludge) state waste paint by evaporation and condensation using heat storage according to the present invention,

2 is a schematic configuration diagram showing a heat storage boiler according to the present invention.

※ Explanation of codes for main parts of drawing

(1) regenerative boiler (2) evaporator

(3) Condensers (21) Agitators

(22) Inlet valve (23) Retract valve

(24) Distillation tube (25) Screw section

(26) Rod blades (31) Coolant inlet

The present invention is applied to the waste paint in the sludge (semi-solid state) by applying the method by evaporation and condensation of the waste paint in the sludge (semi-solid state) while controlling the heat storage (temperature), which is an indirect heat supplied from the heat storage boiler. The present invention relates to a waste paint recycling method for regenerating and recycling an organic solvent to a range of 70 parts by weight with respect to 100 parts by weight of input, and also to a simple apparatus for producing the same.

More specifically, a cylindrical evaporator with a regenerative boiler for supplying controlled indirect heat, an input device for injecting waste paint in a sludge (semi-solid state), and a extraction device for retrieving residues, and evaporation of the evaporator It is connected to the gas outlet is characterized in that consisting of a condenser for producing an organic solvent (thinner) by cooling the organic solvent (thinner) evaporated gas discharged from the evaporator with cooling water.

In addition, the evaporator is a screw-type on the top of the evaporator to efficiently evaporate the organic solvent (thinner) contained in the waste paint in the sludge (semi-solid state) in the evaporator, and also to efficiently remove the remaining residue after evaporation. The present invention relates to a method and apparatus for recycling an organic solvent contained in a waste paint in a sludge (semi-solid) state, characterized in that an agitator is installed.

In recent years, environmental pollution due to various wastes generated during industrialization is getting more serious, and various waste treatment technologies and pollution prevention technologies and policies have been proposed to cope with these problems as they become more real.

Currently in Korea, waste is treated by landfilling, incineration and recycling, but in the case of landfill, secondary environmental pollution, which leads to landfill or leachate contamination of land and groundwater, is becoming a problem.

In case of incineration, most of the incinerators are incinerated in the form of trash.In this case, post-treatment facilities are necessary because of air pollutants caused by exhaust gases (HCl, HCN, NOx, dioxin, etc.) after combustion. About 30% of the residues are generated by incomplete combustion, and the residues are reclaimed in the landfill, but the residues contain the pollutants generated by incineration, which causes secondary pollution due to these incineration residues. have.

In particular, even in the case of designated waste, the problem is more serious because it is incinerated at high temperature with the garbage instead of being treated separately. The same applies to waste paints that are designated waste. According to the Waste Law of the Ministry of Environment, waste paint can be recycled and the rest can be incinerated at high temperature. However, waste paint has a very slow combustion rate due to the characteristics of waste paint, so it is not properly incinerated. It is being buried in the landfill with the residue.

As such, each high-temperature incinerator in Korea is incinerated with other wastes, even if it is designated waste, so no matter how high-temperature incineration, residues from incomplete combustion may be generated. The problem of secondary pollution due to designated waste is even more serious because no one can predict the damage of secondary pollution.

In addition, in the case of conventional incinerators, the capacity to be treated must be somewhat large, and since the initial equipment cost of the incinerator for the throughput is high, a treatment facility capable of incineration compared to the amount of waste generated in each industry at present. Is very lacking.

Therefore, the present invention controls the heat storage (temperature), which is an indirect heat supplied from the heat storage boiler, while evaporating and condensing the organic solvent (thinner) contained in the waste paint in the sludge (semi-solid) state by 70 parts by weight. By regenerating and recycling up to the range of parts by weight, it is much more economical than the high temperature incineration method, which is a conventional method of treating waste paint in the state of sludge (semi-solid), and can reduce the incineration amount much more, and also the combustion gas discharged to the atmosphere by incineration. Since there is little (soot), the problem of air pollution is small, and secondary pollution from incineration residues can be prevented, and air pollution prevention facilities and treatment facilities can be miniaturized. It works.

In addition, by applying the heat storage method to the heat supply method, the evaporation efficiency will be much higher than the conventional method of applying the fruit boiler, and energy saving effect can be expected by reducing the amount of fuel used.

The present invention is to overcome the above-mentioned conventional problems, an object of the present invention is to evaporate the organic solvent, such as thinner contained in the waste paint in the semi-solid sludge state while controlling the heat storage temperature, which is indirect heat supplied from the heat storage boiler. By condensing, by recycling to the range of 70 parts by weight based on 100 parts by weight of input, it is much more economical than the high-temperature incineration method, which is a waste paint treatment method in the sludge state, and can reduce the incineration amount even more. Because there are few combustion gases containing air pollutants such as carbon dioxide generated by direct incineration or soot discharged to the atmosphere by air, the problem of air pollution is small and secondary pollution from incineration residues can be prevented. At the same time, air pollution prevention facilities and treatment facilities can be miniaturized, reducing initial facility investment costs. Processing of the new method the waste paint way as to provide the device.

In addition, by applying the heat storage method to the heat supply method, the evaporation efficiency will be increased much more than the conventional method of applying the heat boiler, and waste energy using the heat storage which can expect the energy saving effect by reducing the amount of fuel used. To provide a recycling apparatus for paint.

The present invention for achieving the object of the present invention is a step of injecting waste paint sludge into the condenser; Supplying heat without incineration by supplying indirect heat of 100 to 200 ° C. by a heat storage boiler as a heat source of the condenser; And recovering the organic solvent to be distilled by a condenser, wherein the condenser relates to a method of recovering the organic solvent from the waste paint which increases the evaporation efficiency of the organic solvent by a screw type stirrer.

In the present invention, the stirrer has a screw portion and at least one rod-shaped blade portion, the blade located on the bottom of the condenser is characterized in that it is formed in accordance with the shape of the surface of the lower surface of the condenser, the waste paint is applied to the entire waste paint It is preferable to further contain 0.1-10 weight% of silicone type waste paints with respect to.

The following describes the apparatus used in the present invention,

The device of the present invention is a heat storage boiler for supplying indirect heat of 100 ~ 200 ℃ regulated by installing the temperature control device Dampa; An evaporator provided with an inlet valve for injecting waste paint in a sludge (semi-solid) state, a outlet valve for retrieving residues, and a screw type stirrer; The present invention relates to an apparatus for recovering an organic solvent from waste paint, which is connected to an evaporator outlet of the evaporator and includes a condenser for cooling and recovering the evaporated gas discharged from the evaporator by cooling water.

The stirrer also has a screw portion and at least one rod-shaped blade portion, characterized in that the blade located on the underside of the condenser is formed in accordance with the shape of the surface of the lower surface of the condenser. That is, a screw type stirrer is installed on the top of the evaporator in order to efficiently evaporate the organic solvent contained in the semi-solid sludge waste paint in the evaporator and to efficiently extract the remaining residue after evaporation. do.

In addition, as an additional aspect of the present invention, by mixing 0.1-10% by weight of the total waste paint with silicon-based paint in the waste paint sludge, it is possible to significantly reduce the generation of scale on the evaporator surface due to evaporation in the evaporator. Significantly increased. The silicone-based paint sludge of the present invention is not particularly limited as long as it is a paint or a coating agent used in a silicone coating and is well known in the art, and thus, further description thereof is omitted. According to the present invention, when the organic solvent recovery is performed about 10 times in the evaporator, 3 parts by weight of the silicone-based paint is added, and when the silicon is added after 10 operations, the scale can be reduced by about 30% or more. It can be seen that there is a great effect.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic view showing a recycling apparatus of semi-solid (sludge) state waste paint by evaporation and condensation using heat storage according to the present invention, and FIG. 2 is a schematic view showing a heat storage boiler.

As shown in FIG. 1, the waste paint treatment method and apparatus of the new method according to the present invention include: a regenerative boiler (1) for supplying controlled indirect heat; A cylindrical evaporator (2) having an agitator (21), an inlet valve (22) installed in an inlet pipe for injecting waste paint in a sludge state, and a outlet valve (23) for retrieving residues; A condenser (3) connected to the evaporator gas distillation tube (24) of the evaporator to cool the organic solvent (thinner) evaporated gas discharged from the evaporator (2) with cooling water to produce an organic solvent (thinner); Prepared.

In addition, the heat storage boiler is composed of two combustion chambers, heat storage chambers, and heating burners using diesel oil as shown in FIG. 2, and the inside of the heat storage chamber is loaded with heat storage materials such as refractory bricks. In addition, the evaporator (2) to the top of the evaporator (2) to increase the evaporation efficiency of the organic solvent contained in the sludge waste paint in the evaporator (2), and to extract the remaining solid waste paint evaporated. A screw portion 25 or an agitator 21 having a screw portion and a rod-shaped blade portion 26 is provided. The condenser 3 is provided with a cooler in which the evaporated organic solvent is cooled by cooling water and a storage tank in which the cooled organic solvent is collected first. The screw portion 25 maintains the stirring efficiency to the maximum irrespective of the viscosity of the sludge and at least two rod-shaped blades 26 in the stirrer 21 of the evaporator 2 is installed inside the evaporator, With a blade portion in contact with the bottom of the evaporator 2, the blade 26 is manufactured to have a bottom surface substantially the same as the shape of the surface of the bottom of the evaporator 2 to increase agitation efficiency and by indirect heat Completely eliminating carbonization spots can extend the life of the evaporator and at the same time increase work efficiency.

Next, the operation of a simple recycling apparatus for waste paint by evaporation and condensation according to the embodiment of the present invention configured as described above will be described.

First of all, in order to heat up the heat storage material (SK 40 refractory brick) of the heat storage boiler by the auxiliary burner using diesel oil, and to increase the evaporation efficiency, the waste paint in the semi-solid (sludge) state is used by a mobile stirrer. And stored in an auxiliary tank for feeding into the evaporator while stirring.

When the agitated semi-solid (sludge) waste paint is prepared in this way, the installed inlet (valve) and a movable air pump are connected and installed into the evaporator (2).

And, by adjusting the indirect heat supplied from the regenerative boiler by using dampa which is a temperature control device of the evaporator 2, the heat to the evaporator 2 is included in the waste paint in the semi-solid (sludge) state in the range of 100 ° C to 200 ° C. Evaporated organic solvent (thinner) (evaporation step)

At this time, the vaporized organic solvent (thinner) is introduced into the condenser (3) installed in the evaporator to cool the vaporized organic solvent with the cooling water coming from the cooling water inlet 31 to obtain the organic solvent of the thinner, after evaporating the organic solvent The solid waste paint, which is generated residue, is discharged to a discharge port provided as a gate valve at the bottom of the evaporator and then discharged as waste.

As described above, the present invention adjusts the heat storage (temperature), which is the indirect heat supplied from the heat storage boiler, to evaporate and condense the organic solvent (thinner) contained in the waste paint in the sludge (semi-solid state) by 100 parts by weight. By recycling and recycling up to 70 parts by weight, it is much more economical than the high-temperature incineration method, which is a conventional method of treating waste paint in the state of sludge (semi-solid), and can reduce the incineration amount and discharge to the atmosphere by incineration. The low combustion gas (soot) reduces air pollution and prevents secondary pollution from incineration residues, while minimizing air pollution prevention and treatment facilities, thus reducing initial facility investment costs. Is expected to be a new method of waste paint disposal,

In addition, by applying the heat storage method to the heat supply method, the evaporation efficiency will be much higher than that of the conventional fruit boiler, and by using the heat storage which can expect energy saving effect by reducing the amount of fuel used. It is expected that new waste paint will be a recycling device.

Claims (2)

An apparatus for recovering an organic solvent from waste paint sludge, Regenerative boiler for supplying indirect heat of 100 ~ 200 ℃ regulated by the installed damping temperature control device; An evaporator provided with an inlet valve for injecting waste paint in a sludge (semi-solid) state, a outlet valve for retrieving residues, and a screw type stirrer; And a condenser connected to an evaporator outlet of the evaporator, the condenser cooling and recovering the evaporated gas discharged from the evaporator by cooling water. The method of claim 1, The stirrer has a screw portion and at least one rod-shaped blade portion, wherein the blade located on the underside of the condenser is formed in accordance with the shape of the surface of the lower surface of the condenser, the apparatus for recovering the organic solvent from the waste paint.

Images