KR19990008395U - Wastewater Treatment System - Google Patents

Abstract

The present invention relates to a waste liquid combustion apparatus for burning waste liquid containing an aqueous ink.

Wastewater combustion apparatus of the present invention is a wastewater decomposition means for electrolyzing wastewater to separate wastewater and sludge of low concentration, and a wastewater storage tank for receiving and storing the wastewater of low concentration separated from the wastewater decomposition means, and the wastewater. A burner for burning the sludge decomposed by the decomposition means together with the combustion oil, and an incinerator for burning or evaporating the low concentration wastewater generated during electrolysis by the heat generated by the combustion of the sludge burned by the burner and the combustion oil; And a dust collecting means for collecting dust and collecting dust by combustion of the combustion products in the incinerator, and a control panel for controlling the overall operation.

Therefore, the waste liquid is supplied to the waste liquid supply line embedded in the refractory brick layer of the incinerator in a low concentration of wastewater separated by electrolysis in the electrolysis tank, and injected into the combustion chamber through the waste water spray nozzle to burn a large amount of waste liquid in a short time. It can make it possible to save the fuel cost for combustion.

Description

Wastewater Treatment System

The present invention relates to a waste liquid combustion apparatus for burning waste liquid containing an aqueous ink.

Conventionally, Japanese Patent Laid-Open No. 63-127008 (published date; May 30, 1988) is an apparatus for treating waste oil discharged from a factory, for example, waste oil containing cutting oil and lubricating oil.

In the waste oil incinerator disclosed in the publication, as shown in FIG. 7, the waste liquid is mixed with sawdust, and then placed in a plurality of rectangular trays 7 and placed on a heating device 6 to exhaust the incinerator 10. The moisture is dried by the heat of the gas flow passage 8 constituting the heating device 6 which receives the gas through the cyclone 9, and the oil component is volatilized.

In this manner, the sawdust from which the moisture and oil components are removed is filled into the drum barrel 4, and then the door 13 of the incinerator 10 is opened to put the drum barrel 4. Thereafter, the main combustion chamber 12 is heated according to the combustion of the combustibles introduced from the incinerator inlet 12a, and the auxiliary combustion chamber 11 communicating with the main combustion chamber 12 also becomes high temperature and is filled in the drum barrel 4. It is comprised so that the sawdust which is made may burn from upper part to lower part.

However, the waste oil incineration apparatus of the conventional waste liquid configured as described above is mixed with sawdust, and then dried and combusted, so that the waste oil and sawdust must be mixed, dried, and then filled in the drum barrel 4 to be burned in the auxiliary combustion chamber of the incinerator 10. There has been a problem that incineration takes a long time.

In order to solve such a problem, recently, the waste liquid discharged from the factory has been filtered out by a filter, discharged by sewage treatment, or precipitated by chemicals.

However, the filtering method of the filter has a problem of reprocessing the filter in which the foreign material and ink pigments are filtered, and the sewage treatment method is not able to completely remove the pigment, and also requires a lot of facility cost for sewage treatment. There was a problem.

In addition, the sedimentation treatment method using the drug has a problem such as the cost burden of the drug administration, and also to reprocess the precipitate.

Accordingly, the present invention has been made in view of the above-mentioned various problems, and an object of the present invention is to provide a waste liquid combustion apparatus capable of processing a large amount of waste liquid discharged from a factory in a short time.

In order to achieve the above object, the waste liquid combustion apparatus of the present invention is a wastewater decomposition means for electrolyzing waste liquid to separate wastewater and sludge of low concentration by electrolysis, and wastewater receiving and storing wastewater of low concentration separated from the wastewater decomposition means. A storage tank, a burner for burning the sludge decomposed by the wastewater decomposition means together with combustion oil, and wastewater of low concentration generated during electrolysis by heat generated by combustion of the sludge and combustion oil burned by the burner. And an incinerator for incineration or evaporation, a dust collecting means for collecting dust by the combustion by-product generated by combustion of the combustion products in the incinerator, and a control panel for controlling the operation of the whole.

1 is a perspective view of a waste fluid combustion device according to one embodiment of the present invention;

Figure 2 is an enlarged cross-sectional view showing an enlarged main portion of the waste fluid combustion apparatus according to an embodiment of the present invention,

3 is an explanatory diagram illustrating a process of electrolyzing waste liquid and ejecting it with combustion air in a combustion furnace in one embodiment of the present invention;

4 is a circuit diagram for applying power to an electrode applied to an embodiment of the present invention;

5 is a plan view schematically showing a system for driving an electrode installed in an electrolysis tank applied to an embodiment of the present invention;

6 is a view schematically showing the structure of an electrode applied to an embodiment of the present invention,

7 is a view schematically showing a conventional waste liquid combustion apparatus.

Explanation of symbols for main parts of the drawings

100: wastewater decomposition means 101: waste tank

102: pump 103: supply pipe

104 check valve 105: electrolysis tank

105a: piping 106a: plus electrode

106b: negative electrode 107: heater

108: sludge collecting means 108a: sludge discharge pipe

110: wastewater storage tank 111: plotter

112: heater 115: supply pipe

116: check valve 120: burner

130: Incinerator 131: External cylinder

133: Rostol 134: refractory brick layer

135: wastewater supply line 136a-136d: wastewater spray nozzle

137: combustion chamber 138: recollection room

139: exhaust cylinder 140: inlet

141: outlet 150: dust collecting means

151: discharge pipe 152: dust collection room

153: dust collection outlet 155,156: blade

161a, 161b: Bearing 162a, 162b: Bearing

167,168: Following gear 169: Power transmission gear

170: drive motor 170a: rotary shaft

195: + particle 196: negative particle

200: AC power supply 210: 220: cores 211, 221: coils 212, 222: cylinder

213,223: Carbon brush 214, 224: Shaft

Hereinafter, the waste liquid combustion apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a waste liquid combustion apparatus according to an embodiment of the present invention, Figure 2 is an enlarged cross-sectional view showing the main portion of the waste liquid combustion apparatus according to an embodiment of the present invention, Figure 3 is one of the subject innovation It is explanatory drawing explaining the process of electrolyzing waste liquid in the Example and blowing it with combustion air in a combustion furnace. 4 is a circuit diagram for applying power to an electrode applied to an embodiment of the present invention, and FIG. 5 schematically shows a system for driving an electrode installed in an electrolysis tank applied to an embodiment of the present invention. 6 is a plan view and schematically illustrates the structure of an electrode applied to an embodiment of the present invention.

1 to 6, the waste liquid combustion apparatus according to the present invention is a waste water decomposition means 100 for electrolyzing waste liquid to separate wastewater and sludge of low concentration by electrolysis, and the waste water decomposition means 100. Wastewater storage tank 110 for receiving and storing the wastewater separated in the low concentration), the burner 120 for burning the sludge decomposed in the wastewater decomposition means 100 with the combustion oil, and by the burner 120 Incinerator 130 which incinerates or evaporates low concentrations of wastewater generated during electrolysis by heat generated by combustion of sludge and combustion oil, and combustion products (eg, combustion oil, sludge) in the incinerator 130 And a dust collecting means 150 for collecting dust and at the same time collecting combustion by-products (smoke and water vapor) generated by the combustion of waste wood and low concentration wastewater, and a control panel 170 for controlling the overall operation. There All.

The wastewater decomposition means 100 includes a wastewater collection tank 101 for collecting wastewater, a pump 102 for pumping the waste liquid collected in the wastewater collection tank 101, and a supply pipe according to the operation of the pump 102. 103) and a plastic electrolysis tank 105 received and stored through the check valve 104, plus and minus electrodes 106a and 106b disposed in the electrolysis tank 105 to electrolyze the waste liquid; And scraping -particles 195 and + particles 196 attached to outer peripheral surfaces of the cylindrical bodies 212 and 222 of the plus and minus electrodes 106a and 106b, respectively, of the plus and minus electrodes 106a and 106b. Blades 181 and 182 provided in the electrolysis tank 105, a heater 107 for heating the electrolysis tank 105, and positive and negative electrodes 106a and 106b disposed in the electrolysis tank 105. Sludge (S) electrolyzed by the collection of the incinerator 130 through the sludge discharge pipe (108a) It is provided with a sludge collecting means (108) for ejecting onto the stall (133).

The wastewater storage tank 110 receives wastewater having a low concentration separated by electrolysis in the electrolysis tank 105 through a pipe 105 to store wastewater, and the wastewater storage tank 110 stores wastewater. When the water level in the wastewater storage tank 110 is set by the plotter 111 and the water level in the waste water storage tank 110 is greater than or equal to a predetermined water level, the floater 111 is driven to drive the pump 102. A micro switch (not shown) for outputting a signal for stopping the operation is installed, and a heater 112 is installed on an outer circumferential surface of the waste water storage tank 110 so as not to be frozen.

In addition, a supply pipe 115 is connected between the wastewater storage tank 110 and the waste liquid supply pipe 135 embedded in the refractory brick layer 134 of the incinerator 130, and the supply pipe 115 is connected to the wastewater storage pipe 110. A check valve 116 is provided to block backflow, and the wastewater spray nozzles 136a, 136b, 136c installed in the waste liquid supply pipe 135 by pumping the wastewater stored in the wastewater storage tank 110. A blowing pump 117 is provided to blow into the combustion chamber 137 through 136d.

The incinerator 130 has an outer cylinder 131 made of a metal sheet, a refractory brick layer 134 formed on an inner circumferential surface of the outer cylinder 131, and a space formed by the refractory brick layer 134. Lost stall 133 which is divided into combustion chamber 137 and recollection chamber 138 and supplies combustion air to combustion chamber 137 through pipe 191 according to driving of blower 190; An exhaust pipe formed at an upper portion of the combustion chamber 137 to discharge combustion by-products (smoke and water vapor) generated by combustion of combustion products (eg, combustion oil, sludge, waste wood, and low concentration wastewater) to the dust collecting means 150. 139 is provided.

In addition, an inlet 140 for injecting an incineration object (for example, combustion oil, waste wood, or waste water) into the combustion chamber 137 and the combustion chamber 137 in accordance with the combustion of the incineration object in the front of the incinerator 130. The outlet 141 which draws out the ash which was produced | generated and collected in the recollection chamber 138 is provided.

The dust collecting means 150 is in communication with the exhaust pipe 139 formed in the upper portion of the incinerator 130 to discharge combustion pipe by-product (smoke and water vapor) according to the incineration of the incineration discharge pipe 151 and the by-product It is composed of a dust collection chamber 152 for collecting the dust contained in the dust collection port 153 for taking out the dust collected in the dust collection chamber 152 to the outside.

The lower end of the discharge pipe 151 is at the upper end side of the dust collection chamber 152 so that the dust contained in the combustion by-products (smoke and water vapor) according to the incineration of the incineration is collected in the dust collection chamber 152 by its own weight. It extends to a position lower than the connection portion of the exhaust pipe 139 connected.

The positive electrode 106a and the negative electrode 106b have the same configuration as shown in detail in FIGS. 4 and 6, and the structure of the positive electrode 206a will be described. And a coil connected to a positive terminal of the bridge rectifying circuit 201 and wound around an outer circumferential surface of the core 210 to generate a magnetic force, and a coil spaced apart from the coil 211 by a predetermined distance. Cylindrical body 212 surrounding 211, a carbon brush 213 installed at a predetermined distance on the inner circumferential surface of the cylindrical body 212, and a shaft 214 for supporting both ends of the cylindrical body 212 It consists of.

Referring to the structure of the negative electrode 106b, the core 220 made of pure iron and one side thereof are connected to the negative terminal of the bridge rectifier circuit 201 and wound around the outer circumferential surface of the core 220 to generate magnetic force. A coil 221, a cylindrical body 222 surrounding the coil 221 at a predetermined distance from the coil 221, and a carbon brush 223 provided at a predetermined distance on an inner circumferential surface of the cylindrical body 222. ) And shafts 224 supporting both ends of the cylindrical body 122.

As shown in FIG. 4, the positive and negative electrodes 106a and 106b have full-wave rectification of the AC power supply 200 in the bridge rectifying circuit 201, and then smoothed in the capacitor C and the resistor R. The positive electrode 106a is connected to the positive electrode of the bridge rectifier circuit 201 so that the negative electrode 195 contained in the waste liquid adheres to the positive electrode 106a. The negative electrode 106b is connected to the positive electrode 106a. The negative electrode 106b is connected to the negative electrode so as to attach the + particle 196 contained in the waste liquid W to each of the waste liquids W.

The positive electrode 106a and the negative electrode 106b are rotatably provided in the electrolysis tank 105 via bearings 161a, 161b, 162a, 162b as shown in FIGS. 5 and 6. . In other words, the axes 214 and 224 of the positive electrode 106a and the negative electrode 106b are rotated according to the driving of the driving motor 170, and the -particles 195 of the aqueous paint or waste oil contained in the waste liquid W are included. Is attached to the plus electrode 106a, and the + particles 196 are supported on the bearings 161a, 161b, 162a, 162b so as to attach to the minus electrode 106b, the plus electrode 106a, and Followed gears 167 and 168 are disposed in engagement with one of the shafts 214 and 224 of the negative electrode 106b, respectively. The driven gear 168 provided to the negative electrode 106b is a rotational shaft 170a of the drive motor 170. Meshes with the power transmission gear 169 provided in the.

Next, the operation and effects of the waste fluid combustion apparatus according to the embodiment of the present invention configured as described above will be described.

First, the waste wood or combustion oil is ignited by the burner 120 while injecting waste wood or combustion oil into the combustion chamber 137 by operating a control button (not shown) installed in the control panel 170. The blower 190 is driven to supply air for combustion through the pipe 191 to heat the temperature in the combustion chamber 137 to 100 ° C to 500 ° C.

At the same time, the pump 102 is driven to supply the waste liquid collected in the wastewater collection tank 101 to the electrolysis tank 105 through the supply pipe 103 and the check valve 104, and at the same time, positive and negative electrodes. When the driving motor 170 is driven while applying DC + power and DC-power to the 106a and 106b, respectively, the power transmission gear 169 installed on the rotation shaft 170a of the driving motor 170 is clockwise in FIG. 5. Rotate in the direction.

As the power transmission gear 169 rotates clockwise, the driven gear 168 meshing with the power transmission gear 169 rotates counterclockwise, and the rotational force is negative electrode 216b through the shaft 224. ) Rotate it counterclockwise.

The driven gear 167 provided on the shaft 214 of the positive electrode 206b is engaged with the driven gear 168 provided on the shaft 214 of the negative electrode 216b. As the gear 168 rotates counterclockwise, the driven gear 167 rotates clockwise.

In this case, since the DC + power source and the DC power source are applied to the positive electrode 106a and the negative electrode 106b, respectively, strong magnetic lines of force are emitted from the coils 211 and 221 of the positive electrode 106a and the negative electrode 106b. Accordingly, particles charged with − included in the waste oil W are attached to the cylindrical body 212 of the positive electrode 106a, and included in the waste oil W of the cylindrical body 222 of the negative electrode 106b. Particles charged with + are attached.

In this case, since the positive electrode 106a and the negative electrode 106b are rotated according to the driving of the driving motor 170, the positive electrodes 106a and the negative electrode 106b are formed on the outer peripheral surfaces of the cylindrical bodies 212 and 222, respectively. The attached -particles 195 and + particles 196 are scraped by the blades 155 and 156 and collected by the slush collecting means 108 and on the rostol 133 of the combustion chamber 137 through the sludge discharge pipe 108a. The wastewater, which is supplied and incinerated with the combustion oil and the waste wood, and remains low by electrolysis in the electrolysis tank 105, is stored in the wastewater storage tank 110 through the pipe 105a.

After the temperature in the combustion chamber 137 is heated to 100 ° C. to 500 ° C., the injection pump 117 is driven to collect waste water stored in the waste water storage tank 110 through the supply pipe 115. The central part of the combustion chamber 137 through the wastewater spray nozzles 136a to 136d respectively installed in the wastewater supply pipe 135 by being supplied to the wastewater supply pipe 135 embedded in the refractory brick layer 134 of FIG. Is blown out, burned, and vaporized.

In the above description, the ejection pump 117 detects the temperature in the combustion chamber 137 by a temperature detecting means (not shown) and is driven when it is 100 ° C to 500 ° C to be stored in the wastewater storage tank 110. Since the waste water is configured to spray the combustion chamber 137 through the check valve 116 and the waste water supply passage 135 and the waste water injection nozzles 136a to 136d, the waste water does not flow back into the waste water storage tank 110. .

In addition, since the heaters 107 and 112 are respectively installed on the outer surfaces of the electrolysis tank 105 and the waste water storage tank 110 to prevent freezing during the winter, the electrolysis tank 105 and the waste water storage tank in winter. There is no fear of freezing.

Therefore, the waste liquid combustion apparatus according to the present invention is a waste liquid supply pipe 135 in which wastewater having low concentration separated by electrolysis from the electrolysis tank 105 is embedded in the refractory brick layer 134 of the incinerator 130. ) To be injected into the combustion chamber 137 through the waste water spray nozzles 136a to 136d to burn the waste liquid in a short time, thereby reducing the combustion fuel (oil and waste wood). have.

In other words, the waste liquid is electrolyzed in the electrolysis tank 105, and the positively charged particles 196 and the negatively charged particles 195 are attached to the negative electrode 106b and the positive electrode 106a, respectively, to form a blade ( Sludge S collected by scraping by 155 and 156 is burned together with combustion oil or waste wood on the rostol 133 installed in the combustion chamber 137 through the sludge discharge pipe 108a, and the electrolysis tank 105 The wastewater of low concentration remaining in the water is injected into the combustion chamber 137 heated to a high temperature in the wastewater injection nozzles 136a to 136d installed in the wastewater supply pipe 135 and combusted.

Therefore, since the concentration of the wastewater is low, the amount of jetting of the wastewater per unit time increases, and not only can the waste liquid treatment amount be increased, but also the viscosity of the wastewater is low, so that it can be burned in a short time, thereby saving fuel costs for combustion.

As described above, according to the waste liquid combustion apparatus of the present invention, wastewater decomposition means for electrolyzing waste liquid to separate wastewater and sludge of low concentration by electrolysis, and wastewater receiving and storing low concentration wastewater separated from the wastewater decomposition means. A storage tank, a burner for burning the sludge decomposed by the wastewater decomposition means together with combustion oil, and wastewater of low concentration generated during electrolysis by heat generated by combustion of the sludge and combustion oil burned by the burner. Incinerators for incineration or evaporation, dust collecting means for collecting dust by the combustion by-products generated by combustion of combustion products in the incinerators, and control panels for controlling the operation of the entire system are provided. Wastewater with low concentration of wastewater separated by electrolysis in the digestion tank is embedded in the refractory brick layer of the incinerator. It is a very practical design that can be supplied to the supply line and injected into the combustion chamber through the waste water injection nozzle to burn a lot of waste liquid in a short time, thereby saving the fuel cost for combustion.

Claims (10)

Wastewater decomposing means 100 for electrolyzing the waste liquid to separate wastewater and sludge of low concentration, and a wastewater storage tank 110 for receiving and storing low concentration wastewater separated from the wastewater decomposing means 100; Burner 120 for burning the sludge decomposed by the wastewater decomposition means 100 together with combustion oil, and generated during electrolysis by heat generated by combustion of the sludge and combustion oil burned by the burner 120. Incinerator 130 for incineration or evaporation of the waste water of low concentration, and dust collection means 150 for collecting dust and at the same time to discharge the combustion by-products generated by the combustion of the combustion products in the incinerator 130, the overall operation Waste fluid combustion apparatus having a control panel 170 to control the. According to claim 1, The wastewater decomposition means 100 is a wastewater collection tank 101 for collecting waste water, a pump 102 for pumping the waste liquid collected in the wastewater collection tank 101, and the pump 102 Positive and negative electrodes are disposed in the electrolysis tank 105 made of plastic that is received through the supply pipe 103 and the check valve 104 and stored in the electrolysis tank 105 according to the operation of the electrolytic solution. The electrolytic bath 105 to scrape -particles 195 and + particles 196 attached to the outer peripheral surfaces of the cylindrical electrodes 212 and 222 of the positive electrode 106a and the negative electrode 106b, respectively. Electrolysis by the blades 155 and 156 provided in the blade, the heater 107 for heating the electrolysis tank 105, and the positive and negative electrodes 106a and 106b disposed in the electrolysis tank 105. Collected sludge (S) is ejected on the rostol 133 of the incinerator 130 through the sludge discharge pipe (108a) Sludge collecting means 108, characterized in that the waste fluid combustion apparatus. The waste liquid combustion apparatus according to claim 1, wherein the waste water storage tank (110) and the waste water storage tank (110) are provided with a heater (112) on an outer circumferential surface of the waste water storage tank (110) so as not to be frozen in winter. According to claim 1, wherein the incinerator 130 is an outer cylinder 131 made of a metal iron plate material, a refractory brick layer 134 is formed on the inner peripheral surface of the outer cylinder 131, and the refractory brick layer 134 The space formed by the chamber is divided into a combustion chamber 137 and a recollection chamber 138, and a loss for supplying combustion air to the combustion chamber 137 through a pipe 191 according to the operation of the blower 190. And a toll 133 and an exhaust pipe 139 formed thereon to discharge the combustion by-products generated by combustion of the combustion products in the combustion chamber 137 to the dust collecting means 150. According to claim 1, wherein the dust collecting means 150 is connected to the exhaust pipe 139 formed in the upper portion of the incinerator 130, the discharge pipe 151 for receiving the combustion by-products according to the incineration of the incineration and discharge steam; A waste collection device comprising a dust collection chamber 152 for collecting dust contained in a by-product, and a dust extraction port 153 for drawing dust collected in the dust collection chamber 152 to the outside . The lower end of the discharge pipe 151 is the upper end of the side of the dust collection chamber 152 so that the dust contained in the combustion by-product due to incineration of the incineration is collected in the dust collection chamber 152 by its own weight. Waste fluid combustion feast, characterized in that extending to a position lower than the connection portion of the exhaust pipe (139) connected to. According to claim 1, The positive electrode (106a) is a core 210 made of pure iron, one side is connected to the positive terminal of the bridge rectifier circuit 201, wound around the outer peripheral surface of the core 210 to the magnetic force The generated coil 211, a cylindrical body 212 surrounding the coil 211 at a predetermined distance from the coil 211, and a carbon brush installed at a predetermined distance on the inner circumferential surface of the cylindrical body 212 ( 213 and shafts (214) for supporting both ends of the cylindrical body (212). According to claim 1, Core 220 made of pure iron, one side is connected to the negative terminal of the bridge rectifier circuit 201, the coil 221 is wound around the outer peripheral surface of the core 220 to generate a magnetic force and And a cylindrical body 222 surrounding the coil 221 at a predetermined distance from the coil 221, a carbon brush 223 installed at a predetermined distance on an inner circumferential surface of the cylindrical body 222, and the cylindrical body. And a shaft (224) for supporting both ends of (122). According to claim 1, The positive electrode (106a) and the negative electrode (106b) is rotated in accordance with the drive of the drive motor 170, the particles of the aqueous paint or waste oil contained in the waste (W) (195) is The waste liquid combustion apparatus, characterized in that the liquid is attached to the positive electrode 106a, and is supported by the bearings 161a, 161b, 162a, 162b so that the + particles 196 are attached to the negative electrode 106b. . 2. The driven gear (1) according to claim 1, wherein driven gears (167, 168) are disposed in engagement with one of the shafts (214, 224) of the positive electrode (106a) and the negative electrode (106b), respectively, and are provided on the negative electrode (106b). 168 is engaged with the power transmission gear (169) installed on the rotating shaft (170a) of the drive motor (170).