JPH11207137A - Wet waste gas treating device of ash melting furnace - Google Patents

Abstract

PROBLEM TO BE SOLVED: To effectively remove the dust in the waste gas of an ash melting furnace. SOLUTION: The waste gas 6 discharged from an ash melting furnace 1 is wet-treated by this wet waste gas treating device. The device is provided with a bubbling tank 2 for bubbling the waste gas 6 from the furnace 1 through a liq. absorbent 8 in the tank, a jet scrubber 3 for bringing the waste gas 6 from the tank 2 into contact with the jet stream of the absorbent 8 and an electrostatic precipitator 4 for passing the waste gas 6 from the scrubber 3 between the opposing electrodes impressed with a high voltage and washing away the fine particles adsorbed on the one electrode by the adsorbent 8.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wet exhaust gas treatment apparatus for treating exhaust gas discharged from an ash melting furnace in a wet manner.

[0002]

2. Description of the Related Art Various wastes such as municipal solid waste and sewage sludge have been incinerated in an incineration facility, and the resulting incinerated ash and dust have conventionally been disposed of in landfills. However, due to the problem of depletion of landfill sites and the problem of groundwater contamination due to elution of harmful heavy metals, the necessity for weight reduction, volume reduction, and detoxification by melting is increasing.

[0003] Under such a background, a melting treatment method using a residual carbon in ash, coke, kerosene, and electric power as a heat source has been proposed.
Actual processing is performed in part. Among them, there are a plasma arc heating method and a resistance heating method as a melting furnace using electric power as a heat source.

The resistance heating type ash melting furnace has a counter electrode disposed in a melting slag and heats and melts the ash by electric resistance heat (Joule heat) caused by direct current or alternating current.
It is characterized by 1) high thermal efficiency, 2) little generated gas, 3) no flicker due to no arc generation, and 4) separate slag that separates molten slag and molten metal.

An example of such a resistance heating ash melting method is disclosed in JP-A-7-77318. FIG. 4 shows a cross section of the ash melting furnace and a flow sheet of the front and rear facilities disclosed in the above publication. In the figure, a
Is an ash melting furnace, b is a top electrode, c is a furnace bottom electrode, d is a power supply device, e is a molten metal layer, f is a molten slag layer, g is a molten salt layer, h is a CO gas combustion furnace, i is a dust collector, j is a dust collecting fan, k is a chimney, and m is an electrode burying position adjuster. The feature of the present invention is a method of melting and processing incineration ash, soot and dust (fly ash) generated from a refuse incineration facility, or waste composed of a mixture of the two using electric resistance heat as a heat source. Electrolyzing molten salt by placing it in the molten slag layer f between the molten salt layer g and the molten metal layer e and applying current between the furnace bottom electrodes c in the vertical direction by direct current or two-phase alternating current. Without forming a molten salt layer g stably above the molten slag layer f, harmful chlorine gas,
The purpose is to prevent the generation of hydrogen chloride gas and the like.

However, when an operation is performed to form a molten salt layer g in the ash melting furnace a as described above, the molten salt has a very strong property of invading the furnace wall material. You need to use wall material. Further, since the molten salt having good electric conductivity penetrates into the furnace wall, a short circuit accident is likely to occur. Therefore, as a result of earnest research, the applicant of the present application has found that when electricity is supplied between the cathode at the bottom of the furnace and the anode inserted from the furnace lid to melt the ash by electric resistance heat, an alkaline salt such as sodium chloride (NaCl) is used. Decided to adopt an operation method that actively electrolyzes. According to this operation method, for example, salt is electrolyzed into chlorine gas and metallic sodium. Chlorine gas reacts with water vapor to form hydrogen chloride and hypochlorous acid,
Hypochlorous acid releases oxygen to hydrogen chloride. In addition, metallic sodium evaporates and becomes sodium oxide in an oxidizing atmosphere. These substances are contained in the exhaust gas and released to the outside. Note that the metallic sodium partially remains in the molten metal layer e.

However, the exhaust gas containing these substances is not shown in FIG.
When dry treatment is performed as shown in the above, these substances have a strong hygroscopic property, and when they absorb moisture, they adhere to the dust collector i, such as a bag filter or an electric dust collector, or the pipes and ducts along the way, together with dust.
It is difficult to remove and it is easy to cause clogging and performance deterioration.

Accordingly, the present applicant has developed a wet exhaust gas treatment apparatus and applied for a patent. For example, Japanese Patent Application No. 8-142
No. 631 “A flue gas treatment device of ash melting furnace” has a gas absorption tower for guiding the exhaust gas generated from the ash melting furnace as shown in FIG. 6 and absorbing dust and soluble components in the absorbing solution.
There is disclosed an exhaust gas treatment apparatus having a CO combustor for guiding exhaust gas from a gas absorption tower through a mist separator and burning CO gas in the exhaust gas.

Japanese Patent Application No. 8-146124, entitled "Exhaust Gas Absorbing Device for Ash Melting Furnace" contains a bubbling tank for containing an absorbing solution and causing the exhaust gas to dive inside the absorbing solution to cause foaming, and a cylindrical or cylindrical tank. It has an inverted conical body and has a reduced diameter part below, so that the exhaust gas of the ash melting furnace flows in from the top and flows tangentially to the upper end of the body from a bubbling tank via a pump. There is disclosed an exhaust gas absorption device having a body tank inner wall washed with a circulating absorption liquid and a buffer tank having a lower end immersed in the absorption liquid in a bubbling tank.

[0010] Further, in the 7th Annual Meeting of the Waste Management Society of Japan, 1996, a flow sheet of a pilot plant of an ash melting furnace and an exhaust gas treatment apparatus including the above invention is disclosed. FIG. 5 is the flow sheet. Since graphite is used for the upper electrode of the ash melting furnace and CO gas is generated, a CO combustion chamber is provided as shown in the figure.
The bubbling tank is provided to seal the outside air to keep the inside of the ash melting furnace at a pressure higher than the atmospheric pressure and to prevent the outside air from flowing back into the ash melting furnace.

[0011]

The DC electric resistance type ash melting furnace has a small amount of exhaust gas and is discharged from the furnace at a low temperature, so that the exhaust gas treatment can be made compact and the wet exhaust gas treatment can be effectively performed. On the other hand, the particle concentration in the exhaust gas is as high as about 150 to 200 g / m ³ , and the ratio of submicron fine particles is high in the particles. Such fine particles cannot be sufficiently collected by the conventional wet exhaust gas treatment apparatus, and 20 to 30% of dust is discharged to the next step.

The present invention has been devised in view of the above-mentioned problems of the prior art, and removes submicron-level fine particles by adding a wet electrostatic precipitator after a conventional wet exhaust gas treatment apparatus. It is an object of the present invention to provide a wet exhaust gas treatment device for an ash melting furnace that can perform the treatment.

[0013]

In order to achieve the above object, a wet exhaust gas treatment apparatus for an ash melting furnace according to the present invention is a wet exhaust gas treatment apparatus for treating an exhaust gas discharged from an ash melting furnace in a wet manner. A high voltage was applied to the exhaust gas from the jet furnace, and a bubbling tank for allowing the exhaust gas from the melting furnace to dive into the absorbing solution contained in the tank, a jet scrubber for bringing the exhaust gas from the bubbling tank into contact with the jet flow of the absorbing solution. A wet-type electrostatic precipitator is provided between the opposing electrodes and the fine particles adsorbed on one of the electrodes are washed away with an absorbing liquid.

[0014] Instead of the bubbling tank and the jet scrubber, a spray type gas absorption tower for passing exhaust gas into the sprayed absorbent may be used.

Next, the operation of the present invention will be described. Exhaust gas from the ash melting furnace is dedusted through a bubbling tank and a jet scrubber or, alternatively, a spray gas absorption tower. Exhaust gas containing fine dust that cannot be removed by these wet exhaust gas treatment devices is guided to a wet electric dust collector. The wet electrostatic precipitator applies a high voltage between the cathode of a thin electric wire and the upright cylindrical anode surrounding it, causing corona discharge from the cathode, and exhaust gas and atomized absorption liquid in the cylindrical anode. To adsorb the negatively charged fine powder and the absorbing liquid on the anode, and wash it away with the absorbing liquid from the upper end of the anode. Although the electric dust collector exhibits an excellent ability to collect fine dust, in particular, the wet electric dust collector is easy to treat dust because the dust accumulated on the anode is washed away by the absorbing liquid. Since the exhaust gas discharged from the electrostatic precipitator contains CO gas, it may be burned in a CO gas combustor and then released to the atmosphere. May lead.

[0016]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a flow sheet of a wet exhaust gas treatment apparatus for an ash melting furnace according to the first aspect of the present invention. In the figure, 1 is an ash melting furnace, 2 is a bubbling tank, 3 is a jet scrubber, and 4 is a wet electric dust collector. Fly ash and incinerated ash 5 are supplied to the ash melting furnace 1. Exhaust gas 6 from the ash melting furnace 1 is supplied to the bubbling tank 2 and is immersed in the absorbing liquid 8 contained in the tank 2,
Part of the dust in the exhaust gas 6 is absorbed. By providing the bubbling tank 2, the danger of outside air flowing back into the ash melting furnace 1 is eliminated. Exhaust gas 6 from the bubbling tank 2 is guided to the jet scrubber 3, where it is brought into contact with the jet stream of the absorbing liquid, and a part of the dust remaining in the exhaust gas 6 is absorbed by the absorbing liquid. Jet scrubber 3
The exhaust gas 6 from is discharged to the wet electric precipitator 4. FIG.
Indicates the structure of the wet type electrostatic precipitator 4. The wet type electrostatic precipitator 4 includes an upper tank 4a, a lower tank 4b, an upright cylindrical anode 4c connecting the upper tank 4a and the lower tank 4b, and a cathode 4d made of a thin electric wire penetrating vertically through the anode 4c. It has. Both ends of the cathode 4d are insulated from the upper tank 4a and the lower tank by a pair of insulators 4f. The cathode 4d is preferably a barbed wire. A high voltage power supply 4e is connected to the anode 4c and the cathode 4d and applies a high voltage of tens of thousands volts between the electrodes 4c and 4d. The anode side of the high voltage power supply 4e is grounded.
4 g is a spray nozzle for spraying the absorbing liquid 8. 4h
Is an exhaust gas inlet provided in the lower tank 4b, and 4i is an exhaust gas outlet provided in the upper tank 4a. The fine dust remaining in the exhaust gas 6 is removed by the wet electrostatic precipitator 4.

Next, the operation of the present embodiment will be described. Exhaust gas 6 from the ash melting furnace 1 passes through the bubbling tank 2 and the jet scrubber 3 to remove dust. The exhaust gas 6 containing fine dust that cannot be completely removed by these wet exhaust gas treatment devices is guided to the wet electric dust collector 4. The exhaust gas 6 flows into an exhaust gas inlet 4h provided in the lower tank 4b, rises in the anode 4c, and is discharged from an exhaust gas outlet 4i provided in the upper tank 4a. The absorbing liquid 8 is sprayed from a spray nozzle 4g provided above the anode 4c and descends inside the anode 4c. Part of the absorbing liquid 8 overflows from the upper tank 4a and flows down along the inner wall of the anode 4c.

A corona discharge is generated from the cathode 4d to the anode 4c by the high voltage, and fine dust and water droplets of the absorbing liquid are negatively charged and adsorbed on the anode 4c. These are absorbing liquid 8 flowing down along the wall surface from the upper end of anode 4c.
Is washed away by Since the exhaust gas 6 discharged from the wet electric precipitator 4 contains CO gas generated in the ash melting furnace 1, the exhaust gas 6 is burned in a CO gas combustor and then discharged to the outside, or the exhaust gas 6 is subjected to secondary discharge. It is led to a garbage incinerator (not shown) together with the combustion air.

FIG. 2 is a flow sheet of a wet exhaust gas treatment apparatus for an ash melting furnace according to the second aspect of the present invention. The embodiment shown here differs from the embodiment shown in FIG. 1 in that a spray type gas absorption tower is used instead of the bubbling tank 2 and the jet scrubber 3. The spray-type gas absorption tower 8 sprays the absorption station 8 from a spray nozzle 7a provided at the top of the tower, is introduced from below the tower, rises in the tower, and comes into contact with the exhaust gas 6 discharged from the top of the tower to absorb the gas. The liquid 8 absorbs dust.

The present invention is not limited to the embodiments described above, and various changes can be made without departing from the gist of the invention.

[0021]

As described above, the exhaust gas treatment apparatus of the ash melting furnace according to the present invention has a wet electric dust collector added after the ordinary wet exhaust gas treatment apparatus, so that submicron-level fine dust is completely removed. At the same time, the dust adsorbed on the anode by the electrostatic precipitator is washed away by the absorbing liquid, and thus has an excellent effect such as easy treatment of the dust.

[Brief description of the drawings]

FIG. 1 is a flow sheet of an exhaust gas treatment device for an ash melting furnace according to the first aspect of the present invention.

FIG. 2 is a flow sheet of an exhaust gas treatment apparatus for an ash melting furnace according to the second aspect of the present invention.

FIG. 3 is a cross-sectional view of the wet electric precipitator.

FIG. 4 is a drawing including a cross-sectional view of a conventional ash melting furnace and a flow sheet of an exhaust gas treatment device.

FIG. 5 is a flow sheet of a conventional wet exhaust gas treatment apparatus.

FIG. 6 is a flow sheet of a conventional wet exhaust gas treatment apparatus.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Ash melting furnace 2 Bubbling tank 3 Jet scrubber 4 Wet electric dust collector 6 Exhaust gas 7 Spray type gas absorption tower

──────────────────────────────────────────────────の Continuation of front page (51) Int.Cl. ⁶ Identification symbol FI B03C 3/014 B03C 3/16 Z 3/02 3/01 A 3/16 B09B 3/00 303K B09B 3/00 (72) Invention Person Jujiro Umeda 1-Shin-Nakahara-cho, Isogo-ku, Yokohama-shi, Kanagawa Ishikawashima-Harima Heavy Industries, Ltd. (72) Inventor Hideki Iwata 2-1-1, Toyosu, Koto-ku, Tokyo in the factory

Claims (2)

[Claims] 1. A wet exhaust gas treatment device for treating exhaust gas discharged from an ash melting furnace in a wet manner, comprising: a bubbling tank for allowing the exhaust gas from the ash melting furnace to dive into an absorbing solution contained in a tank; A jet scrubber that brings the exhaust gas from the jet into contact with the jet stream of the absorbent, and a wet-type electrostatic precipitator in which the exhaust gas from the jet scrubber flows between the opposed electrodes to which a high voltage is applied, and the fine particles adsorbed on one electrode are washed away with the absorbent. A wet exhaust gas treatment device for an ash melting furnace, comprising: 2. The wet exhaust gas treatment apparatus for an ash melting furnace according to claim 1, wherein the bubbling tank and the jet scrubber are replaced with a spray type gas absorption tower for passing exhaust gas into a sprayed absorbent.