JP3847489B2 - Sulfur hexafluoride gas recovery device and recovery method thereof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a facility for recovering sulfur hexafluoride (hereinafter referred to as SF ₆ ) gas sealed in a gas-insulated transformer or a gas-insulated switchgear, and a method for recovering the facility.
[0002]
[Prior art]
SF ₆ gas is regulated to be released into the atmosphere as a regulated gas for preventing global warming. For this reason, SF ₆ gas used as an insulating gas in electrical equipment is basically reclaimed.
The electrical equipment in which SF ₆ gas is sealed is contaminated with SF ₆ gas during operation, and its purity is lowered. Factors that lower the purity include cracked gases such as carbon compounds that are decomposition products generated by the entry of trace amounts of moisture and air that leach from the organic materials inside the device during operation, and discharges inside the device. A reaction product formed by a reaction between a gas and a component of an electrical device (hereinafter, substances generated by discharge or the like are collectively referred to as “decomposition product”). In addition, in the process of collecting and disassembling SF ₆ gas during assembly / disassembly at electrical equipment manufacturing factories and installation sites, and periodic inspections, it is unavoidable that moisture and air are mixed in, and the purity of the collected SF ₆ gas decreases. It is a factor.
[0003]
In the recycling of SF ₆ gas, handling is to use adsorbents to remove impurities of SF ₆ gas, the decomposition products produced by such discharge may contain hazardous substances spent adsorbent Be careful.
However, the increase in the amount of used adsorbents containing harmful substances has an impact on the environment, and the development of a method for reusing has become an issue. In order to reuse the adsorbent, an amount of the portion that cannot be reused is as small as possible, and means for purifying the SF ₆ gas economically is necessary. Reusing the adsorbent is nothing less than reducing the burden on the environment and reducing the recovery cost of SF ₆ gas.
On the other hand, the single unit capacity of electrical equipment using SF ₆ gas tends to increase gradually, and the SF ₆ gas recovery device needs to be increased accordingly. Further, in recent years, large-capacity substation facilities using SF ₆ gas are often installed in basements, buildings, etc., particularly in urban areas, and the realization of an easy-to-handle SF ₆ gas recovery device is desired.
[0004]
FIG. 3 is a block diagram showing the gas regeneration processing facility described in the Electric Cooperative Research Group Material Vol. 54, No. 3, p. 103. In this gas regeneration processing facility, SF ₆ gas recovered from electrical equipment is subjected to metal fluoride removal, decomposition gas removal, moisture removal, and air removal, and then liquefied and stored. In addition, it has a function of vaporizing the stored liquefied SF ₆ and filling the electrical equipment. Japanese Patent Application Laid-Open No. 10-230124 also describes an SF ₆ gas recovery / purification apparatus having substantially the same function.
[0005]
[Problems to be solved by the invention]
The conventional SF ₆ gas recovery / purification apparatus has the following problems.
The first problem, exploded in a manufacturing plant and the location of the electrical device, or when attempting one of SF ₆ gas recovery and refining the SF ₆ gas recovery in such periodic inspection, the adsorption capacity of the adsorbent Is saturated early and needs to be replaced frequently. When abnormal discharge occurs inside the electrical equipment encapsulating SF ₆ , harmful decomposition gas such as SO ₂ and HF and reaction product such as CuF ₂ are generated. Therefore, the used adsorbent contains these harmful substances. In other words, storage or disposal of the used adsorbent becomes a heavy burden.
[0006]
The second problem is that moisture and air released from the organic part of the insulator during the operation of the electrical equipment, and carbon compounds such as CO, CO ₂ , CF ₄ , and CH ₄ generated by exposure to high temperatures. Although mixed in SF ₆ gas, since the conventional adsorbent is not omnipotent for these components, the purity of SF ₆ gas recovery is reduced.
The third problem is that the conventional SF ₆ gas recovery / purification device is composed of a compressor unit, an adsorption tower, a recovery tank unit, etc., and is bulky and heavy. Handling such as loading, installation, and unloading is not easy. In particular, when an electrical device filled with SF ₆ gas is installed in a basement or a building, the selection of the SF ₆ gas recovery method becomes a big problem.
[0007]
The present invention has been made to solve the above-mentioned problems. It is easy to handle, has a small decrease in purity of the recovered SF ₆ gas, and generates a small amount of used adsorbent, which can be stored or disposed of. An easy SF ₆ gas recovery method and recovery apparatus are realized.
[0008]
[Means for Solving the Problems]
The SF ₆ gas recovery apparatus according to the present invention includes a plurality of adsorption units that can be connected independently and in any combination according to impurities mixed in the SF ₆ gas, and the adsorption unit heats the loaded adsorbent. Adsorbent regeneration means for discharging impurities adsorbed by the adsorbent is provided.
Further, the adsorption unit is provided with forced circulation means.
[0009]
The SF ₆ gas recovery method according to the present invention adsorbs impurities mixed in the closed vessel and the SF ₆ gas by the first step of collecting the SF ₆ gas pressure in the closed vessel until the atmospheric pressure becomes almost atmospheric pressure, and forced circulation means. A second step of refining the SF ₆ gas remaining in the sealed container, and a third step of evacuating and collecting the SF ₆ gas remaining in the sealed container; A fourth step of regenerating the adsorbent loaded in the adsorption unit by the adsorbent regeneration means provided in the adsorption unit is provided.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
<Outline of the invention>
The most significant feature of the present invention is that a recovery function unit composed of a vacuum pump, a compressor, a cooler, a filter, etc., a recovery unit for SF ₆ gas composed of a recovery / storage tank, and an adsorbent corresponding to various impurities. The SF ₆ gas recovery device is configured as an assembly of the loaded adsorption units. Further, in the adsorption unit that does not adsorb harmful substances, a function for regenerating the loaded adsorbent is added. Each unit can be operated arbitrarily by combining it selectively according to the state of SF ₆ gas recovery, such as when assembling electrical equipment at the factory, on-site assembly, maintenance inspection, inspection in case of abnormality, or regular periodic inspection. The configuration can be realized.
That is, the SF ₆ gas recovery apparatus according to the present invention specifies impurities in advance according to the state of SF ₆ gas recovery, and applies an adsorption unit according to the specified impurities. For this reason, SF ₆ gas recovery is performed. The device can be optimized in units, and the adsorbent that does not contain harmful substances can be regenerated.
[0011]
The outline of the configuration method, operation procedure, and adsorbent regeneration during operation of the SF ₆ gas recovery apparatus according to the present invention will be described below.
1. Select the suction unit according to the collection status and set the operation configuration.
(1) If an error in the electrical device occurs, since the cracked gas or reaction product material and carbon compounds typically SF ₆ gas is observed, recovering SF ₆ gas using an adsorption unit for adsorbing this substance To do.
(2) In the case of factory assembly, on-site assembly, periodic inspection, etc., the substance as described in (1) is not recognized, so the SF ₆ gas is recovered using an adsorption unit corresponding to moisture and air.
2. When collecting the SF ₆ gas, the SF ₆ gas pressure inside the electrical equipment is collected until it reaches atmospheric pressure, and then the residual SF ₆ gas inside the electrical equipment is circulated by forced circulation means to sufficiently remove impurities, and vacuum The SF ₆ gas is recovered by the pump so that it does not remain.
3. For the adsorption unit that does not adsorb harmful substances, the adsorbent loaded as a single adsorption unit is regenerated by heating means and exhaust means. However, neither the heating means nor the exhaust means is provided for the decomposition gas / reaction product adsorption unit containing harmful substances.
[0012]
Embodiment 1 FIG.
FIG. 1 is a block diagram for explaining an operational configuration in which the SF ₆ gas recovery apparatus according to the first embodiment of the present invention is applied under recovery conditions to be described later. In the figure, reference numeral 1 denotes an electric device enclosing SF ₆ gas such as a gas insulation transformer, and 2 denotes a liquefied SF ₆ gas recovery unit (hereinafter simply referred to as “recovery unit”), which includes a vacuum pump, a compressor, The compressor block 2a is composed of a cooler, a filter and the like and has a recovery function, and the cylinder 2b functions as a recovery / storage tank. Of course, this cylinder may be a dedicated collection / storage tank. Reference numeral 3 denotes a cracked gas / reaction product adsorbing unit, which includes an adsorption cylinder 3a enclosing an adsorbent for the cracked gas / reaction product. 4 is a carbon compound adsorption unit, an adsorption cylinder 4a enclosing an adsorbent for the carbon compound, an electric heater 4b serving as heating means provided on the outer periphery of the adsorption cylinder 4a, and an exhaust provided at the outlet of the adsorption cylinder 4a. A vacuum pump 4c as a means and a compressor 4d as a forced circulation means provided at the other outlet of the adsorption cylinder 4a are provided. Reference numerals 10a to 10d are pipes connecting between the units and between the electric apparatuses 1, and 10e is a pipe line used for filling the electric apparatus 1 with SF ₆ gas.
[0013]
Operation configuration shown in Figure 1, and resulting overheating or discharging the electrical device, carrying out the recovery and purification of SF ₆ gas, cracked gas in advance SF ₆ gas, if the presence of the reaction product material or a carbon compound was detected Applies to Hereinafter, an operation procedure when the SF ₆ gas is recovered and purified using such an operation configuration will be described.
Procedure 1. The recovery unit 2 is operated, and the SF ₆ gas pressure inside the electric device 1 is about atmospheric pressure through the route of the electric device 1 → the cracked gas / reaction product adsorption unit 3 → the carbon compound adsorption unit 4 → the compressor block 2a → the cylinder 2b. Collect until
Procedure 2. The recovery unit 2 is suspended and the compressor 4d, which is a means for forced circulation of residual SF ₆ gas, is operated, and the electric equipment 1 → the cracked gas / reaction product adsorbing unit 3 → the carbon compound adsorbing unit 4 → the compressor 4d → electric The residual SF ₆ gas is circulated until the specified purity is obtained by absorbing impurities in the SF ₆ gas remaining in the electric device 1 through the circulation path of the device 1.
Procedure 3. The compressor 4d, the cracked gas / reaction product adsorbing unit 3 and the carbon compound adsorbing unit 4 are suspended, and remain in the electric device 1 through the conduit 10d through the path of the electric device 1 → the compressor block 2a → the cylinder 2b. Further recover the SF ₆ gas.
[0014]
The operational configuration shown in Fig. 2 is intended for factory assembly, on-site assembly, and periodic inspection, and is configured to recover and purify SF ₆ gas and regenerate the adsorbent. Each unit is composed of an adsorbing unit and a collecting unit. In the figure, 5 is a moisture adsorption unit, which includes an adsorption cylinder 5a enclosing an adsorbent for moisture, an electric heater 5b provided on the outer periphery of the adsorption cylinder 5a, and a vacuum pump 5c provided at the outlet of the adsorption cylinder 5a. Yes. 6 is an air adsorption unit, an adsorption cylinder 6a enclosing an adsorbent for air, an electric heater 6b provided on the outer periphery of the adsorption cylinder, a vacuum pump 6c provided at the outlet of the adsorption cylinder 6a, and other adsorption cylinders 6a. A compressor 6d provided at the outlet is provided. Reference numerals 11a to 11e are pipes for connecting the units and between the electric apparatuses 1, and 11e is a pipe line used for filling the electric apparatus 1 with SF ₆ gas.
[0015]
An operation procedure in the case where the SF ₆ gas is recovered and purified using such an operation configuration will be described below.
Procedure 1. The recovery unit 2 is operated, and recovery is performed until the SF ₆ gas pressure inside the electrical equipment reaches about atmospheric pressure through the path of the electrical equipment 1 → the moisture adsorption unit 5 → the air adsorption unit 6 → the compressor block 2a → the cylinder 2b.
Procedure 2. The recovery unit 2 is suspended, the compressor 6d serving as a forced circulation means is operated, and remains in the electric device 1 through the circulation path of the electric device 1 → the moisture adsorption unit 5 → the air adsorption unit 6 → the compressor 6d → the electric device 1 SF ₆ gas moisture that circulates the remaining SF ₆ gas until specified purity absorb air.
Procedure 3. The compressor 6d, the moisture adsorbing unit 5 and the air adsorbing unit 6 are suspended, and SF ₆ gas remaining in the electric device 1 is further passed through the conduit 11d through the path of the electric device 1 → the compressor block 2a → the cylinder 2b. to recover.
[0016]
The operational procedure for regenerating the adsorbent is described below.
The electric device 1 and the recovery unit 2 are separated, and the vacuum pumps 4c, 5c, and 6c are operated by each of the adsorption units alone, and the electric heater of the adsorption cylinder is energized and heated for a predetermined time to regenerate the adsorbent.
Note that the adsorbent of the cracked gas / reaction product adsorbing unit adsorbs some harmful substances, so it is detoxified and disposed of. Furthermore, if the adsorbent of the carbon compound unit contains some harmful substances, it is disposed of after being detoxified in the same manner as the decomposition gas / reaction product adsorbing unit.
[0017]
Next, the handling when installing the SF ₆ gas recovery apparatus according to the present invention will be described.
An adsorption unit and a recovery unit corresponding to each specified impurity are installed in the vicinity of the electric device 1. In this case, transportation, installation, loading and unloading are handled in units because they are separable units. After installation, each unit is connected with a conduit that does not leak, and is prepared for recovery.
[0018]
As described above, in the SF ₆ gas recovery apparatus according to the first embodiment of the present invention, the impurities are specified in advance according to the recovery status of the SF ₆ gas, and independent according to each specified impurity. Because the adsorption unit for impurities that do not need to consider toxicity is equipped with an adsorbent regeneration function by heating means and exhaust means, using an adsorption unit,
1. Since the adsorbent that does not contain harmful substances can be reused without being discarded, the amount of adsorbent discarded can be reduced.
2. The SF ₆ gas can be recovered more economically by reusing the adsorbent.
3. Since the SF ₆ gas recovery unit is configured as an independent unit, handling such as transportation, installation, loading and unloading becomes easy.
[0019]
In addition, since the forced circulation means is provided so that the SF ₆ gas sealed between the specific adsorption unit and the electric device can be circulated independently of the recovery unit, impurities in the residual gas inside the electric device are sufficiently removed. In addition, almost 100% of the SF ₆ gas can be recovered.
[0020]
In the above description, the SF ₆ gas sealed in the electric device is recovered and purified. However, the target electric device is merely an example, and it can be applied to a sealed container such as an SF ₆ gas storage tank. Not too long.
[0021]
Embodiment 2. FIG.
In the first embodiment, the recovery of SF ₆ gas by the decomposition gas reaction generant adsorption unit and a carbon compound adsorption units, has been described the recovery of SF ₆ gas by the water adsorption unit and air suction unit, by the recovery situation Each adsorption unit may be used alone.
In this case, the equipment can be minimized according to the situation, and handling such as transportation, installation, loading and unloading is further improved. Further, if the moisture adsorption unit is provided with a forced circulation means like the air adsorption unit, the utilization of the single unit can be further improved.
[0022]
【The invention's effect】
The SF ₆ gas recovery apparatus according to the present invention includes a plurality of adsorption units that can be connected independently and in any combination according to impurities mixed in the SF ₆ gas, and the adsorption unit heats and adsorbs the loaded adsorbent. since agent having an adsorbent regeneration means for discharging impurities adsorbed, transportation, installation, handling, such as loading and unloading at the same time is easy, can be suppressed disposal of adsorbent for the adsorbent can play SF ₆ Gas recovery is more economical.
Further, since the adsorption unit is provided with forced circulation means, the adsorbent can be easily regenerated.
[0023]
The SF ₆ gas recovery method according to the present invention adsorbs impurities mixed in the closed vessel and the SF ₆ gas by the first step of collecting the SF ₆ gas pressure in the closed vessel until the atmospheric pressure becomes almost atmospheric pressure, and forced circulation means. A second step of refining the SF ₆ gas remaining in the sealed container, and a third step of evacuating and collecting the SF ₆ gas remaining in the sealed container; Since the fourth step of regenerating the adsorbent loaded in the adsorption unit by the adsorbent regeneration means provided in the adsorption unit is provided, the purity of the recovered SF ₆ gas is improved.
[Brief description of the drawings]
FIG. 1 is a block diagram for explaining a first operational configuration of an SF ₆ gas recovery apparatus according to the present invention.
FIG. 2 is a block diagram for explaining a first operational configuration of an SF ₆ gas recovery apparatus according to the present invention.
FIG. 3 is a block diagram of a conventional SF ₆ gas purification facility.
[Explanation of symbols]
1 ‥ SF ₆ encapsulated electrical apparatus, 2 ‥ recovery unit 3 ‥ decomposition gas reaction generant adsorption unit, 4 ‥ carbon compound adsorption unit 5 ‥ moisture adsorption unit, 6 ‥ air adsorbing unit

Claims (3)

In the sulfur hexafluoride gas recovery device that liquefies and recovers sulfur hexafluoride gas sealed in a sealed container, it can be connected independently and in any combination according to the impurities mixed in the sulfur hexafluoride gas A plurality of adsorption units, and the adsorption unit comprises adsorbent regeneration means for heating the loaded adsorbent and discharging the impurities adsorbed by the adsorbent. . 2. The sulfur hexafluoride gas recovery device according to claim 1, wherein the adsorption unit is provided with forced circulation means. In the sulfur hexafluoride gas recovery method for liquefying and recovering sulfur hexafluoride gas sealed in a sealed container, a first step of recovering until the sulfur hexafluoride gas pressure in the sealed container is almost atmospheric pressure. And a circulation path that passes through an adsorption unit that adsorbs impurities mixed in the closed vessel and the sulfur hexafluoride gas by forced circulation means, and purifies the sulfur hexafluoride gas remaining in the closed vessel A second step, a third step in which the sulfur hexafluoride gas remaining in the sealed container is evacuated and recovered, and an adsorbent loaded into the adsorption unit by an adsorbent regeneration means provided in the adsorption unit. A method for recovering sulfur hexafluoride gas, comprising a fourth step of regenerating.

Images