JP2008038409A - Method for removing sprayed asbestos - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for removing sprayed asbestos efficiently. <P>SOLUTION: A hood 1 attached to parts around a nozzle header 23 to prevent steam 4 having high temperature and high pressure from escaping is applied to the sprayed asbestos, a spray of asbestos removing agent 3 jetted from the nozzle header is sprayed on the sprayed asbestos from a nozzle 2 for a period of predetermined hours, and then the asbestos are removed by using a spatula. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a method for efficiently removing asbestos sprayed onto the inner surface of a building.

  It is very difficult to remove asbestos sprayed on the inner surface of the building (hereinafter referred to as sprayed asbestos). Since asbestos fibers are in close contact with the small uneven surface of the concrete that constitutes the building, even if they are mechanically removed with a brush or the like, they cannot be easily removed.

  In addition, when mechanically removed, short fibers of asbestos are scattered in the air, and workers may inhale and harm their health, and may also damage people around asbestos peeling and dismantling operations. In addition, workers are required to wear dust-proof clothing inside a plastic curtain to prevent asbestos fibers from splashing outside, which is a heavy physical burden and it is extremely difficult to continue working. It was.

  Under such circumstances, various removal methods have been tried as a method of peeling and disassembling the sprayed asbestos. As a representative one, the JPI system construction method is known. This method is a method of mechanically removing asbestos-containing substances after spraying a wetting agent to make asbestos wet in order to prevent dust scattering of asbestos that occurs during removal. However, even if the asbestos is in a wet state, it cannot be easily peeled off, and there is a problem that a mechanical removal operation by arm force is required for a long time.

  In foreign countries, a method of removing asbestos by spraying pressurized fluid onto sprayed asbestos (Patent Document 1), a method of spraying and sucking pressurized steam onto asbestos (Patent Document 2), etc. have been tried. However, even with these methods, it is difficult to easily remove asbestos.

In Japan, a method of removing dry ice by spraying on asbestos has been proposed (Patent Document 3). However, in this construction method, asbestos fibers are pulverized and a large amount of dust is generated, but the amount of asbestos that is peeled off is small and the noise during operation is severe (105 dB), which is not suitable for actual use on site. is there.
US Pat. No. 5,016,314 US Pat. No. 4,872,920 JP 2004-305904 A

  Accordingly, an object of the present invention is to provide a method for efficiently removing sprayed asbestos.

  As a result of various studies in view of such circumstances, the present inventors have found that sprayed asbestos can be efficiently removed by removing the sprayed asbestos after applying the asbestos remover as a spraying body with a hooded nozzle. The present invention has been completed.

  That is, this invention provides the removal method of sprayed asbestos characterized by removing the sprayed asbestos after applying an asbestos removal agent to sprayed asbestos as a spray body with a hooded nozzle. .

  According to the present invention, scattering of asbestos can be suppressed, and sprayed asbestos can be efficiently removed in a short time.

The asbestos removing agent used in the present invention is not particularly limited, and those conventionally used for removing asbestos can be used, and an acid aqueous solution having an acid dissociation constant (pKa) of less than 6.4 is preferably used. be able to. An acid having a pKa of less than 6.4 has the effect of expanding the voids by dissolving calcium carbonate that has densified sprayed asbestos. Specific examples include nitric acid, hydrochloric acid, hydrofluoric acid, and the like, and one or more can be used in combination. Calcium nitrate or calcium chloride produced by reaction of nitric acid or hydrochloric acid with calcium carbonate is highly soluble in water, and calcium fluoride produced by reaction of hydrofluoric acid with calcium carbonate is dispersed in a colloidal form as fine particles. Therefore, it is preferable because the gap is not filled. Of these, the solubility of calcium nitrate is as high as 138 g / 100 g of water (20 ° C.), so nitric acid is particularly preferable.
These acids are preferably used as an aqueous solution of 0.1 to 35% by mass from the viewpoint of solubility of calcium carbonate and handleability.

In the present invention, the asbestos removing agent as described above is applied to the sprayed asbestos by a hooded nozzle as a spray body and moistened, and then the sprayed asbestos is removed.
The asbestos remover can also be applied as a spray mixed with high-temperature and high-pressure steam, and then, by applying high-temperature and high-pressure steam, the asbestos remover can be sprayed more easily into the asbestos. it can.

  The hooded nozzle consists of a nozzle header that mixes high-temperature and high-pressure steam and an asbestos remover, a nozzle that sprays the mixed spray body uniformly, a hood that prevents the spray body from spreading outside, and draining. You can use what you have.

  As the hooded nozzle, for example, the one shown in FIG. 1 can be used. Such a hooded nozzle is applied to sprayed asbestos, and a mixed spray of asbestos remover and steam is injected from the tip of the nozzle in a predetermined amount. Can be used. At that time, the hood exhibits a function of preventing the spray body from diffusing to the outside.

  As the hooded nozzle, a hooded multi-injection nozzle as shown in FIG. 2 can also be used. Such a hooded multi-injection nozzle is used by inserting the tip of the nozzle into a sprayed asbestos and injecting a predetermined amount of a mixed spray of asbestos remover and steam in the chamber from the tip of the nozzle. At this time, since the hood outside the chamber can be moved up and down by a spring mechanism in accordance with the nozzle insertion depth (asbestos thickness), it functions to prevent diffusion of the mixed spray body to the outside.

FIG. 3 shows a configuration when an asbestos remover is mixed with high-temperature and high-pressure steam and blown out from a nozzle as a spray body in the present invention. The nozzle header 23 in FIG. 3 is fed with high-temperature and high-pressure steam generated by an electric boiler through the steam pressure hose 21, and the asbestos remover supply pump 20 receives asbestos remover liquid from Teflon ( (Registered trademark) The tube 22 is pumped and mixed there.
The electric boiler is not particularly limited, but preferably has a short rise time from when the heater is energized until high-pressure steam can be used, avoiding heat convection in the lower pipe and efficiently supplying heat only to the heating pipe. An electric heating boiler with a steam generation efficiency of 95% or more is preferable (for example, Japanese Patent No. 2548969).

  FIG. 4 shows that the sprayer with the hood 1 attached to the nozzle header 23 is applied to the spraying asbestos on the ceiling, and the mixed spray is sprayed onto the spraying asbestos. Reference numeral 25 in FIG. 4 denotes a holder for holding the nozzle header 23, which makes it easier to work. The structure of the holder may be anything as long as the length can be adjusted by appropriate means. In FIG. 4, the steam pressure hose connected to the nozzle header and the Teflon (registered trademark) tube for pumping the asbestos remover are omitted.

The spraying asbestos peeling and removing operations can be performed as follows.
The hood 1 attached so that high-temperature and high-pressure steam does not escape around the nozzle header 23 is applied to the sprayed asbestos, and the sprayed body sprayed from the nozzle header 23 is sprayed on the asbestos for a predetermined time (several minutes). Press. Thereafter, the hood 1 of the nozzle header 23 is assigned to the next location, and the same operation is repeated. After repeating the same operation on sprayed asbestos between 2 to 3 m, asbestos is mechanically removed with a spatula or the like.

  The number of nozzles in the nozzle header 23 is not limited to one, and a plurality of nozzles may be used. FIG. 5 shows an installation state of four nozzle ports (indicated by +) on the side from which the spray body is ejected when there are four nozzles. A dotted circle indicates the range of the high-temperature and high-pressure spray body ejected from the nozzle port, and it can be seen that the spray is evenly injected into the hood 1.

  When a plurality of workers use a plurality of nozzle headers, a branch may be provided in the steam pressure hose 21 from the same electric boiler. In this case, if an individual asbestos remover supply pump is provided for each header 23, the operation becomes easy.

  In the present invention, when the sprayed body sprayed from the blowout nozzle is in the form of high-pressure steam, the tip of the blowout nozzle is made asbestos even in the case of asbestos sprayed on the building surface and firmly attached to the beam or the like. The asbestos remover can be easily impregnated and moistened only by bringing it close to. When a portion that cannot be removed remains, high temperature and high pressure steam may be sprayed repeatedly.

  Even in places that cannot be removed by a conventional mechanical removal method, such as a recessed narrow area on the surface of a building, it can be easily applied if an asbestos remover is used as a spray, particularly a high-temperature and high-pressure spray. Further, even in such a difficult place to remove, if high temperature and high pressure steam is sprayed after being wet, the steam can easily enter, so that the sprayed asbestos can be easily removed.

The amount of the asbestos remover used is preferably 0.01 to 8 kg / m ² , particularly 0.1 to 5 kg / m ² with respect to the thickness of 10 mm of the sprayed asbestos because the asbestos can be sufficiently wetted.
The spraying time is determined by the relationship between the thickness of sprayed asbestos, the amount of steam, and the size of the hooded nozzle.

  It is preferable to start the asbestos removal operation within 40 minutes, particularly within 30 minutes, and further within 15 minutes after application of the asbestos remover, because the wet state is maintained. The removal operation can be performed using, for example, a scraper for keren operation.

  EXAMPLES Next, although an Example is given and this invention is demonstrated further in detail, this invention is not restrict | limited to these at all.

Example 1 (implemented with a mock specimen)
As a simulated test body, 25 mm of rock wool was sprayed on a lambda material (600 × 1500 × 26) simulating a ceiling and a wall to prepare a test body. The nozzle header part has a hood (500 × 500 × 40 mm), and the number of nozzles is four. An electric boiler with a maximum working pressure of 1 MPa was used.

The removal method of the present invention was compared with the JPI system construction method as the prior art. In the JPI system construction method, 1.1 kg / m ^{2 of} protector sealant (manufactured by Nichias) was used as a wetting agent.
In the method of the present invention, a 5% by mass nitric acid aqueous solution was used as an asbestos remover. The coating amount is the same as that of the JPI system method and 55%, and the concentration of asbestos remover is adjusted by adding high-temperature and high-pressure steam to this 5% by mass nitric acid aqueous solution so that the nitric acid concentration becomes 1.25% by mass. did. The vapor pressure was 0.5 MPa.

As a method for removing asbestos after applying the asbestos remover, asbestos was removed by human power (scraper) as in the JPI system construction method.
The results are shown in FIGS.

The vertical axis in the figure shows the removal time of rock wool, the horizontal axis shows the concentration of asbestos removal agent in FIG. 6, the spraying time per time when the hood 1 is applied to rock wool, FIG. 8 shows the standing time until mechanical removal after applying the asbestos remover.
Moreover, in FIGS. 6-8, (circle) shows a ceiling part and (square) shows a wall part, and those numbers show an experiment number. The removal by the JPI system method showed values of 183 seconds at the ceiling and 120 seconds at the wall.

  In FIG. 6, the removal time is shorter in the present invention than in the JPI system construction method, and the ratio is as short as 79 to 32% at the ceiling and 88 to 80% at the wall. In the present invention, the removal time was shorter when the concentration of the asbestos removing agent was 15% than when it was 25%.

  In the spraying time of the asbestos removing agent per time when the hood 1 of FIG. 7 is applied to rock wool, the removal time of the present invention is shorter than that of the JPI system construction method for both the ceiling part and the wall part. In particular, in Experiment Nos. 3 and 4 in which the spraying time was 60 seconds, the removal time was short, shortened to about 40% at the ceiling and to about 60% at the wall.

  FIG. 8 is a summary of the above results from the standpoint of leaving time, and the removal time was shortened even if the leaving time was short. In particular, it is shown that the removal time is shorter in the present invention than in the JPI system method even when the standing time is as long as 40 minutes.

Example 2
A removal test was conducted in the field where asbestos was actually sprayed. The thickness of the asbestos sprayed is 3 cm at the ceiling and 1 cm at the wall, and the base is concrete.
The method of the present invention was performed under the following conditions. The JPI system construction method was performed under the same conditions as in the case of the simulated specimen. The removal time results are shown in Table 1.

-Nozzle with hood: Hood (500 x 500 x 40 mm), 4 nozzles.
-Asbestos remover: 5 mass% nitric acid aqueous solution.
Asbestos remover concentration: 1.25% by mass.
Steam amount: 313 cc / min (vapor pressure 0.5 MPa).
-Asbestos remover amount: 187.8 cc / min.
-Spraying time per nozzle hood: 20 seconds (per 1 cm asbestos).
・ Left time: 15 minutes.

  From the results shown in Table 1, the sprayed asbestos can be removed or peeled off in a short time according to the method of the present invention in both the ceiling and the wall.

It is a figure which shows an example of a nozzle with a hood. It is a figure which shows an example of the multi injection nozzle with a hood. It is a figure which shows an example of a structure at the time of mixing an asbestos removal agent with a high temperature / high pressure vapor | steam, and spraying out from a nozzle as a spray body. It is the figure which the worker applies the spraying device of the state which attached the hood 1 to the spraying asbestos of a ceiling part, and sprays the spray body. It is a figure which shows an example of the installation state of four nozzle ports by the side from which a spray body is ejected. In an Example, it is a figure which shows the difference in the removal time by an asbestos removal agent density | concentration. In an Example, it is a figure which shows the difference in the removal time by spraying time. In an Example, it is a figure which shows the difference in the removal time by leaving time.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Hood 2 Nozzle 3 Asbestos removal agent 4 Steam 5 Chamber 6 Handle 7 Spring 11 Upper pipe 12 Lower pipe 13 Heating pipe 14 Electric heater 15 Water supply pump 16 Water supply automatic device 17 Pressure control device 18 Open tank 19 Water softener 20 Asbestos removal Agent supply pump 21 Pressure-resistant hose 22 Teflon (registered trademark) tube 23 Nozzle header 24 Spraying asbestos 25 Holder 26 Chemical solution tank

Claims (3)

  The spraying asbestos removal method characterized by removing the spraying asbestos after applying an asbestos removal agent to spraying asbestos by a hooded nozzle as a spray body.   The method for removing sprayed asbestos according to claim 1, wherein the asbestos removing agent is applied as a spray body mixed with high-temperature and high-pressure steam.   The method for removing sprayed asbestos according to claim 1 or 2, wherein the asbestos remover contains an acid having an acid dissociation constant (pKa) of less than 6.4.

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