KR20150066413A - Agglutination of inertia and the adsorption of hazardous asbestos method to eliminate the ultrafine particles and the device. - Google Patents

Abstract

The present invention provides a technology for eliminating ultra-fine particles of hazardous asbestos or the like from a harmful asbestos generation source space. The present invention is to eliminate the ultra-fine particles among macro-particles, micro-particles and ultra-fine particles included in dust generated in a removal space or the like. The solution of the subject comprises: first, filtering the macro-particles and the micro-particles by an MF-membrane module (20) in a primary stage; bumping primarily processed ultra-fine particle materials against a characterized functional primary module (30) with adsorbability by movement inertia caused by mass and sticking the bumped particles again by a mucus material with adsorbability to prevent the bumped particles from being rescattered and to remove the ultra-fine particle materials in a secondary stage; and bumping the ultra-fine particle materials, less removed in the secondary stage, against a characterized functional secondary module (40) with adsorbability by movement inertia caused by mass once again and sticking the bumped particles again by a mucus material with adsorbability to prevent the bumped particles from being rescattered and to repetitively remove the ultra-fine particle materials in a tertiary stage, thereby increasing or decreasing the number of modules and controlling fluid flow with an rpm varying fan according to the space volume or work environment by a fused method of inertia and adsorption, so the present invention may maintain sound pressure in the tertiary stage. The present invention provides an apparatus for eliminating the ultra-fine particles of the hazardous asbestos by using the method. The present invention has an effect that the hazardous asbestos, which exerts an adverse influence on a physical body, may not be detected.

Description

[0001] The present invention relates to an apparatus for removing harmful asbestos ultrafine particles by a method of inertia and adsorption fusion.

The present invention effectively removes asbestos ultrafine particles suspended in the vicinity of asbestos sources such as asbestos manufacturing, use, dismantling and elimination sites by inertial and adsorption fusion methods.

Asbestos use is increasing due to the rapid industrial development in modern industrial society, and the use of asbestos and demolition of buildings has caused the fine particles of asbestos asbestos suspended around the source of asbestos to cause health and scientific health effects to workers and workers. .

Various techniques have been developed and used to remove the above-mentioned harmful suspended asbestos particles, but techniques for efficiently removing harmful ultra fine particles are still insufficient.

Currently, existing methods for removing suspended asbestos particles include " a method of collecting harmful dust such as discharged asbestos, discharging it after filtration, " and the like. However, this treatment method can not remove ultrafine particles smaller than the pore size of the filter paper. Considering these points, there is a disadvantage that secondary pollution can be caused.

Asbestos Removal Reference - Application No. 1020080053778 (2008.06.09) Asbestos removal system and asbestos removal method Reference - Application No. 10-2007-0075828 (2008/02/20)

http://blog.daum.net/hts26272/10 http://psd8127.blog.me/80163802952

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above problems occurring in the prior art, and it is an object of the present invention to provide an asbestos- The present invention also provides a device for adjusting the sound pressure at a same time and safely removing harmful asbestos ultrafine particles using the same.

In order to achieve the above object, the present invention is an MF-membrane module 20 as a primary treatment process. MF-membrane is a filtration function that filters out harmful asbestos ultrafine particles floating around asbestos sources.

In the secondary treatment process, asbestos ultrafine particles remaining after the treatment in the primary treatment process are adsorbed to the functionalized primary module 30 having adsorption property due to inertia of mass due to flow velocity.

As a result of the tertiary treatment, the asbestos ultrafine particles remaining after the treatment in the secondary treatment process are adsorbed to the functionalized secondary module 40 having the adsorption property due to the inertia of mass due to the flow velocity.

As a result, each process can be detached and attached to each module. Therefore, it is possible to remove harmful asbestos ultrafine particles through primary, secondary, and tertiary processes, and to increase the number of processes when necessary. When using again, replace the filter medium and the adsorption media with the contaminated module.

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[도 2]는 유해석면 초 미세입자 등을 제거하는 공정의 본체 평면도이다. 각 공정별 명칭은 다음과 같다. 오염공기유입부(10), MF-membrane모듈(20), 특성화된기능성1차모듈(30), 특성화된기능성2차모듈(40), RPM가변용배기휀(50), 청정공기출구부(60)이다.

[도 3]은 유해석면 초 미세입자를 제거하는 공정의 본체 정면도이다. 각 공정별 명칭은 다음과 같다. MF-membrane모듈(20), 특성화된기능성1차모듈(30), 특성화된기능성2차모듈(40), RPM가변용배기휀(50)이다.

[도 4]는 1차 처리공정으로 MF-membrane모듈(20)이다. MF-membrane을 사용하여 석면발생원 주변에서 부유하고 있는 유해석면 초 미세입자 등을 걸러내는 여과기능이다.

[도 5]는 2차 처리공정으로 1차 처리공정에서 처리 후 잔류 유해석면 초 미세입자들이 유속에 의한 운동관성으로 흡착성이 있는 특성화된기능성1차모듈(30)에 흡착하게 된다.

[도 6]은 3차 처리공정으로 2차 처리공정에서 처리 후 잔류 유해석면 초 미세입자들이 유속에 의한 운동관성으로 흡착성이 있는 특성화된기능성2차모듈(40)에 흡착하게 된다.

Fig. 1 is a whole process diagram for "removing harmful asbestos ultrafine particles suspended in the vicinity of an asbestos generating source by a method of kinetic mass inertia and adsorption fusion" according to the present invention.

[Fig. 2] is a main body plan view of a process for removing harmful asbestos ultrafine particles and the like. The name of each process is as follows. The MF-membrane module 20, the functionalized primary module 30, the functionalized secondary module 40, the RPM variable exhaust fan 50, and the clean air outlet portion 60).

[Fig. 3] is a front view of a main body of a process for removing harmful asbestos ultrafine particles. The name of each process is as follows. A MF-membrane module 20, a functionalized primary module 30, a functionalized secondary module 40, and an RPM variable exhaust fan 50.

[Figure 4] is the MF-membrane module 20 in the primary treatment process. MF-membrane is a filtration function that filters out harmful asbestos ultrafine particles floating around asbestos sources.

5 is a view showing a state where the asbestos ultrafine particles remaining after treatment in the primary treatment step are adsorbed to the functionalized primary module 30 having the adsorptivity to the motion inertia due to the flow rate in the secondary treatment step.

FIG. 6 shows that the asbestos ultrafine particles remaining after the treatment in the secondary treatment step are adsorbed to the functionalized secondary module 40 having the adsorbability to the movement inertia due to the flow rate in the tertiary treatment process.

If the fan is installed around the source of harmful asbestos and the power is turned on and the fan is returned to a certain rpm, the large MF and MF are filtered by the MF-membrane module 20 by the suction force. In the second MF, The tenant material strikes the functionalized primary module 30 which is adsorbed by the mass inertia, and the collided particles are stuck again by the adsorbable mucilage material and are not removed again due to the non-scattering. The tertiary leaner material, which is less removed from the secondary, is again hit by the mass-induced kinetic inertia of the functionalized secondary module 40, which is adsorbed, and the collided particles are stuck again by the adsorbing mucilage material It is a feature that it is repeatedly removed because it does not occur scattering. It can keep the sound pressure by adjusting the number of modules depending on the spatial volume or work environment by controlling inertia, adsorption and fusion, and controlling the fluid flow by the rpm variable fan.

[Example]

In the conventional method, there is an example in which "collecting harmful dust such as asbestos to be discharged, and then discharging it after filtration" is used. However, there is no apparatus for removing asbestos ultrafine particles floating around asbestos source by inertia and adsorption fusion method. It was not detected when the micro dust particles were generated in a simple manner.

Asbestos is a generic term for six fibrous minerals that naturally exist in the environment. One of them, Baekseok-myeon, belongs to the serpentine series, and the rest belongs to the amphibolite series. All forms of asbestos are harmful to the human body and can cause cancer. However, it is known that hornblende series such as chalcopyrite and gallstone are more harmful to health than Baekseok-myeon, which is a serpentine series. Asbestos minerals consist of thin, separable fibers with a parallel arrangement. Non-fiber forms of tremolite, actinolite and anthophyllite, which are not in fiber form, are also found naturally. However, these forms are not classified as asbestos minerals because they are not fibrous.

Amphibole-based asbestos fibers are generally brittle and often have long, slender rods or needles. On the other hand, Baekseok-myeon has a flexible and curved shape. White stone asbestos is the most common type of asbestos commercially available. Asbestos particles are known to have a length of about 0.1 to 10 μm and are mainly related to respiratory diseases.

This is because asbestos fibers of this size can easily settle in the lungs through the respiratory system. This is the reason why asbestos fibers are defined as having a length-to-diameter ratio of more than 5 μm and a ratio of 3: 1 or more in the Occupational Safety and Health Research Institute and Occupational Safety and Health Administration. Asbestos has no detectable flavor and taste, and is excellent in heat resistance and fire resistance. Asbestos fibers are chemically inert and do not evaporate, melt, burn, and do not chemically react with most chemicals. Because of these properties, asbestos has been used in a wide range of products such as building materials, friction materials, and heat resistant textiles. Therefore, the harmful asbestos tenant who is involved in the manufacture, use and dismantling of asbestos is required to remove harmful asbestos ultrafine particles through the preliminary investigation plan and work before the work, Is expected to continue to be consumed in the future.

(10) - contaminated air inlet,
(20) -MF-membrane module,
(30) - characterized primary functional modules,
(40) - a specialized functional secondary module),
(50) -RPM Variable exhaust fan,
(60) - clean air outlet portion

Claims (1)

In the process for removing harmful asbestos ultrafine particles, macromolecules and fine particles are filtered by the first MF-membrane module 20, and in the second, ultrafine particles, which are treated first, , And the collided particles are stuck again by the adsorbable mucus material, and are not removed again, so that the particles are removed. The tertiary leaner material, which is less removed from the secondary, is again hit by the mass-induced kinetic inertia of the functionalized secondary module 40, which is adsorbed, and the collided particles are stuck again by the adsorbing mucilage material It is a feature that it is repeatedly removed because it does not occur scattering. It can keep the sound pressure by adjusting the number of modules depending on the spatial volume or work environment by controlling inertia, adsorption and fusion, and controlling the fluid flow by the rpm variable fan. This feature is a device that removes harmful asbestos ultrafine particles by inertia, adsorption, and fusion.

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