DE4244099C1 - Deposition of smallest mineral fibres or dust particles - by producing fine particle mist, wetting surfaces of fibres and depositing particles - Google Patents

Abstract

Deposition of smallest mineral fibres or dust particles from the gas space and bonding into a colloidal phase comprises producing a mist of fine particles of a soln. of water and material of water source and wetting the surfaces of the fibres or particles and depositing the particles enlarged in size. Organic materials are used, pref. polysaccharides, such as pectin, esp. polypeptides, such as gelatine. ADVANTAGE - Removal of submicron particles is guaranteed.

Description

The invention relates to a method for deposition smallest mineral fibers or dust particles from the Gas space and integration into a colloidal phase.

Contamination with toxic fine dust, i.e. smallest Dust particles or mineral fibers (also as submicron Particles) is considered to be particularly dangerous classified. Surfaces covered with a light or bound mineral fiber protection layer are through mechanical processing during the renovation, brittle due to vibrations, temperature tensions and aging, so that in addition to the "normal" fiber and dust release with the exposure of a particular species of particles, the so-called "submicron particles" must be counted.

These are located in the diameter range of d <1 µm Particles must be at least as toxic equivalent to those feared during asbestos removal respirable particles with critical respirable Dimension (1 <5 µm; d <3 µm; 1 / d = 3: 1) can be considered. The problem with these submicron particles is first Line that because of their low mass they cannot pass through conventional filtration and inertia separators from the Room air can be removed. Furthermore, the low mass of the particles a significantly longer dwell time or lifetime of the particles in the gas space and influenced hence the duration of the hazard. This has in particular  Effects on the occupational safety of the Remediation personnel and on the contamination of the Ambient air. It is particularly dangerous that too those in the negative pressure maintenance systems and breathing apparatus Fine dust filters used in the renovation submicron particles - due to their Filterability - cannot catch effectively enough.

The submicron particles must therefore be the same Properties like the respirable astbest fibers be attributed. In this context, in particular fibrogenic (carcinogenic) and carcinogenic To name (cancer-causing) properties. Furthermore can the contact with asbestos fibers to a Impairment of the immune system. asbestos was particularly due to its versatile properties widely used in the construction industry for Insulation and as a fire-resistant building material with many things Applications. Today, attempts are being made through natural and asbestos to replace synthetic mineral fibers. The use of this Substitution products is according to the latest scientific Findings but also as strong health to evaluate risky.

A particularly high release of submicron particles is observed during asbestos removal. Currently taking place at the Asbestos removal three different methods of application:

• 1. Remove the asbestos product from the surface. With this method are absorbent asbestos products usually detach from the surface when wet and vacuum directly into a dustproof container. Products that are not absorbable are prewetted and if possible dismantled non-destructively and packed dustproof. The on rough surfaces left behind by suitable binders on the surface of the Component are bound.  
• 2. Solidify and coat the surface of the Asbestos product. With this method is the asbestos product sealed with a dustproof coating. At Products with a highly loosened fiber structure can previous surface consolidation may be required.
• 3. Spatial separation between asbestos product and used Clearing. This method uses additional Components a dustproof separation between asbestos product and used space. This requires joints and Connections must be permanently dustproof.

With all methods, filter residues and fiber or Dust material after the procedure with hydraulic binders solidified and deposited ("Technical rules for hazardous substances TRGS 517 and 519").

DE 40 15 488 A1 describes a means and a method for Prevent the development of dust when developing at Handling of building materials known, the agent Glycomannan and the process is characterized by that hydrated glycomannan when a building is demolished is applied to the building. Even with this well-known The dust exposure is reduced by the process Surfaces of the building wetted accordingly are soaked. New breaking edges occurring during demolition, that are neither wetted nor soaked lead again unwanted dust formation.

The known and previously described methods are but not free from disadvantages:

So it can become despite a pre-wetting or sealing Release of a significant number of fibers and Dust particles come. The efficiency of the fine dust filter is about 99.5% by weight. For the assessment of the Immission load and the hazard potential is the Distribution of the remaining species by size and number  however of significant importance. This is currently in the existing regulations have not yet been taken into account. How already mentioned, submicron particles have an increased Respiratory tract. Their number per unit volume is a measure for that hazard potential. A high number density of Submicron particles of low mass provides Total indoor air pollution (product of number density and Single mass) only a small mass contribution per Volume unit represents an essential Hazard potential because the likelihood of such Inhaling particles increases with the number density.

Especially with rough underground surfaces the remains of fiber residues are usually not complete Cleaning achieved. This goes through a seal special coatings, i.e. an integration of the fiber residues, necessary. The final immobilization of the fibers can only through solidification with hydraulic binders respectively.

In particular, in the third-mentioned method at the interfaces of the individual renovation sections despite a considerable effort to foreclosure and Exhaust air purification is also an exposure of regular separable particles and dusts through fine dust filters cannot be reliably excluded.

The invention is therefore based on the object of a method for the separation of the smallest mineral fibers or Dust particles from the gas space and integration into one to show colloidal phase in which the aforementioned Disadvantages can be reliably avoided and one safe removal of the submicron particles to be disposed of guaranteed from the gas room with reasonable effort.

The above task is accomplished through the following steps solved:

• - Generation of a mist from the finest droplets from one Solution of water and a substance that swells in water and
• - Wetting the surfaces of the fibers or Dust particles and separation in their masses the gelling phase enlarged particles.

For a good landfill capability is after another apprenticeship the invention provided that in the agglomerated mass embedded fiber or dust particles by means of hydraulic binders are solidified. This serves water bound by the swellable substance to bind the hydraulic hardener.

Use is particularly effective of organic substances swellable in water. After a further teaching of the invention are as organic substances Polysaccharides such as agar agar, pectin or swelling starch used. Alternatively, organic substances can also be used Use polypeptides like gelatin. The addition of organic substances in appropriately tempered water after a specific reaction time to swelling and Solidification to a gelatinous mass.

Another teaching of the invention is characterized by the Use of aggregates to control the Gelling reactions. The kinetics of the gelling reaction will through the selection, mix, concentration and type of Aggregates controlled so that an early Solidification and thus a pure surface sealing is avoided. By adding surfactants Substances, e.g. B. surfactants, buffers or salts, the Interfacial tensions between the fibers are reduced. additions such as alkaline bases or acids influence the pH value of the water and thus change the gelling behavior or the Viscosity of the auxiliary phase.  

Spraying the mixture of water and in water swellable substance can in particular without carrier gas, ie "airless". In the latter spraying process becomes the prepared mixture of water and in water swellable substance after exiting the nozzle opening Spray gun atomizes and forms an aerosol mist. The one for the atomization necessary pressure is by a diaphragm pump built up. Dust swirling or fiber detachment from the Surface are avoided as there are no mass ones High-speed flow, as z. B. at Pressure washers can be found, but only one Aerosol mist with low flow velocity and Range arises.

The sprayer used for this purpose must be modified in this way be that depending on the swellable substance used and corresponding processing temperature also highly viscous and superheated fluids can be sprayed. At cold-soluble water-swellable substances can Reduced temperature or also to a temperature control be completely dispensed with. About the mass flow of the Mixture of water and water swellable substance and the Selection of the suitable nozzle will therefore be the size and also the mass of the sprayed drops or aerosols adjusted.

In a further embodiment of the invention is used for deposition a suction device used with a mass separator is connected upstream of an intake manifold. To prevent caking of the Avoiding sticky gel aerosols is further on Embodiment of the invention provided that the inner Surface of the intake manifold socket of the mass separator is permanently (continuously) wetted with an aqueous solution. The film that forms on the inner surface of the pipe avoids the expected caking on the one hand by the Sliding effect of the film, the adhesive or Adhesive forces on this fluid boundary layer impinging gel agglomerations by a partial  Hydrolyzing and breaking down the molecular chain bonds reduced. The following mixture has proven itself here:

10 ml of 1N HCl + 90 ml of H ₂ O

The during the mechanical cleaning of the asbestos layer released particles, especially submicron particles, should by spraying the mixture of water and in Water swellable substance in the aerosol mist in the immediate vicinity the reorganization office. The wetting of the Particle surfaces or their wrapping and integration in the gel matrix, which changes as a result of the gelation of the Training auxiliary phase takes place on the one hand on the basis of Condensation effects (the individual particles act as Condensation nuclei) and on the other hand due to Adhesion effects. By wetting the fibers and Particles heavier and bigger. These enlarged heavier ones Particles are therefore easier to separate.

The gelation is controlled so that the Activity span, i.e. the time that the sprayed phase after exiting the nozzle opening until the formation of the complete gel matrix is required, is long enough.

Mass and size of the particles coated with a gel matrix are in contrast to those of the original submicrons Particles high enough to hold them in one Mass separators such as a wet cyclone to separate. The mode of operation of the invention The process is described below using a single drawing explained in outline.

The following are in the drawing Steps 1) to 4) listed in one embodiment for the separation of the smallest mineral fibers or Dust particles from the gas space and integration into one shown colloidal phase:

• 1) The release of submicron particles occurs in:
  • 1a) mechanical cleaning of dry and pre-wetted, slightly bound spray asbestos,
  • 1b) the dismantling of fixed asbestos cement panels and
  • 1c) the cleaning of lightly bound spray asbestos, which is already largely immobilized by incorporation in an elastic gel matrix.
• 2) With an airless sprayer, the auxiliary phase, so the mixture of water and water swellable substance in sprayed in the immediate vicinity of the renovation site.
• 3) released fibers, especially submicron particles, serve the auxiliary phase as precipitation or Condensation nuclei. The individual particles are in integrated a gel matrix.
• 4) The mass of these particles coated with a gel matrix is now so large that it is in a mass separator can be separated. Is shown sketchy a wet cyclone, which one (conventional) does not industrial vacuum cleaner shown is connected upstream.

Claims (10)

1. Process for the separation of the smallest mineral fibers or dust particles from the gas space and integration into a colloidal phase

• - Generation of a mist from the finest droplets from a solution of water and a water-swellable substance and
• - Wetting the surfaces of the fibers or dust particles and separating the particles which have increased in mass due to the gelling phase.

2. The method according to claim 1, characterized by subsequent Solidification of the separated mass by means of hydraulic Binder for safe final storage. 3. The method according to claim 1 or 2, characterized by the use organic substances swellable in water. 4. The method according to claim 3, characterized in that as organic substances polysaccharides such as pectin, agar or Swelling starch can be used. 5. The method according to claim 3, characterized in that as organic substances polypeptides such as gelatin can be used.   6. The method according to any one of claims 1 to 5, by use of additives to control the gelling reactions. 7. The method according to claim 6, characterized in that as Additives surface-active substances, such as surfactants, Buffers, salts, bases, acids and / or alcohols are used become. 8. The method according to any one of claims 1 to 7, characterized in that the fog is generated without the use of carrier gas. 9. The method according to any one of claims 1 to 8, characterized in that the Separate a suction device with a mass separator upstream of a suction pipe is used. 10. The method according to claim 9, characterized in that the inner Surface of the intake manifold socket of the mass separator with an aqueous chemical solution to avoid Caking is wetted.