DE4015488A1 - Compsn. for inhibiting dust formation or spreading - during demolition of buildings, handling building materials or removing asbestos cement layers contg. glucomannan - Google Patents

Abstract

Compsn. (I) for preventing development of dust during handling of building materials contains glucomannan (II). Pref. preventing development and spreading of dust during demolition of buildings comprises applying hydrated (II), opt. with alkali soln., before, during, or after demolition. (2) Preventing formation and spreading of asbestos dust during removal of asbestos cement layers comprises applying, before or during removal, hydrated (II) on asbestos cement layer to be removed. Pref. (I) also contains cpd. which reacts alkaline in aq. soln., in proportion so on addn. of water, (I) forms hydrated (II) which has alkaline reaction and (II) concn. of 0.1-2% (all pts. wt.). (I) also contains additive(s) which inhibit dust development or are deodorants or colourants. Esp. (I) contains additive for inhibiting dust formation during demolition. ADVANTAGE - (I) meet requirements for efficacy, lack of toxicity, stability against degradation, and economy.

Description

The invention relates to an agent, the glucomannan contains as an active component and to prevent the Development of dust when a building is demolished or when another occasion is used and a procedure to prevent the development of dust on demolition of a building or on another occasion Use of this agent.

Currently, the need for a Modernization of existing buildings through reconstruction tion, changing the purpose of buildings, by changing the location of buildings and because of the removal of signs of aging on old buildings etc. the requirement of wooden houses, brick buildings, stone buildings, steel reinforced concrete buildings and steel frame Demolish and clear concrete buildings. Especially when However, demolition of dilapidated buildings leads to the Pollution from development and that Spreading dust from spray asbestos walls and ceilings serious health problems.

Attempts are currently being made, the possibility of preventing pollution from the Development of such a dust, especially from Asbestos dust, to be examined by a chemical Preparation is sprayed on. However, it still exists the need to find a method to Preventing dust from developing and scattering, which the occurrence of asbestos dust during the Ab break of a building and also the appearance of a secondary to tertiary dust generation during the  Reconstruction of demolished buildings effectively prevented and which is satisfactory in terms of Harmlessness of the agent used compared to the human body, the stability of the agent versus Degradation and maintaining effectiveness is what enables economical treatment with the agent. The fact that previously effective contraceptive measures have not been available, companies have so far kept on tackling the work of demolishing buildings to take, the walls and ceilings made of spray asbestos.

According to the invention, detailed investigations were carried out in the Carried out and continued with regard to a procedure which is capable of the number of Overcoming problems. It was found that a Process for preventing development and Spread of dust is obtained, which the Safety and harmlessness requirements, Stability and economy fully met by the characteristic properties of glucomannan be exploited.

The invention has been achieved on the basis of these findings completed.

The invention thus relates to a means for Prevent dust generation and spreading Dust when demolishing a building or other gels opportunity, which as an active component ent Glucomannan holds.

The invention also relates to a method to prevent the development and spread of dust when demolishing a building or on another occasion using hydrated glucomannan if necessary in combination with an alkali solution.

The invention will be described in more detail below wrote.  

Glucomannan occurs in the form of viscous fluid male particles, for example in the sprouts or tubers of konjac (yam roots). The currently prevalent starting material for konjac jelly (in powder form) is obtained in pure form by extraction of these man particles using a special process. The hydrated glucomannan obtained by swelling with water is irreversibly coagulated by alkaline compounds such as Ca (OH) ₂ , Na ₂ CO ₃ , Na ₂ HPO ₄ , NaHCO ₃ or NaOH to form an elastic gel. This hydrate is preferably heated to shorten the coagulation time. The alkaline compounds mentioned are collectively referred to as "coagulants".

Incidentally, the konjac gel, which by liberating the elastic gel of remaining alkali by what water wash is obtained to a large extent as a food means applied, which in Japanese "Konnyaku" is called. The edible konjac gel (synonymous with "Konnyaku") has a water content of around 97%.

The object of the invention is to develop and Spreading dust when a building is demolished or when other opportunity or when handling construction to avoid materials that hydrated Glucomannan is applied to the building, the characteristic property of glucomannan exploited will, water in an amount of about 40 times its Absorbing weight and yet a viscoelastic, form coagulated substance. For the purposes of Invention can effectively take any glucomannan are used, which in the form of usual Konjac powder, purified konjak powder or the like, d. H. without specifying the presence or absence of Impurities, is available.

When applying the agent according to the invention Prevent dust on a building during  of the termination are glucomannan and water indispensable Be components. Desirably, Glucomannan is used hydrated here with water and in the form of the hydrate Application to a building during demolition brought about. When designing a new one Building using asbestos building materials however, Glucomannan can be used advantageously be by putting it in these building materials beforehand is incorporated uniformly. If such a building to be canceled later, the possible Development and spread of asbestos dust in effective Way prevented by water alone or water in Connection with a suitable additive by spraying or Spraying is applied to the building because Glucomannan is hydrated in situ, whereby hydrated glucomannan is formed.

When glucomannan is used in the form of the hydrate, the glucomannan concentration in the hydrate is advantageous adheres in a range of 0.1 to 2% by weight, although this Concentration is not very critical. In dependence of the concentration gives the possibility that hydrated glucomannan when in contact with asbestos cement material in the building on the surface of the Asbestos cement material gelatinized and as a result itself prevents from entering the asbestos cement material penetrate. Therefore, if it is desired that hydrated Glucomannan inside the asbestos cement material penetrates, it is therefore desirable that the glucomannan concentration of the hydrate in the region of 0.5% by weight lies to ensure an effective application.

Applying hydrated glucomannan to the Building during demolition is specific to one of the example methods below. The way of gelatinizing hydrated Glucomannan will be described later.  

• 1) A method of hydrating first Glucomannan in the interior or exterior components (asbestos cement walls or ceilings and the like) one building to be demolished is sprayed on and if necessary, in addition the surfaces of the interior or Exterior components by spraying with hydrated Glucomannan are coated before demolition be started;
• 2) a method that consists of constantly hydrated glucomannan is sprayed onto the building, while the demolition of the building continues;
• 3) a method according to the first hydrated Glucomannan is sprayed on the building and afterwards the layer deposited on the surface of the building made of hydrated glucomannan solidify before demolition is started;
• 4) a method in which each of the above methods described under (1) to (3) water instead of hydrated glucomannan is used when Glucomannan previously in the construction of the Building had been used;
• 5) a method that comes from a suitable Kombina tion from at least two of the above methods (1) to (4) exists;
• 6) a method according to the hydrated gluco mannan, if necessary together with an alkali solution, the manufacture of which was described in more detail later is continuously used on the demolished stock parts of the building is sprayed and at the same time with it the coated torn com pack components and the packaged torn Dispose of components as industrial waste. These Method serves the purpose of the occurrence of secondary or  exclude tertiary dust.

Thus, according to the present invention, the Use of hydrated glucomannan (including of in-situ hydrated glucomannan) there achieved by that hydrated glucomannan on a Buildings at least once, namely before, during or after the demolition of the building is applied.

By gelatinizing the applied hydrated Glucomannans with an alkali solution can cause the development of Dust can be prevented or it can be prevented that the dust already formed is carried away in the air becomes. Gelatinizing is accomplished by changing the pH of the hydrated product to a value in the range of 7.1 to 14 (alkalinity) is set.

During the work of demolishing a building the gelatinization of the hydrated glucomannan specifically using one of the example methods below carried out:

• 1) A method which consists in the fact that hydrated glucomannan beforehand with an alkali solution gelatinized and then the gelatinized hydrate on the collapsing building is applied;
• 2) a method according to which an alkali solution is sprayed onto the building to be demolished beforehand;
• 3) a method that consists of hydrati based glucomannan and an alkali solution at the same time a building is sprayed on during demolition;
• 4) a method of hydrating first Glucomannan by spraying or spraying on the building is applied and then by spraying or Spraying an alkali solution is added;  
• 5) a method in an appropriate Combination of at least two of the above methods (1) to (4);
• 6) if a building to be demolished is made of alkaline Building materials exist (such as concrete materials, mortar materials and asbestos cement materials, each in Lime is used), leads to the application of hydrati based glucomannan on each of the above Methods on the building automatically for in situ formation an alkali solution, which may make it no longer the pH of the hydrated glucomannan is necessary by using an additional alkali solution put.

In any case, it is sufficient to adjust the pH of the hydrated glucomannans arbitrarily or otherwise Way to set a value sufficient to Gelatinize the hydrated glucomannan before, during of or after the demolition of the building.

If desired, the hydrated Gluco suitable additives must be incorporated. The for Additives useful for the purposes of the invention include usual chemical preparations to prevent ver spreading dust (e.g. SERPIFLEX (Serpi, France), FIRECHECK (LPL Company, England), BWE 3000 and BWE 5000 (Better Working Environment, Inc., U.S.A.) and EPA 55 (American Coatings Corp., U.S.A.)), desodori agents and for example colorants. This too sentences are not specific in terms of their type limited, but it is necessary that you do not interfere with the intended effect.

The method according to the invention can of course in Combination performed using a common method  be, for example, with a method that first the asbestos building materials in their entire thickness of such a conventional chemical preparation be impregnated and then the preparations in the Building materials diffuse and solidify there and be bound.

The agent and method according to the invention were and are mainly referring to the termination of a building explained (example 2). However, it is over the foregoing, it can be seen that the Erfin not only when demolishing buildings, but also when handling, such as removing and refurbishing all components, such as for removing or reconditioning Asbestos cement from (a) sprayed asbestos cement walls, -ceilings or the like of a building, (example 1), (b) for asbestos cement layers that are in the walls of Automobiles or the like by spraying Asbestos cement have been installed (example 3) or (c) to effectively prevent the spread of asbestos dust can be applied.

If the asbestos is in the form of asbestos cement, is no additional alkaline agent required because Asbestos cement itself contains lime, as above was mentioned.

example 1 Preparation of hydrated glucomannan A

An intimate mixture of 0.5 part by weight of glucomannan 100 parts by weight of water became light for 30 minutes stirred, left to stand and swell for 90 minutes and then stirred for 5 minutes, with hydrated gluco mannan A was obtained.

Preparation of hydrated glucomannan B

An intimate mixture of 2 parts by weight of glucomannan with 100 parts by weight of water was gently stirred for 30 minutes, left to stand and swell for 90 minutes and then with 20 parts by weight of a 5% strength aqueous Ca ( OH) ₂ suspension stirred, whereby hydrated tu glucomannan B with an approximate pH of 12 was formed. This hydrate was applied by spraying the preparation within 20 minutes. The reason for this rapid application of the hydrate is that hydrated glucomannan is subject to an increase in viscosity when left to stand for a long time and finally solidifies to such an extent that the comfortable handling is disturbed. This means that when the hydrated glucomannan is left to stand, it undergoes a gradual gelatinization, the viscosity increasing so much that it disrupts a uniform spraying process. Therefore, for effective use of hydrated glucomannan, it is desirable that hydrated glucomannan be prepared in the predetermined amount required and be completely sprayed within a predetermined time.

Removing the layers of asbestos cement from one Buildings using the above two hydration products was using the The following procedure was carried out:

• 1. Hydrated Glucomannan A was sprayed onto the Asbestos cement materials applied by spraying before these materials were scraped off the substrates (Spray process 1), the layer formed in this way the hydrate was left to stand for about an hour and then the scraping of the materials was started.
• 2. Hydrated Glucomannan A was sprayed on applied to the parts to be scraped off (spraying process 2), while the scraping continues until completion was set.  
• 3. The detached asbestos cement materials were with hydrated Glucomannan B (spray 3) and sprayed simultaneously packed in polyvinyl resin bags and in the as specified as industrial waste.

Test results

• 1. The hydrati applied by spraying 1 Glucomannan A penetrated the walls by spraying and blankets of asbestos, started inside gelatinize about 20 minutes after application, formed an elastic coating on the surfaces of the Asbestos layers on the walls and ceilings and shielded these materials against contact with the ambient air.
• 2. The hydrated glucomannan A, which by Spray process 2 applied to the parts to be scraped off was intimately mixed with the spraying process 1 applied glucomannan and prevented the possibility that asbestos fibers under the action of tearing and Scraping were scattered.
• 3. The hydrated applied by spraying 3 Glucomannan B covered the surfaces of the on the floor fallen pieces of asbestos and prevented the otherwise unused avoidable spread of asbestos dust.
• 4. The part of the applied by spraying hydrated glucomannans A, which after penetrating into the asbestos cement materials was left dripping on the floor and wet the surface of the floor. The excess portion that is on the surfaces of the Asbestos cement materials adhered, wetted in the same Way the surfaces.
• The cleaning work has already been carried out Scrape exposed walls, ceilings and floors with sprayed hydrated Glucomannan B, stand for 30 minutes left and then removed from their substrates.  
• In this case, hydrated glucomannan B Water from the materials and quickly pulled tiny sprinkled particles and formed an elastic gel.

The experiment described above put the Be conditions that determine the effective and smooth process the work of peeling off sprayed Allow asbestos to work against its implementation So far there have been concerns about pollution. With the help of the invention, the occurrence of a dust development effectively prevented. It was found that even if the inventive method in Combination with the standard procedure of the EPO (U.S. Environmental Protection Agency) costs and time required for the demolition could be diminished to such an extent as by usual methods was never possible.

Example 2

A 35 year old one story wooden house (2.2 m wide, 2.3 m ceiling height and 3 m long) that with was tiled and with wooden boards had clad earth walls, as well as a separate storage room were canceled and removed. The weather conditions were: Clear sky, light wind and ambient temperature of 22 ° C. The storage room was from a neighboring one Office building 2.5 m away and had from the next Residential buildings a distance of 6 m. The demolition work started at 7:00 a.m. and was 3:00 p.m. completed. She was off for a one hour lunch break the workers interrupted.

The demolition work was carried out in detail following procedure:  

• 1. In a stainless steel vessel with an internal volume of 200 l, 1 kg of glucomannan and 100 l of water at 20 ° C were added and stirred at a rate of 60 rpm for 2 hours. To the resulting mixture was added 5 liters of a 1% aqueous Ca (OH) ₂ suspension and the mixture was stirred for 5 minutes to form a hydrate (hydrate A). Hydrate A was sprayed onto the walls and ceilings of the building using an electric compression pump, and at the same time the inner walls were broken off and placed in polyethylene sacks, with the inner walls made of earth generating absolutely no dust. Then the tiles of the roof were sprayed with hydrate A and at the same time removed from the shingles and placed on the floor. Then the shingles were torn off and the blankets exposed. Hydrate A was used in a total amount of 70 kg.
• 2. The wall panels covering the outer walls of the building covered, were removed. The 7 posts of the building, in to which partial cuts were made with a saw, were torn down with a rope. The torn down Parts were sprayed with hydrate B until they were about 10 mm thick layer of hydrate were coated, and were then turned into a free space 30 m away, which as provisional storage space served, brought and there layered. The hydrate B used in this way had one Total amount of 50 kg.
• Hydrate B was prepared by placing 1 kg of Glucoman nan and 60 l of water at 20 ° C in a stainless steel vessel with an internal volume of 150 l at a rate of 30 rpm 30 min. was stirred and then the mixture formed together with 5 l of a 1% aqueous Ca (OH) ₂ suspension for 3 min. was stirred.

The demolition work described in this example were ended without any noticeable harmful Environmental impact. The workers  carried out their demolition work under beneficial conditions conditions because of dust generation and spread was prevented. Because the hydrate made up the broken pieces covered and enclosed the building and then in situ solidified, the gelatinized hydrate was on top Do not cover areas of the separated parts and fragments moderately viscous and did not interfere with the comfortable hand have these parts and fragments. Since the hydrates in had been suitably colored, the Workers the thickness of the applied by spraying Recognize the hydrate layer and could spray one Apply coating of uniform thickness.

Example 3

About 60 l of hydrated Glucomannan A was in the prepared in the manner described in Example 1. This too preparation for removing asbestos cement layers applied by spraying around the window to the Ceiling lighting fixture and under that Resin existing car floor coating were formed in a thickness of about 5 to 10 mm.

The hydrated glucomannan was cured at a rate of 4 L / min for about 15 minutes. sprayed onto the asbestos cement layers using a spray device (GRACO ULTRA-1000). The amount sprayed was 1 l per m ^{2 of} the layer.

After about 30 min. scratching started, which took about 1.5 hours to complete.

The detached asbestos cement was in polyvinyl resin bags packed and in the manner shown as Industrial waste removed.

Example 4

10 kg konjac powder (0.84 mm to 0.25 mm (20 to 60 Stitches per inch)) were moisture-proof Paper bag packed and hermetically sealed.  

The product is a commercial form of Zu composition according to the invention for removal or Recovering sprayed asbestos cement which the Spread of asbestos dust from the sprayed asbestos cement prevented.

Claims (10)

1. Means for preventing the development of dust when handling building materials, characterized in that it contains glucomannan as an essential component. 2. Composition according to claim 1, characterized characterized that it is glucomannan and a Contains compound whose aqueous solution is alkaline responds, with glucomannan and this compound in such amounts are present that the agent decomposes hydrated with water forms glucomannan which has an alkaline reaction and a glucomannan concentration of 0.1 to 2 wt .-% has. 3. Means according to claim 1 or 2, characterized characterized that there is an additional one or contains several additives from the group of chemical Preparations for preventing dust, desodo ranties and colorants are selected. 4. Agent according to one of claims 1 to 3, characterized characterized that it is a means of ver prevent dust from developing when a building is demolished is. 5. Agent according to one of claims 1 to 4, characterized characterized that it is a means of ver prevent the development and spread of asbestos dust when removing an asbestos cement layer. 6. Development Prevention Procedure and Ver spreading dust when demolishing buildings, thereby characterized that at least before, during or glucomannan hydrated after termination, ge if necessary together with an alkali solution Building is applied.   7. The method according to claim 6, characterized characterized that the hydrated Glucomannan is formed in situ. 8. The method according to claim 6 or 7, characterized characterized in that the alkali solution in situ is formed. 9. Process for preventing development and out Spreading of asbestos dust when removing asbestos cement layers, characterized in that hydrated gluco before and / or during removal mannan on the asbestos cement layer to be removed will be carried. 10. The method according to claim 9, characterized characterized in that an asbestos cement layer in a building or an automobile.