FR2904247A1 - METHOD OF DESAMIANTING USING VITRIFICATION, IN PARTICULAR FOR END-OF-LIFE VESSELS, AND VITRICATION TOOL FOR THIS PROCESS - Google Patents

Abstract

A method of asbestos removal of a building, in particular a naval building, comprising asbestos, characterized in that it comprises a first step of direct heating of the support on which is disposed asbestos and portable heating tool 1 for vitrification of asbestos, characterized in that it comprises a torch adaptable to a mobile oxygen cutting station.

Description

The present invention relates to an asbestos removal process using the

  vitrification, especially for end-of-life ships, and a vitrification tool for this process. Asbestos has long been used in many materials and products due to its acoustic, thermal, heat and fire resistance, chemical inertness, mechanical strength and rot resistance. However, its adverse effects on human health led to a control and a gradual reduction of its use, followed by a total ban.

  Asbestos removal operations take place in several compelling stages because they must meet safety standards for both the worker and the environment. The worker must indeed be provided with a combination and a respiratory system so as not to inhale friable asbestos dust, extremely toxic. His work is done in a confined area, divided into several compartments including two showers. This confined area has an air pressure lower than that of the outside air so that in the event of a leak, it is the outside air that enters the confined area, and not the other way around. An air renewal system must also be provided. The asbestos waste thus recovered by the worker is then treated so as to detoxify it. Asbestos removed from its support can undergo various treatments to make it inert, and therefore nontoxic. This treatment can consist of vitrification, as described in patents FR 2 853 846 or FR 2 690 093, the asbestos waste being incorporated in a particular oven making it possible to achieve very high temperatures. The waste may be previously packaged, for example by pre-bagging, as described in patent FR 2 746 037. The conditions for removal of asbestos require draconian safety conditions without detoxifying the product. Alternative solutions have been found to allow waste removal in one step while making them inert.

Thus, US Pat. No. 4,693,755 discloses a process for removing asbestos from its support following the application of a cellulosic polymer-based composition which penetrates and dries asbestos dust to render it asbestos. inert.

Patent FR 2 875 720 describes an asbestos removal process using cold. Following the injection of liquid nitrogen at a temperature between -40 C and -196 C, asbestos freezes in its support and can be removed safely. However, the vitrification solution for asbestos waste remains the most suitable solution. It makes it possible to completely destroy asbestos fibers, while significantly reducing the volume of waste. No risk of future pollution is no longer to be considered. The product obtained after vitrification can be valorized. The only current disadvantage lies in the transport of the waste from their place of removal to their place of cooking, to the extent that such waste presents a significant risk to health. This problem is all the more important for shipbuilding, since no shipyard in France is capable of dismantling ships and consequently their total asbestos removal, thus requiring long and expensive towing to foreign countries, in which the safety conditions are non-existent. The invention proposes to overcome these various disadvantages through an asbestos removal process, particularly suitable for end-of-life vessels, for vitrifying asbestos directly on its support, without having previously removed the asbestos waste.

The invention also relates to a portable vitrification tool for heating a support containing asbestos at very high temperatures, of the order of 1200 C. For this purpose, the subject of the present invention is an asbestos removal process. of a building:, in particular a naval building, comprising asbestos, characterized in that it comprises a direct heating stage of the support on which the asbestos is placed. This process is carried out using a portable vitrification tool, allowing the heating at very high temperature of the support on which is disposed asbestos.

This asbestos removal tool is shown in FIG. 1. The asbestos removal process according to the invention comprises a step of heating at a very high temperature, carried out on a given zone. This heating is directly carried out on the asbestos support, thus avoiding a removal of asbestos-containing elements for their subsequent treatment. This heating step is carried out around 1200 C in order to vitrify the asbestos and its support. This heating at a temperature of 1200 C makes it possible to vitrify the supported support to a depth of a few millimeters.

After cooling, the glass obtained is cut by oxycutting. By rendering the support inert, it can be cut and removed safely, thus enabling the operator to work under less restrictive security conditions.

The asbestos removal process according to the invention is carried out by means of a portable asbestos vitrification tool 1, adapted to a mobile flame cutting station, known under the name of OXYCUT 3000 (registered trademark). The portable vitrification tool 1 makes it possible to heat flocked asbestos 2, present in particular in ships, at a temperature greater than 1200 C. It is in the form of a torch, adaptable to the oxygen cutting station. . It makes it possible to vitrify asbestos on the surface to a depth of a few millimeters, which has the effect of rendering it inert on the surface. It can then be cut by oxycutting, without risk for the operator to inhale toxic dust.

The elements thus cut can be treated without danger. The unglazed asbestos below the vitrified is treated in the next steps of the asbestos removal process. The vitrification tool 1 is attached to the oxygen cutting station (not shown) by a quick coupling interface 8 for mechanically hooking a positioner, fixed on the vitrification tool. The positioner provides the necessary movements to achieve the vitrification of asbestos on the supports 3 to be treated.

2904247 4 vitrification tool 1 is composed of a refractory stainless steel cover 4, protected by thin layers of refractory concrete 5, so as to isolate the heating zone from the outside and promote suction. The vitrification tool 1 also comprises a motorized flat burner 6, which is fed with oxygen and with natural gas (or other suitable gas). This burner 6 provides the necessary temperature step by step to allow the vitrification process, located around 1200 C. The vitrification tool 1 comprises an air intake 7 intended to ensure capture of fumes and resulting nuisance vitrification process of asbestos.

A mobile fume extraction and treatment unit is associated with the vitrification operation so as to guarantee the protection of the immediate environment. Once vitrified surface asbestos, it is cut by means of a mobile flame cutting station. Oxygen cutting is a localized combustion cutting process, and continuous by means of a jet of pure oxygen. The cutting is initiated by heating to a so-called priming temperature, of the order of 1300 C. Oxygen cutting allows linear cutting or chamfering of asbestos vitrified surface on its support. The flame cutting station is equipped with one or more torches; it is associated with portable filtration of fumes. It is controlled by radio-control, so as to move the operator away from the oxycutting zone in order to protect him from the nuisance caused by cutting. The asbestos removal process according to the invention makes it possible to render the support and asbestos inert, which is then in a frozen state, thus making it possible to limit the risk of pollution and thus of health for humans. The fact of vitrifying asbestos makes it possible in particular to considerably limit the volume of waste, while possibly allowing reuse of the vitrified product obtained.

Furthermore, the fact that the vitrification and oxycutting operations can be carried out by radio-control make it possible to favor the safety conditions of the operator insofar as his presence in the vicinity of asbestos is not necessary. .

Although the invention has been described with particular embodiments, it includes all the technical equivalents of the described means. 5 10 15 20 25 30

Claims (11)

  1. A method of asbestos removal of a building, in particular a naval building, comprising asbestos, characterized in that it comprises a first step of direct heating of the support on which is disposed asbestos.   2. asbestos removal process according to claim 1, characterized in that the heating step is carried out at 1200 C, so as to ensure vitrification.   3. Asbestos removal process according to claim 1, characterized in that it comprises a step of flame cutting the vitrified obtained following the first step.   4. asbestos removal process according to one of claims 1 or 3, characterized in that the oxycutting step is initiated by heating to a so-called priming temperature, of the order of 1 300 C.   5. Portable heating tool 1 for vitrification of asbestos, characterized in that it comprises a torch adaptable to a mobile flame cutting station.   6. Portable heating tool 1 according to claim 5, characterized in that its torch reaches a temperature of 1200 C.   7. Portable heating tool 1 according to one of claims 5 or 6, characterized in that it is attached to the flame cutting station by a mechanical fastener 8 connecting it to a positioner.   8. Portable heating tool 1 according to one of claims 5, 6 or 7, characterized in that it comprises a cap 4 stainless steel refractory.   9. Portable heating tool 1 according to one of claims 5 to 8, characterized in that the hood is protected by thin layers of refractory concrete 5.   10. Portable heating tool 1 according to one of claims 5 to 9, characterized in that it comprises a motorized flat burner 6, fed with oxygen and natural gas, or other suitable gas   11. Portable heating tool 1 according to one of claims 5 to 10, characterized in that it comprises an air intake 7, for the capture of fumes and other nuisances.