CZ304698B6 - Securing method against escapes of hazardous substances when carrying out decontamination and apparatus for carrying out decontamination of solid, gaseous and liquid substances by making use of this method - Google Patents

Abstract

The present invention relates to a safe, stable and entirely mobile as well as power independent apparatus for decontamination of solid, gaseous and liquid substances immediately at the locus of use thereof, which apparatus being completely secured against escapes of hazardous substances into environment. The apparatus is located within an enclosed chamber having a closable entry enabling entry and exit of the decontamination device attendance. The apparatus consists of a reactor and/or separator and/or a thermal desorption unit disposed inside a heat- and pressure-insulated external chamber with closable entry, having a bottom, a ceiling and sidewalls. The apparatus, along with the enclosed chamber is fixedly mounted on a chassis of a suitable automobile provided with own electric power source.

Description

Method for protection against leakage of dangerous substances during decontamination and apparatus for decontamination of solid, gaseous and liquid substances using this method

Technical field

The invention relates to a mobile device for carrying out the decontamination of solid and liquid substances by a method of conducting such processes in reactors and / or separators placed in another enclosure with controlled atmosphere composition and under controlled pressure, and a method for carrying out decontamination directly at their location.

BACKGROUND OF THE INVENTION

Efforts to improve the quality of life give rise, among other things, to the need to dispose of dangerous substances that enter the environment through human activity and which may enter organisms and adversely affect their health. Methods for the disposal of hazardous substances have been described in a number of ways and many have been applied in practice. Examples of such hazardous substances are polychlorinated biphenyls, polybrominated biphenyl ethers, pesticides, petroleum substances, polyaromatic hydrocarbons, organic solvents, heavy metals and other substances produced for the purpose or as intermediates of other chemical reactions.

However, it appears that most such technologies for the disposal of hazardous substances may paradoxically produce intermediates and products that may be much more toxic than the original hazardous substances during the disposal process. This applies not only to combustion processes in which this effect is common, but also to alternative processes such as chemical treatment, thermal desorption, but also biodegradation. In particular, polychlorinated biphenyls and / or polybrominated biphenyl ethers, generally polyhalogenated aromatic organic substances, which, under certain conditions, e.g. in the presence of alkaline substances or in an oxygen-containing atmosphere, may produce very toxic polychlorinated and / or polybrominated -p- dioxins and furans, which may cause irreversible health damage or death on contact or exposure.

At present, the problem is solved by discharging reactors and / or separators of these substances, eg from contaminated soil in a thermal desorption plant, or from sludges in the reactor with the addition of reactants, at the outlet of gases, solid or liquid products from decontamination plants. In addition, various filters and containment devices, based on physicochemical principles, are installed to collect these substances accidentally escaping from the disposal reactors or separators so that they do not enter the atmosphere. Such decontamination devices are usually located directly in the environment, and in the event of filter breakage, which is often caused, for example, by the delayed replacement of worn and non-functioning filters or by the filling of the containment device, these hazardous products and intermediates leak directly into the environment. Widespread leakages of such substances have also been reported in large numbers, causing infestation of large areas with irreversible population damage. Even in process techniques otherwise secured against the escape of waste products, inlets or outlets to the disposal reactors and / or separators are normally opened for the purpose of inserting contaminated waste or removing the treated waste. The atmosphere inside the disposal reactors and / or separators may contain hazardous gases and vapors, liquid fractions, or solid particles trapped on the inside of these devices, and these may escape through open inlets or outlets. These substances also enter the environment when handling filters and arresting equipment, and in general in accidents.

Another risk of leakage of these substances is their transport. Most of the technologies used for decontamination of contaminated substances work as stable, ie the substances to be decontaminated have to be transported to this facility, posing a risk of leakage along the route as well as high transport costs. Some technologies also work as transport units, ie.

The technology is transported to a location in the vicinity of the occurrence of the substance to be decontaminated, where it is assembled, put into operation, and the substance to be decontaminated is collected from the immediate vicinity. When they are exhausted, the technology is dismantled and taken to the next location. In this variant, the environmental risk and the transport costs are lower, but they are not completely eliminated. There is a new problem, which is the need for technology to be plugged into an energy source. This necessity limits the possibility of using transport units.

Also known is EP 0 476 292, which discloses a mobile disinfection device for the treatment of infectious impact, in particular hospital waste, which benefits from the on-site disinfection of material using an external chamber in which a tubular rotary reactor for waste incineration is located. wherein the outer chamber is pressure insulated in that the composition of the gas phase, the pressure and the temperature in the reactor and the outer chamber differ and the outer chamber is connected to the atmosphere through a filter opening and the device comprises a sump. However, this equipment is intended for the disposal of infectious waste, where the contamination is of biological nature and by means of which it is not possible to decontaminate the abovementioned hazardous chemicals.

The above drawbacks are solved by the present invention.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION It is an object of the present invention to provide a safe, fully mobile and energetically independent device for the decontamination of gaseous, solid and liquid substances at the point of use, fully protected against leakage of hazardous substances into the environment, and a method for this.

It is an object of the present invention to place a device for decontamination of gaseous, solid and liquid substances, preferably a thermal desorption unit according to utility model CZ 5751 U1, with all its accessories, in a closed chamber with a closable access allowing the entry and exit of the decontamination device. The device, even with a closed chamber, is firmly placed on the back of a suitable truck.

The thermal desorption unit consists of a desorption furnace provided with an inlet for an inert gas such as nitrogen. This furnace is connected to a water condenser to condense the vapors of the resorbed substances and a condensate trap with a wet scrubber to trap dust particles. The wet scrubber is connected to a sorption chamber filled with activated carbon, where the inert gas leaving the pump is partially purged into the atmosphere and some is recycled back to the desorption furnace. The device may be supplemented with components causing movement of the desorbed matrix and the addition of non-toxic additives.

The decontamination device assembly, preferably the thermal desorption unit, is completely enclosed by a closable access chamber. The whole system works in such a way that the composition of the gaseous phase in the decontamination device and in the chamber space differs, and the pressures and temperatures in both systems also differ. The values of all these variables can be controlled and controlled independently. In case of accidental leakage of a part of the contents of the decontamination device or its components, these substances only reach the chamber space from where they can be safely removed, for example by suction through efficient filters. There is no direct leakage to the environment, thus preventing possible damage to the environment and organisms. By suitable regulation of the pressure in the chamber and in the decontamination device it is possible to regulate, respectively. to prevent leaks into the chamber environment, which was not possible with the prior art arrangement of such devices. The chamber is connected to the atmosphere through an activated carbon filter and a device for chemical sorption and absorption of acid gases. Different gas compositions and pressure levels can be advantageously provided in the chamber. Preferably nitrogen is used in the chamber. For example, during the disposal process in the decontamination device, an increased pressure may be set in the chamber relative to the pressure in these devices to suppress the possibility of leakage from the device into the chamber space.

-2 CZ 304698 B6

The chamber even with the decontamination device is preferably fixedly mounted on the body of a lorry or other suitable chassis, and as such is fully mobile. The device according to the invention can be moved directly to the location of the substance to be decontaminated (eg soil, water surface, etc.). This mobile unit also has its own electric power generator, so that the device according to the invention is ready to operate immediately after being moved to the location in the event of a sudden crisis situation. The chassis of the unit according to the invention is preferably landscaped, so that during transport it is not dependent on the existence of suitable pavements in the immediate vicinity of the contaminated material.

The advantages of the present invention lie above all in its mobility, in a rapid emergency response at the point of contamination, where it is not necessary to transport the contaminated material back to the device over long distances. Another advantage is that the unit is placed in a closed chamber with a closable access that protects the direct environment from leakage of hazardous substances. A significant advantage is also the energy independence provided by the power unit of the generator, which fully supplies the entire mobile system.

DETAILED DESCRIPTION OF THE INVENTION

Other objects, components and advantages of the apparatus of the present invention will be apparent to those skilled in the art from the following description of an exemplary embodiment of the invention:

In the example described, the decontamination device is a separator. The separator is a vessel provided with an inlet, after opening of which 300 mg / kg of PCB contaminated soil was placed in the vessel. After closing, the soil layer in the vessel was indirectly heated through its walls. Nitrogen was introduced into the vessel as the carrier gas. The vapors of moisture and vaporized PCBs were continuously discharged from the vessel to an accessory, i.e. a condenser tube where they condense, and condensates containing the PCB emulsion in water were collected. The carrier gas was passed through an alkaline water scrubber and a scrubber, where any traces of oxygen had been removed, and the carrier gas was pumped back into the vessel by a fan in a tube, thus circulating continuously. When the vessel pressure dropped, the pressure was automatically adjusted by introducing nitrogen. The whole separator and accessories were placed in the chamber with the gates allowing hermetic closing of the chamber. This chamber is rigidly mounted on the back of a truck with its own electric generator. The chamber was hermetically sealed and filled with nitrogen after the start of the decontamination process. The chamber pressure was 10% higher than the vessel pressure. The chamber is connected to the outside atmosphere through an activated carbon filter and a nitrogen inlet. At the end of the process, the electrical heating of the vessel was interrupted. After cooling the space inside the vessel to about 70 ° C, the chamber was opened after adjusting the composition of its atmosphere. It was found that about 2% of the total volume of collected liquid escaped into the tub in the chamber in which the separator was placed. This liquid, at a temperature of approx. 45 ° C, was drained and sent for disposal. It has been shown that, even if the separator was not inserted into the chamber, even with the use of the sump, hot liquids would drip and the vapor would contact the atmosphere at all times. The inner walls of the chamber exhibited somewhat reduced pH (pH 4) and the smears from the inside of the chamber contained minute amounts of polychlorinated-p-furans that would otherwise escape into the atmosphere. Likewise, acid gases (HCl) could escape into the atmosphere. The internal walls of the chamber were washed with solvent for strict safety precautions, which were handed over for disposal. During decontamination, acid gases and dioxins were measured at the exit of the com- bustion filter into the atmosphere, and the presence of dioxin- and furan-like oxidation products was not detected. The soil had 0.1 mg / kg PBC (sum of indicator congeners) after decontamination.

Industrial applicability

The present invention can be used wherever it is necessary to decontaminate contiguous water bodies, large amounts of soil, gases, but also eg electrical equipment such as power transformers or chokes, on site, while avoiding the release of harmful intermediates into the surrounding environment. environment.

Claims (4)

PATENT CLAIMS 1. A method of protection against leakage of hazardous substances during decontamination, characterized in that the decontamination vessel into which the substance to be decontaminated is introduced and removed is decontaminated and is placed in a chamber having a ceiling, a bottom and side walls, and which is provided with a closable access, wherein the separator and the accessory are placed in a chamber with a gate allowing hermetically closing the chamber and wherein the chamber is connected to the outside atmosphere via an activated carbon filter and a carrier gas inlet, the process comprising successive consecutive steps: inserting the contaminated material into the container; - closing the container; - indirectly heating the contents of the vessel through the vessel wall; - introducing the carrier gas into the vessel; - vapor and moisture evacuation from the vessel through the conduit to the condenser to condense the condensate with the dangerous substance emulsion in water; - collecting condensate; - purifying the carrier gas in an alkaline water scrubber and scrubber to remove traces of oxygen; - pumping the carrier gas back into the vessel via a fan in the tube; - measuring the content of harmful substances from the filter outlet into the atmosphere; repeating the fourth to ninth steps until the contaminated material is cleaned while continuously monitoring the pressure, whereby when the pressure in the vessel drops, the pressure is automatically adjusted by introducing the carrier gas; - interrupting the electric heating of the vessel; - cooling the space inside the vessel and adjusting the composition of its atmosphere; - opening the chamber; - evacuating any leaked liquid from the tub in the chamber and sending the liquid for disposal; and - washing the inner walls of the chamber under stringent safety precautions with solvent and handing it over for disposal. 2. The process of claim 1 wherein the carrier gas is nitrogen. Method according to claim 1 or 2, characterized in that the pressure in the chamber is 10% higher than the pressure in the vessel. Device for carrying out a process for decontamination of solid, gaseous and liquid substances according to any one of claims 1 to 3, fixedly mounted on a movable truck chassis, characterized in that it consists of a reactor and / or separator and / or thermal desorption unit disposed with accessories. to an outer closable-access chamber having a bottom, ceiling and side walls, wherein the composition of the gas phase, pressure and temperature in the device differs from the composition of the gas phase, pressure and temperature in the external chamber, The apparatus and in the outer chamber may be inspected, operated and varied independently of each other, and provided that the outer chamber is connected to the atmosphere through an activated carbon filter and the device for chemical adsorption and / or absorption of acid gases and equipped with a catch pan. End of document