SK50262010U1 - Device for waste disposal - Google Patents

Description

Waste disposal equipment

Technical field

The technical solution relates to a device for the disposal of hazardous wastes occurring in liquid or semi-liquid form, such as oil separators from water separators, sludges from oil separators, oil-containing wastes, aqueous liquid wastes containing dangerous substances, aqueous liquid wastes and aqueous remediation concentrates groundwater and the like, in particular liquid wastes containing petroleum substances, which disposal may take place in situ,

BACKGROUND OF THE INVENTION

A number of solutions are known in the field of hazardous waste disposal as defined above, using various types of filters with sorbent materials that are regenerable or disposable, which are removed by combustion after use. Most of these devices are large-sized, causing the cleaned media to be transported to carry out the cleaning operation, and the media is collected at the appropriate collection point until the decision to start the cleaning operation.

The essence of the technical solution

It has now been found that the disadvantages of the described condition are largely eliminated by the hazardous waste disposal plant according to the present invention, which in turn consists of a tank equipped with a forced supply of purified medium on one side and a purified medium discharge on the other. The tank is divided by technological partitions into at least two, preferably three compartments allowing three stages of cleaning. After the forced supply of the cleaned medium to the first space equipped with a wall and coalescing filter in the direction of the cleaned medium flow and relative calming of the flow, there is a sedimentation of mechanical impurities in this space and partial separation of petroleum substances floated to the surface. Subsequently, the cleaned medium is subjected to a cleaning operation on a coalescing filter and proceeds to a second space equipped with a suitable sorption filter. Here, the purified medium is subjected to sorption filtration and subsequently, if necessary in the third space, it is further purified by filtration on activated carbon and discharged through a sewer shaft to a recipient.

Alternatively, the recovered hazardous waste is handed over for further treatment by methods known per se, for example by biodegradation.

Advantageously, the tank is equipped with a filter to catch the largest mechanical impurities before the cleaned medium enters the first space.

The upper wall of the tank is suitably equipped with working openings to control the technological process and possible work intervention.

As a sorption filter it is suitable to use commercial sorption filters, for example sorption sleeves or sorption baskets.

An essential advantage of the device is that due to its dimensions it can be placed on a mobile chassis. This advantage will allow the disposal of hazardous wastes at the point of generation.

BRIEF DESCRIPTION OF THE DRAWINGS

The technical solution will now be illustrated in more detail by way of examples and the attached drawings, where

Fig. 1 is a schematic cross-section through a tank of a hazardous waste disposal plant.

Examples of technical solution

Example 1

The device according to the technical solution was used for the disposal of non-breaker extractable substances (NEL) from the drainage site in Dongjin Sebes Gód - Újtelep ZJ-2 in the production hall. Analysis by SPP ORG-MV-06 GC type A method determined the NEL pollution level at 2212.306 mg / L and determined the technological process. The flow rate of the purified medium was controlled by the system. The tank 1 is divided into three working spaces 13, 14, 15 by technological obstacles. In the first working space there is a standard wall 13 and a coalescing filter 132. The second working space 14 is equipped with a pair of sorption filters 141, 141 which are sorption baskets. The tank cover is provided with working openings 171, 172, 173, which allow monitoring of the cleaning process as well as any necessary external interventions in the process, for example by replacing clogged sorption sleeves with new ones. In the third working space there is a filter with activated carbon.

After the forced supply of the cleaned medium to the first space 13 provided with the downstream wall 131 and the coalescing filter 132 and the relative flow soothing, there is a sedimentation of mechanical impurities and a partial separation of the petroleum substances which float to the surface. On said wall 131, the cleaned medium is then subjected to a cleaning operation on a coalescing filter 13 and proceeds to a second working space 14 equipped with a pair of sorption filters 141, 14 'representing sorption sleeves. Here, the purified medium is subjected to sorption filtration and is subsequently cleaned in the third working space 15 by filtration on activated carbon and by discharge 12 and discharged via a sewer shaft to a recipient. The device was placed on a specially modified chassis.

The NEL pollution values at the outlet of the mobile waste disposal facility were determined by the SPG ORG-MV-06 GC type A method at 0.420 mg / l.

Example 2

The equipment according to the technical solution was cleaned with oily water in Dongjin Sebes Gód - Újtelep ZJ-2 site in the production hall. Analysis by SPP ORG-MV-06 GC type A method determined the NEL pollution level at 2212.306 mg / l and determined the process. The flow rate of the purified medium was controlled by the system. The apparatus consisted of a tank I, equipped with a forced supply of purified medium 11 and, on the other hand, a discharge 12 of the purified medium. The tank 1 is divided into three working spaces 13, 14, 15 by technological obstacles. In the first working space, a nominal wall 131 and a coalescing filter 13 are located downstream of the cleaned medium. The second working space M is equipped with a pair of sorption filters 141, 141 ', which are sorption sleeves. The tank cover is provided with working openings 171, 172 for monitoring the course of the cleaning process as well as any necessary external interventions in the process, for example by replacing the carried sorption sleeves with new ones. In the third workspace there is an activated carbon filter.

Upon forced introduction of the purified medium into the first chamber 13 provided with a downstream wall 131 and a coalescing filter 132 in the direction of the flow of the purified medium and relative flow soothing, mechanical impurities are sedimented in this first working space and the oil substances that float floated to the surface partially separate. On the wall 131. Subsequently, the cleaned medium is subjected to a cleaning operation on a coalescing filter 132 and proceeds to a second working space Γ4 equipped with a pair of sorption filters 141, 141 'representing sorption sleeves. The purified medium is subjected to sorption filtration here and subsequently to the third working space J5. It is treated by filtration on activated carbon and by outlet 12 and it is discharged through a sewer shaft to a recipient. The device was placed on a specially modified chassis. In this case, the post-treatment with activated carbon was not used.

The NEL pollution values at the outlet of the mobile waste disposal facility were determined to be 4.754 mg / l by the SPG ORG-MV-06 GC type A method.

Industrial usability

As shown by the specific examples of use, the device according to the invention has a wide application in the disposal of hazardous waste on the basis of the high efficiency and mobility of the device enabling it to work in situ.

Claims (5)

PROTECTION REQUIREMENTS Hazardous waste disposal plant, characterized in that it consists of a tank (1) equipped on one side with a forced supply (11) of purified medium and on the other side (12) of purified medium and the tank (1) is divided into at least two working spaces (13, 14), wherein a first wall (131) and a coalescing filter (132) are located in the first working space (13) downstream of the cleaned medium and the second working space (14) is equipped with at least one sorption filter (141) wherein the cover (17) of the tank (1) is provided with at least two working openings (171, 172). Hazardous waste disposal device according to claim 1, characterized in that a third working space (15) equipped with an activated carbon filter (151) is formed in the tank (1) downstream of the cleaned medium. Hazardous waste disposal device according to claim 1 or 2, characterized in that the first chamber (13) of the tank (1) is equipped with a mechanical impurity filter at the inlet (s) of the cleaned medium. Hazardous waste disposal device according to claim 1 or 2, characterized in that sorption sleeves or sorption baskets are used as sorption filters (141, 141 ') in the second working space (14). Hazardous waste disposal device according to any one of the preceding claims, characterized in that it is located on a mobile chassis.