RU169533U1 - Device for cleaning the inner surfaces of tanks from hard to remove sediment - Google Patents

Abstract

The utility model relates to devices for cleaning the internal surfaces of existing tanks (TU 3615.44.00.00.000) from hard-to-recover sludge formed during the storage of reaction masses from detoxification of toxic substances, and can be used during liquidation measures when removing chemical weapons destruction facilities from The purpose of the utility model is the safe extraction of solid sediment from the bottom layer of tanks for storing reaction masses from detoxification of toxic substances and and objects for the destruction of chemical weapons using a device for cleaning the inner surfaces of reservoirs of hard-to-recover sediment. The objective of the utility model is the mechanical homogenization of the stratified reaction mass inside the reservoirs with the distribution of the solid phase in the form of a solution or suspension in the liquid phase of the reaction mass or in the washing liquid. achieved using a scraper 2 (Fig. 1), the design of which includes a movable hinge part 3 (Fig. 1), the fastening of which is carried out to the leading winch with an arrow 4 (Fig. 2). The scraper is made with a continuous bucket for cleaning the tank. The solid bucket is made of sheet steel with a thickness of 8 mm, the working part of which is curved in the direction of movement at an angle of 40 ° and sharpened. A steel plate 25 mm thick and weighing 15 kg is welded to the back of the scraper to make it heavier. The technical result is mechanical homogenization of the separated reaction mass inside the tanks with the distribution of the solid phase in the form of a solution or suspension in the liquid phase of the reaction mass or in the washing liquid, which allows safe

Description

The utility model relates to devices for cleaning the internal surfaces of existing tanks (TU 3615.44.00.00.000) from hard-to-recover sludge formed during the storage of reaction masses from detoxification of toxic substances, and can be used during liquidation measures when removing chemical weapons destruction facilities from operation.

In the process of chemical detoxification of toxic substances, the formation of reaction masses occurs, which accumulate in special tanks for temporary storage. During the entire storage time of the reaction masses occur: crystallization of their inorganic and organic components, separation of the components into layers, deposition and compaction of solid particles in the bottom layer of the tanks. The storage time of the reaction mass in the tanks can be about five years. In the process of pumping the reaction mass for its further disposal, the problem arises of the safe extraction of solid sediment from the bottom layer of the reservoirs. Studies have shown that it is not possible to completely transfer a hard-to-recover precipitate into a solution without complex chemical transformations. Using the tank as a chemical reactor involves an uncontrolled homogenization process, which significantly reduces the degree of safety of the process.

Thus, the safest and most effective way of recovering a solid precipitate is the method of extracting it in the form of a solution or suspension in conjunction with a washing liquid or with the liquid phase of the reaction mixture. To solve this problem, a mechanical device is needed to mix and homogenize the stratified reaction mass inside the tank.

The purpose of the utility model is the safe extraction of solid sediment from the bottom layer of reservoirs for storing reaction masses from detoxification of toxic substances at chemical weapons destruction facilities using a device for cleaning the interior surfaces of reservoirs from hard-to-recover sediment.

A device is known for cleaning the inner surface of a tank for storing or transporting petroleum products, including: a sleeve for supplying washing liquid and / or steam in communication with a spray multi-nozzle head; means for changing the position of the head, on which the means of mechanical cleaning of the inner surface of the tank are also installed. In this case, the spray multi-nozzle head is made in the form of a two-section housing, the first section of which is in communication with a sleeve for supplying washing liquid, and the second is mounted rotatably relative to the previous one. Pipes are connected to the lateral surface of the second section, at the end of each of which there is a jet head perpendicularly mounted to this nozzle with a spray nozzle, and all nozzles are made with the same direction of the force moment vector between the direction of the corresponding nozzle from the second section and the direction of the jet power coming from nozzles of liquid and / or steam. Means of mechanical cleaning of the inner surface of the tanks are made in the form of elastic or spring-loaded scrapers mounted on the underside of the nozzles or on the reaction heads. The free end face of the second section has a plug through which a bypass sleeve is connected, which is in communication with the means for pumping the liquid fraction (RF Patent Ns 2160641; BVB 9/093, publ. 20.12.2000).

However, this device is unsuitable for the purpose of cleaning the inner surfaces of tanks for storing reaction masses formed during the detoxification of toxic substances, since it does not allow efficiently mixing a solid precipitate with the liquid phase of the reaction mass or with washing liquid and removing it in the form of a solution or suspension. In addition, a significant amount of washing liquid is required, which leads to additional volumes of non-regenerable waste, and the use of steam can cause an uncontrolled chemical process with the formation of toxic products and their release into the atmosphere.

The objective of the utility model is the mechanical homogenization of the stratified reaction mass inside the tanks with the distribution of the solid phase in the form of a solution or suspension in the liquid phase of the reaction mass or in the washing liquid.

The proposed utility model is illustrated by the drawings shown in FIG. 1-4.

FIG. 1 is a diagram of the installation of a special scraper in a horizontal tank.

FIG. 2 is a diagram of cleaning a horizontal tank.

FIG. 3 - winch with an arrow.

FIG. 4 is a diagram of the installation of the lead and return winch on the neck of the tank.

The technical result is achieved using a scraper 2 (Fig. 1), the design of which includes a movable hinge part 3 (Fig. 1), the fastening of which is carried out to the lead winch with boom 5 (Fig. 2). The scraper is made with a solid bucket for cleaning. The solid bucket is made of sheet steel with a thickness of 8 mm, the working part of which is curved in the direction of movement at an angle of 40 ° and sharpened. A steel plate 25 mm thick and weighing 15 kg is welded to the back of the scraper to make it heavier.

On the neck of the tank 1 (Fig. 2), located above the drain pipe, set the lead winch with boom 5 (Fig. 2). A return winch with boom 4 is installed on the second neck (FIG. 2), the leading and return winch being interchangeable and shown in FIG. 3. The installation diagram of the driving and return winch is shown in FIG. 4. A steel cable with a diameter of 5 mm is passed through the necks of a horizontal reservoir 1 (Fig. 2), on which a special scraper 2 (Fig. 2) with a movable hinged part is installed. The ends of the cable are fixed on the drums of the lead and return winch (Fig. 3). The tank is cleaned of hard to remove sediment by moving the scraper from the far wall of the tank to the drain pipe using a lead winch with an arrow. The scraper is returned to its original position using a return winch with an arrow. The weight of the scraper is at least 25 kg.

Claims (2)

1. A device for cleaning the inner surfaces of reservoirs from hard-to-recover sediment formed during the storage of reaction masses from detoxification of toxic substances, including a scraper with a movable hinged part and with a solid bucket of sheet steel 8 mm thick, the working part of which is curved to the side of movement at an angle 40 ° and sharpened, a steel plate 25 mm thick and weighing 15 kg, welded to the back of the scraper to make it heavier, a winch mechanism made with the possibility of horizontal movement Ia scraper inside the tank via the return lead and with a jib winch installed on the vessel neck, wherein the leading and the return winch made interchangeable. 2. The device of claim 1, characterized in that the movable hinged part of the scraper is attached to the lead winch with an arrow.

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