RU57873U1 - INSTALLATION FOR PROCESSING OIL SLUDGES - Google Patents

Abstract

The utility model relates to the field of environmental protection, namely, to devices for processing solid waste from oil production, oil refining, petrochemicals, and heat power plants. The objective of the utility model is to create a cost-effective installation for the disposal of oil sludge. The technical problem is solved by an installation for oil sludge processing, including a loading hopper, in which a loading hopper is connected to a high-frequency atmospheric pressure plasma torch via an oil sludge dispenser, while the oil sludge dispenser and a high-frequency atmospheric pressure plasmatron are in communication with a steam generator, a high-frequency atmospheric pressure plasmatron is connected through a branch pipe to the gaseous products by an electric generator, and by means of a discharge branch pipe of the charge through the charge meter is connected to high-frequency m low-pressure plasmatron, which is connected to a separator for separating metals based on an electrostatic field, and an electrostatic separator for separating metals based on an electrostatic field is connected to a charge dispenser through a plasma-forming gas regenerator, which makes it possible to utilize oil sludge with the subsequent use of processing products: synthesis gas, which allows operation of the installation in standalone mode, and rare metals with a degree of purity up to 99%. The inventive installation can be placed on a car platform and can be used in the field, in the immediate vicinity of the waste location.

Description

The utility model relates to the field of environmental protection, namely, to devices for processing solid waste from oil production, oil refining, petrochemicals, and heat power plants.

The closest in technical essence is the installation for the processing of oil sludge, including a loading hopper, a pyrolysis chamber in communication with the combustion chamber, an air supply system to the chambers and pipes for the removal of gaseous products of combustion, an exhaust fan, in which the installation contains at least two connected between a cyclone connected to a loading hopper, a conveyor equipped with a drive, connected to a pyrolysis chamber made in the form of a U-shaped pipe, equipped with electrodes and connected to the injector associated with the combustion chamber, which is connected by a branch pipe of the removal of gaseous products of combustion with one of the cyclones, while the second cyclone is connected with a branch pipe of the removal of gaseous products, containing an exhaust fan, which is a smoke exhaust, the cyclones are made in the form of vertically mounted cylindrical chambers having a conical narrowing in the lower parts moreover, the cyclones are interconnected in the upper cylindrical parts by branch pipes for the removal of gaseous products of combustion, and in the lower parts by means of a discharge device, equipped with of the fan.

The predominant installation when: the conveyor is made screw; further comprises a neutralizer, which is made in the form of a hollow cylinder filled with filler; further comprises a neutralizer, which is made in the form of a hollow cylinder filled with filler; metal shavings are used as filler; the unloading device is made in the form of a closed inclined trough equipped with a fan, connected with cyclones by means of nozzles; housings of the components of the installation: combustion chamber, air supply pipes and gaseous products

combustion, pyrolysis chamber, cyclones, injector and conveyor, unloading device, are made in the form of hollow cylinders interconnected by means of flange connections, see RU Patent No. 2229060, IPC F 23 G 7/05, 2004.

The disadvantages of the known installation is that the products of the processing of oil sludge are not subject to further industrial use, it can not work offline, and also does not allow the allocation of rare metals.

The objective of the utility model is to create a cost-effective installation for the disposal of oil sludge, which allows to work autonomously due to the synthesis gas obtained during the decomposition of oil products contained in the waste and to recover rare metals with a purity of up to 99%.

The technical problem is solved by an installation for oil sludge processing, including a loading hopper, in which a loading hopper is connected to a high-frequency atmospheric pressure plasma torch via an oil sludge dispenser, while the oil sludge dispenser and a high-frequency atmospheric pressure plasmatron are in communication with a steam generator, a high-frequency atmospheric pressure plasmatron is connected through a branch pipe to the gaseous products by an electric generator, and by means of a discharge branch pipe of the charge through the charge meter is connected to high-frequency m low pressure plasma torch, which is connected to a separator for separating metals based on an electrostatic field, and a separator for separating metals based on an electrostatic field through a plasma gas regenerator is in communication with a charge meter,

which makes it possible to utilize oil sludge with the subsequent use of refined products: synthesis gas, which allows the unit to operate autonomously, and rare metals with a purity of up to 99%.

Installation for the processing of oil sludge, including a loading hopper 1, a loading hopper 1 through a sludge dispenser 2 is connected to

high-frequency atmospheric pressure plasmatron 4, while oil sludge dispenser 2 and high-pressure atmospheric pressure plasmatron 4 are connected with the steam generator 3, high-frequency atmospheric pressure plasmatron 4 is connected to the electric generator 6 through the outlet pipe for gaseous products 5, and through the charge discharge pipe 7 through the charge meter 8 a high-frequency plasma torch of reduced pressure 9, while the high-frequency plasma torch of reduced pressure 9 is connected to a metal separation separator based on electric ostaticheskogo field 10 which communicates with the regenerator 11, the plasma gas, the plasma gas and the regenerator 11 communicates with the dispenser charge 8 cm. Figure 1.

The claimed installation works as follows:

Pre-crushed sludge to a granular state is heated by heat from the generator 6 and fed from the feed hopper 1 to the sludge dispenser 2, then from the sludge dispenser 2 in the form of fine powder by means of steam coming from the steam generator 3, it is fed into a high-frequency atmospheric pressure plasma torch 4, in which water-vapor coming from the steam generator 3 acts as a plasma-forming gas.

In a high-frequency atmospheric-pressure plasma, oil sludge decomposes with the formation of synthesis gas. The synthesized gas, which consists mainly of C ₃ -C ₄ hydrocarbons, is an ideal fuel for internal combustion engines, therefore it is used as a fuel in an electric generator generating electric energy necessary for operation of a high-frequency atmospheric pressure plasma torch 4, a low-frequency high-pressure plasma torch 9, and a separator separation of metals based on an electrostatic field 10, a plasma gas regenerator 11 and a steam generator 3.

From the high-frequency atmospheric pressure plasma torch 4, through the outlet pipe of the gaseous products 5, the synthesized gaseous products enter the generator 6, and through the outlet pipe of the charge 7 through the charge meter 8 into the high-frequency plasma torch of reduced

pressure 9 enters the charge. The decomposed charge mixture is blown from the discharge chamber of the plasma torch 9 by a plasma-forming gas (argon or other inert gas) and enters the metal separation separator based on the electrostatic field 10, where rare metals are separated in an inert gas medium. The separator of separation of metals based on the electrostatic field 10 is in communication with the regenerator 11 for the regeneration of a plasma-forming gas (argon or other inert gas), the regenerated gas then enters the charge meter 8.

Thus, the inventive installation is cost-effective, as it increases the reliability and efficiency of the disposal of oil sludge with subsequent industrial use of refined products: synthesis gas, which allows the installation to work offline, and rare metals with a purity of up to 99%.

The inventive installation can be placed on a car platform and can be used in the field, in the immediate vicinity of the waste location.

Claims (1)

Installation for oil sludge processing, including a loading hopper, characterized in that the loading hopper is connected to a high-frequency atmospheric pressure plasma torch through an oil sludge dispenser, while the oil sludge dispenser and a high-frequency atmospheric pressure plasmatron are in communication with a steam generator, a high-frequency atmospheric pressure plasmatron is connected to a gaseous product exhaust branch pipe to and by means of the charge discharge pipe through the charge dispenser it is connected to the high-frequency plasmatron by izhennogo pressure which is connected to a separator separating metals based on the electrostatic field and separation metal separator plasma gas through the regenerator communicates with the dispenser charge.