RU106617U1 - OIL WASTE PROCESSING IN BOILER FUEL - Google Patents

Abstract

 1. Installation for the utilization of irrigated hydrocarbon-containing waste, including a filter unit for mechanical cleaning and a homogenization unit for liquid dispersed fuel, characterized in that it further comprises a separation unit and a control unit, wherein the separation unit includes a distributor, a hydrophobic filter, pockets for collecting dehydrated hydrocarbons and pockets to collect purified water. ! 2. Installation for the disposal of hydrocarbon-containing waste according to claim 1, characterized in that the homogenization unit is equipped with a tank for introducing an additional combustible component. ! 3. Installation for the disposal of hydrocarbon-containing waste according to claim 1, characterized in that the homogenization unit includes a housing, an electric motor, a pump, a shaft, a rotor mounted on the shaft, switching cranes, supply pipes and a discharge pipe. ! 4. Installation for the disposal of hydrocarbon-containing waste according to claim 1, characterized in that the mechanical cleaning filter unit consists of two filters, inlet and outlet pipes and four shut-off valves. ! 5. Installation for the disposal of hydrocarbon-containing waste according to claim 1, characterized in that the distributor consists of a central pipe, beams, screw and beam with nut. ! 6. Installation for the disposal of hydrocarbon-containing waste according to claim 1, characterized in that it further comprises a demulsification unit installed in front of the filter unit mechanical cleaning. ! 7. Installation for the disposal of hydrocarbon-containing waste according to claim 6, characterized in that the demulsification unit is equipped with a heating station.

Description

The utility model relates to the field of utilization of irrigated hydrocarbon-containing waste and is intended to produce liquid fuel used as such or as the basis for liquid fuel or additives to finished liquid fuel, as well as purified water. The most effective use of the installation is in the utilization of mixtures of irrigated spent oil products in energy dispersed fuel in wastewater treatment systems of locomotive depots, oil depots, sea and river ports, automobile service stations and other enterprises that have significant amounts of irrigated hydrocarbon-containing waste.

A known installation for the disposal of hydrocarbon-containing waste, including sedimentation tanks with heaters, which are containers of the first separation and containers of the second separation, centrifugal and gravity separators and a container for an emulsifier in communication with the capacity of the second separation (RU 2180909).

A mixture of spent petroleum products can be used as hydrocarbon-containing waste for processing at the specified installation. However, the disposal of such wastes, such as mixtures of irrigated spent oil products generated in the wastewater treatment systems of locomotive depots, oil depots, sea and river ports, car service stations, etc., having significant amounts of water and pollution with inorganic compounds, is not possible at this known installation . In addition, the cleaning process on the known installation has a long duration, which reduces its manufacturability and increases the cost.

Also known installation for the disposal of flooded hydrocarbon-containing waste, representing ship oil-containing water and oil-containing water of coastal enterprises (SU 1810379). The installation includes sump tanks, a magnetic strainer for filtering settled oil, heaters, separators, a water-separator filter filled with polyvinyl formaldehyde, an ion-exchange column, and a corrosion inhibitor additive dispenser.

Since the filters and the ion-exchange column have a limited resource, after the development of which they need to be replaced or regenerated, this known installation is not technologically advanced.

Closest to the proposed utility model (prototype) is a well-known installation for the disposal of waterlogged hydrocarbon-containing waste, including a filter unit for mechanical cleaning and a homogenization unit (RU 2256695).

A disadvantage of the known installation is the complexity of its technological design due to the inability to dispose of irrigated hydrocarbon-containing waste, such as oiled water, spent cutting fluid, etc. (water-containing components) without adding from 50 to 80% hydrocarbon-containing waste containing a small amount of water, which requires separate nodes for the preparation and dosing of each component. During operation of the installation, oil residues, spent oil products, hydrocarbon components, water-containing components (flooded hydrocarbon-containing waste) are separately subjected to preliminary preparation, including heating to the required temperature (40-120 ° C), and the temperature of the streams should not differ from each other by no more than 10 ° C, and filtration from mechanical impurities (filter block of mechanical cleaning). Then, the oil residues, the hydrocarbon component, and, if necessary, the spent oil products, obtained in the required quality, are metered in the required quantities and fed to the raw material preparation unit for subsequent mixing in a turbulent mode so that the hydrocarbon component is distributed in the volume of the oil residue at a uniformity factor of at least 0.5 (optimally at least 0.85). In this case, the temperature of mixing the oil residue and the temperature of the hydrocarbon component differ from each other by no more than 10 ° C. The mixing product is then homogenized in a rotary-mechanical disperser so that the maximum particle size of the dispersed phase does not exceed 50 μm with an average size of 1-15 μm (optimally 3-10 μm). The homogenized mixture prepared at this stage, as well as the heated water-containing component, are introduced into the homogenization unit, where in the turbulent mode they are distributed in the volume of the mixture at a uniformity factor of at least 0.5 (optimally at least 0.85) and at flow temperatures that differ not more than 10 ° C from each other, and homogenization in a rotor-mechanical dispersant so that the maximum particle size of the water in the finished fuel does not exceed 50 microns with an average size of 1-15 microns (optimally 3-10 microns). The result is a water-oil fuel containing water, initially included in hydrocarbon-containing waste and additionally introduced as a water-containing component.

Thus, in addition to the complexity of the technological design, the disadvantage of the known installation is that the resulting product (liquid fuel) contains a significant amount of water (up to 70%), i.e. It is a low energy fuel.

The technical task of the proposed utility model is to eliminate these disadvantages.

The technical result of the proposed utility model is to provide the possibility of utilizing hydrocarbon-containing wastes with both a small (5%) and significant (up to 55%) water content, improving the quality of the liquid dispersed fuel by reducing the water content in it, simplifying the process design of the installation and obtaining as an additional final product of purified water, which can be further used for technical needs, as such, or subjected to additional purification.

The specified technical result is achieved in that the installation for the utilization of irrigated hydrocarbon-containing waste, including a mechanical cleaning filter unit and a homogenization unit, further comprises a separation unit and a control unit, wherein the separation unit includes a distributor, a hydrophobic filter, pockets for collecting dehydrated hydrocarbons and pockets for collecting purified water.

If necessary, the homogenization unit can be equipped with a tank for introducing an additional combustible component, for example, diesel fuel, which helps to increase the energy performance obtained at the installation of the fuel mixture.

The homogenization unit preferably includes a housing, an electric motor, a pump, a shaft, a rotor mounted on the shaft, switching valves, inlet pipes and a discharge pipe.

Preferably, the mechanical cleaning filter unit may consist, for example, of two filters, inlet and outlet pipes and four shut-off valves,

The distributor, in particular, may consist of a central pipe, beams, a screw and a beam with a nut.

If necessary, the installation may additionally comprise a demulsification unit installed in front of the mechanical cleaning filter unit. In this case, preferably, the demulsification unit is equipped with a heating station.

As the initial hydrocarbon-containing waste that can be disposed of at the proposed installation, used hydrocarbons taken from the wastewater treatment systems of the locomotive depots, oil depots, sea and river ports, automobile service stations, factory territories and any other irrigated hydrocarbon waste can be used and mixtures thereof with a water content of up to 55%. A feature of such irrigated spent hydrocarbons is the presence of a large number of particles of inorganic pollution. The mechanical filter block provides the separation of inorganic particles, which improves the quality of the resulting recycling products.

Averaging the technological characteristics of pre-dehydrated hydrocarbons and preventing their delamination is ensured by a homogenization unit. The homogenization process increases the stability of dispersed fuel, which allows it to be used with great reliability for energy during combustion at various plants. The homogenization process consists in intensive mixing, based on the effect of "microexplosion". “Microexplosion” occurs as a result of a pulsating bursting of hydrocarbon feedstock from the high-pressure region through periodically opening rotor openings into the rarefaction region.

The control unit contains standard equipment and provides control of the following system operation parameters:

- upper and lower liquid levels in the pocket of the collection of dehydrated hydrocarbons,

- the upper level of the liquid in the pocket for collecting water,

it also provides automatic shutdown of the unit’s booster pump when the purified water collection pocket and the dehydrated hydrocarbon collection pocket are full when the homogenization unit is turned off, and also provides the automatic homogenization block when filling the dehydrated liquid dispersed fuel collection pocket and the homogenization block automatically turns off with a minimum level of dehydrated hydrocarbons in collection pocket.

The separation unit contains a distributor, a hydrophobic filter and pockets for collecting dehydrated hydrocarbons and purified water. The bundle unit operates as follows.

The distributor divides the initial mixture into drops. Having a higher density compared to hydrocarbons, a drop of the initial hydrocarbon-containing mixture passes through a layer of "oil" into a layer of water. During the passage of the droplet through the layers, water and hydrocarbons are separated and their transition to the corresponding layer.

In the proposed installation, you can use a hydrophobic filter (for example, brand TS.GF). A hydrophobic filter is a container with two layers of liquid: a filtering layer of hydrocarbons (the so-called layer of "oil") and a layer of water underneath. The layer of "oil", performing a filtering function, intensifies the dehydration process (compared with the processes of simple sludge). The thickness of the layers is maintained constant due to the free overflow of hydrocarbons accumulating in the filter into the pocket for collecting dehydrated hydrocarbons, and also due to the free overflow of excess released water into the pocket connected to the main tank via a pipe with a control sleeve.

The demulsification unit increases the efficiency of the installation when working with persistent water-hydrocarbon emulsions, since it provides their preliminary destruction with special substances, for example, demulsifiers like TMS "N" and TMS "2", in combination with heating to 40-50 ° C . The heating is provided, for example, using a heating station brand FZHT-360. The demulsification unit is installed in front of the mechanical cleaning filter unit.

The installation is as follows.

The initial hydrocarbon-containing waste is fed through an inlet pipe to a filter unit for mechanical cleaning. Then the hydrocarbon-containing waste, purified from mechanical impurities (mainly from inorganic pollution), is fed to the separation unit. Through the distributor of the separation unit, which separates the flow into droplets, the hydrocarbon part of the waste passes into the “oil” layer of the hydrophobic filter. When moving in the “oil” layer, droplets of flooded hydrocarbon-containing waste are filtered, resulting in hydrocarbons remaining in the upper layer (“oil” layer), and water passes into the underlying water layer. In the water layer, the process of further separation occurs as a result of settling with the removal of hydrocarbon residues into the "oil" layer, as well as the deposition of heavy impurities at the bottom of the filter.

Excess hydrocarbons are removed from the “oil” layer by gravity through the oil receiver into the collection pocket of the dehydrated hydrocarbons. From the pocket, hydrocarbons are fed to the homogenization unit, followed by removal from the unit. The hydrocarbon content in the resulting product is 90-98%, which provides it with high energy performance both when used as liquid dispersed fuel, as such, and as the basis of fuel or additives to it.

Purified water is discharged from the layer into a pocket to collect purified water. The hydrocarbon content in purified water does not exceed 300 mg / l. Further, if necessary, water is supplied through the pipe for tertiary treatment.

Precipitation accumulating at the bottom of the main tank of the hydrophobic filter is periodically removed through the cleaning valve. The installation is controlled from the remote control unit.

The unit is designed for operation at ambient temperature from + 5 ° С to + 50 ° С.

Claims (7)

1. Installation for the utilization of irrigated hydrocarbon-containing waste, including a filter unit for mechanical cleaning and a homogenization unit for liquid dispersed fuel, characterized in that it further comprises a separation unit and a control unit, wherein the separation unit includes a distributor, a hydrophobic filter, pockets for collecting dehydrated hydrocarbons and pockets to collect purified water. 2. Installation for the disposal of hydrocarbon-containing waste according to claim 1, characterized in that the homogenization unit is equipped with a tank for introducing an additional combustible component. 3. Installation for the disposal of hydrocarbon-containing waste according to claim 1, characterized in that the homogenization unit includes a housing, an electric motor, a pump, a shaft, a rotor mounted on the shaft, switching cranes, supply pipes and a discharge pipe. 4. Installation for the disposal of hydrocarbon-containing waste according to claim 1, characterized in that the mechanical cleaning filter unit consists of two filters, inlet and outlet pipes and four shut-off valves. 5. Installation for the disposal of hydrocarbon-containing waste according to claim 1, characterized in that the distributor consists of a central pipe, beams, screw and beam with nut. 6. Installation for the disposal of hydrocarbon-containing waste according to claim 1, characterized in that it further comprises a demulsification unit installed in front of the filter unit mechanical cleaning. 7. Installation for the disposal of hydrocarbon-containing waste according to claim 6, characterized in that the demulsification unit is equipped with a heating station.