RU167497U1 - FILTER OF ELECTROCONVECTIVE CLEANING OF A HYDROCARBON COMPONENT OF COMPOSITE BIOFUEL - Google Patents

Abstract

The utility model relates to technologies for the preparation and preliminary preparation of components of a composite mineral-organic biofuel (CMOBT) and can be used in the purification of heavy oil products from impurities. The filter consists of a housing (1,) having a cylinder in the upper part and a truncated cone in the lower part, facing down with a small base. The inlet pipe (2) for supplying the component to be processed and the outlet pipe (3) for selecting the cleaned component are respectively located in the upper and lower parts of the cylindrical body (1), and there is a drain pipe (4) for removing contaminants at the bottom of its conical part. A cylindrical heater (5) is mounted on the outer cylindrical surface of the housing, and a removable porous perforated cylindrical liner (6) is mounted axisymmetrically near the inner surface of the cylindrical part of the housing. A coaxial universal high-voltage electrode is installed coaxially inside the casing, consisting of a metal rod (7), on which are located the electrically conductive curly conductive plates (8) made with pointed teeth (10) along the periphery and central holes (11) for installation on a metal rod, and between the conductive plates on the metal rod installed bushings (9) of various heights. As a result of the use of a robust, collapsible design of a high-voltage electrode of variable geometry, the reliability and stability of the device are increased, high purification of liquids is achieved, the range of gravimetric and dielectric parameters of impurities is expanded,

Description

The utility model relates to technologies for the preparation and preliminary preparation of components of a composite mineral-organic biofuel (KMOBT) and can be used in the purification of heavy oil products from foreign impurities having gravimetric and dielectric characteristics different from the processed component.

CMBTs are produced in the form of homogeneous emulsions and suspensions based on renewable organic raw materials and petroleum waste products in order to increase the environmental and energy efficiency of thermal installations when burning fuel oil or other liquid hydrocarbon fuels (“The use of third-generation biofuels in stand-alone energy-generating systems based on modern steam piston engines "Sister VG et al., Chemical and Oil and Gas Engineering, 2013, No. 3, S. 41-43). Used hydrocarbon oils, carbon-containing emulsions obtained when cleaning tanks and reservoirs for storing petroleum products, etc., can be used as the hydrocarbon component of KMOBT. Such raw materials contain a significant proportion of extraneous liquid and solid impurities, the presence of which in CMVBT leads to wear and failure of the burner devices.

There are various methods and devices for fine purification of liquids, among which fine filters using inhomogeneous electric fields have proven themselves well.

The prior art device is known (Mikheev G.M. et al. Electroconvective cleaning / Letters in ZhTF. - 2008. - v. 34. - issue 9. - p. 65-72), in which the separation of foreign matter is carried out in the filter containing a spiral electrode under high voltage relative to a cylindrical metal body. Cleaning occurs as a result of the occurrence of near-wall region of the casing of the vortex flows of the processed fluid, the spatial extent of which in the direction of the axis of the casing is determined by the distance between the coils of the spiral. Under the influence of centrifugal force in the vortex, foreign inclusions tend to its periphery. At the same time, they are deposited on the walls of the body and, under the action of gravity, sink to its bottom.

A disadvantage of the known device is the selective nature of the cleaning efficiency with respect to polluting particles, which differ in their gravimetric parameters due to the fact that the spiral pitch determining the size of the vortex is constant along the entire length of the filter housing. In addition, the known device is characterized by a relatively low coefficient of availability, due to the need for periodic shutdown of the working process to release the inner cylindrical wall of the housing from impurities settled on it.

From these drawbacks, the closest to the proposed technical solution device according to the patent for a utility model (RU 138831, IPC - 2015.01: B03C 5/00, C02F 1/48, Nikitin SI, Nikitina IV, Patent holder: Geoid LLC ", Published 04/27/2014), adopted as a prototype and containing a cylindrical spiral electrode having a variable winding pitch, equipped with a removable perforated cylindrical electrode coaxially mounted between the inner wall of the housing and the spiral electrode. The variable pitch of the spiral winding ensures the cleaning of liquids from impurities with various gravimetric parameters, and thanks to a removable perforated electrode, the device downtime during maintenance is reduced. In this case, it is enough to replace the perforated electrode with impurity particles deposited on it with a clean electrode from the spare set.

At the same time, the known devices have at least two common significant drawbacks, one of which is the relatively low productivity due to the periodic nature of the work cycle, including the operations of loading the initial liquid, unloading the filtrate, and preparing for the next cycle. Moreover, taking into account the fact that hydrocarbon components (for example, fuel oil, bottoms, etc.) are used for the preparation of CMBT, which require preliminary heating due to their high viscosity at normal temperature, unproductive energy losses occur during liquid reloading.

The second significant drawback of the known devices is the unreliability of the central design, made in the form of a spiral electrode, since the thickness of the wire from which it is made is minimized for reasons of obtaining maximum inhomogeneity of the electric field. This is required by the conditions for the most efficient separation of undesirable suspension components from the separation of the target product. However, an electrode made of thin wire is at risk of deformation, not only during installation, but also during normal operation of the device.

In addition, if you need to use a filter to clean various hydrocarbon liquids contaminated with impurities, the gravimetric and / or dielectric characteristics of which have significant differences, you need to have a set of spiral wire electrodes with different pitch windings.

The objective of the proposed utility model is the creation of a high-performance device that provides effective cleaning of the hydrocarbon component of the composite biofuel from foreign solid and liquid particles by the electroconvective method.

The technical result consists in the fact that it is possible to increase the productivity that ensures the effective cleaning of the hydrocarbon component of the composite biofuel from foreign solid and liquid particles by the electroconvective method due to the use of a collapsible design of a high-voltage electrode of variable geometry.

The technical result is achieved in that the filter includes a housing having a cylinder shape in the upper part and a truncated cone facing downward with a small base in the lower part, while the inlet pipe for supplying the component to be processed and the outlet pipe are respectively located in the upper and lower parts of the cylindrical body for the selection of the cleaned component, and at the bottom of its conical part there is a drain pipe for the removal of pollutants, a high-voltage electrode is placed inside the housing and coaxially with it, difference according to gender A useful model consists in the fact that the high-voltage electrode is made in the form of a metal rod, on which are located the curly conductive plates that are in electrical contact with the pointed teeth on the periphery, while on the metal rod, sleeves of different heights are installed alternately between the curly conductive plates, moreover near the inner surface of the cylindrical part of the housing, a removable porous perforated cylindrical liner is mounted axisymmetrically, and on the outer cylinder -symmetric cylindrical surface of the heater housing is mounted.

In addition, the differences also lie in the fact that the metal rod of a type-setting high-voltage electrode can be made in the form of a threaded rod with alternately mounted curly conductive plates and bushings, tightened with ordinary nuts; curly conductive plates with pointed teeth are made with central holes for installation on a metal rod.

The essence of the utility model is illustrated by drawings:

in FIG. 1 is a general diagram of a filter;

in FIG. 2 is a fragment of a stacked high-voltage electrode explaining the principle of assembly of its elements;

in FIG. 3 is a cross section of a typesetting high voltage electrode passing through one of the bushings.

The electroconvective cleaning filter consists of a housing 1 having the shape of a cylinder in the upper part and the shape of a truncated cone facing downward with a small base, while the inlet pipe 2 for supplying the component to be processed and the outlet pipe 3 are respectively located in the upper and lower parts of the cylindrical body for the selection of the purified component, and at the bottom of its conical part there is a drain pipe 4 for the removal of pollutants.

A cylindrical heater 5 is mounted on the outer cylindrical surface of the housing 1, and a removable porous perforated cylindrical insert 6 is mounted axisymmetrically near the inner surface of the cylindrical part of the housing 1.

Inside the housing coaxially to it is installed a universal stacked high-voltage electrode, consisting of a metal rod 7, on which are located the electrically conductive curly conductive plates 8, made with pointed teeth 10 along the periphery and central holes 11 for installation on the metal rod 7, and between conductive plates 8 on the metal rod 7 installed sleeve 9 of various heights.

The operation of the device, as exemplified by the purification process of the heavy hydrocarbon component KMOBT (fuel oil fraction of the oil distillation), is carried out as follows.

Preheated (the optimal preheating temperature depends on the initial kinematic viscosity of the hydrocarbon component and lies in the range of 150-350 ° C), to give it fluidity, the initial processed hydrocarbon component is fed into the housing 1 through the inlet pipe 2 located in the upper part processed hydrocarbon component and increase its viscosity, the required temperature in the filter is maintained using a cylindrical heater 5 set on the outside of the housing 1.

In order to increase the filter performance, the process is carried out in flow mode. This means that the processed hydrocarbon component is fed into the filter housing 1 continuously, which provides a higher filter performance compared to similar periodic loading devices. The component purified from impurities is taken from the filter through the outlet pipe 3.

Cleaning is as follows.

The continuous flow of the initial hydrocarbon component being processed through the filter is affected by an electric field by applying a high electric potential to a universal stacked high-voltage electrode relative to the filter housing 1. Due to the fact that the curly conductive plates 8 have pointed teeth 10, local areas of high-intensity electric field are created near the inner cylindrical surface of the housing 1. Under the influence of this field near the inner wall of the housing 1, vortex flows of the processed hydrocarbon component are formed (Mikheev G.M. et al. Electroconvective cleaning of a liquid dielectric / Letters to ZhTF. - 2008. - V. 34. - Issue 9. - P. 65 -72).

Foreign particles in the vortex flows created in this way acquire centrifugal acceleration, which rejects them in the direction of the inner cylindrical wall of the housing 1. Particles up to a few microns in size are held up by a porous perforated cylindrical insert 6, and larger particles fall down by gravity and settle at the bottom of the conical body parts 1.

The processed hydrocarbon component purified from impurities is removed from the filter through the outlet pipe 3 for preparing a composite mineral-organic fuel by adding organic components (such as, for example, microalgae biomass) followed by ultrafine homogenization.

Periodically, without stopping the purification process, a certain amount of the processed hydrocarbon component with accumulated sediment of large particles from the bottom region of the conical part of the housing 1 is selected through the drain pipe 4. The maximum amount of the processed hydrocarbon component with sediment is selected that corresponds to the level difference between the drain 4 and output 3 pipes.

The cleaning process stops only at the time of replacing the porous perforated cylindrical liner 6 as small foreign particles accumulate on it, which ensures a high coefficient of availability of the device.

The design of the universal type-setting high-voltage electrode is collapsible and at the same time durable and reliable in operation, since it is assembled from rigid elements. It is possible to disassemble and assemble the electrode with replacing the bushings 9 of one height with bushings of a different height, changing the geometry of the electrode and, accordingly, the spatial distribution of the electric field strength, which is concentrated on the pointed teeth 10 of the figured plates 8. Moreover, changing the distances between the figured plates 8 provides when processing a hydrocarbon component, the formation of vortex flows, which are closed in spatial regions of various sizes. This ensures the selective nature of the capture efficiency of foreign particles depending on their gravimetric and dielectric characteristics (mainly, bulk density, size and dielectric constant).

The metal rod 7 of the stacked high-voltage electrode can be made, for example, in the form of a threaded rod, on which figured plates and bushings are alternately put on using the central holes 11, after which the set of plates and bushings is pulled together using ordinary nuts.

When setting up a type-setting high-voltage electrode for cleaning a hydrocarbon component from a specific source (characterized by the presence of extraneous inclusions of a specific composition), a set of bushings 9 of such dimensions is selected experimentally that the cleaning efficiency from foreign particles is maximized. The cleaning efficiency is evaluated by any of the known methods, for example, by changing the optical absorption, dielectric constant or electrical conductivity.

Claims (3)

1. An electroconvective filter for the hydrocarbon component of a composite biofuel, including a housing having a cylinder shape in the upper part and a truncated cone facing downward with a small base in the lower part, while the inlet pipe for supplying the component to be processed is located in the upper and lower parts of the cylindrical body and an outlet pipe for selecting a cleaned component, and at the bottom of its conical part there is a drain pipe for discharging contaminants, you are placed inside the housing and aligned with it an electro-voltage electrode, characterized in that the high-voltage electrode is made type-setting, in the form of a metal rod, on which are located the curly conductive plates which are in electrical contact with the pointed teeth on the periphery, while on the metal rod, bushings of different heights are installed alternately between the curly conductive plates, moreover, a removable porous perforated cylindrical liner is mounted axisymmetrically near the inner surface of the cylindrical part of the housing, and on the outside A cylindrical heater is mounted on the cylindrical surface of the housing. 2. The filter according to claim 1, characterized in that the metal rod of the stacked high-voltage electrode is made in the form of a threaded rod with curly conductive plates and bushings mounted alternately on it and tightened with ordinary nuts. 3. The filter according to claim 1, characterized in that the curly conductive plates with pointed teeth are made with central holes for installation on a metal rod.

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