RU207296U1 - REACTOR FOR DESERVING OIL OIL - Google Patents

Abstract

The utility model relates to the purification of oil refining products - fuel oil, marine fuels from sulfur compounds and can be used in the oil refining industry. The reactor contains a vertical body with a cover, which contains movable electrodes, fixed electrodes, upper and lower insulating perforated grids, an upper limit level indicator, a pipeline with a fuel oil supply pipe, as well as sweet fuel oil and gas outlet pipes. The fixed electrodes are made of dissimilar steels, and the movable electrodes are in the form of ceramic balls, with a conductor with an active catalyst applied to their surface. Some of the stationary electrodes are electrically connected to the electric current converter, and between them there are stationary intermediate electrodes not connected to the electric current converter. Moreover, the stationary electrodes connected to the electric current converter are divided into two groups, one of which is connected to the output of the converter with a positive potential, and the other to the output of the converter with a negative potential. In addition, the electric current converter is equipped with adjustable current and voltage transformers, and the fuel oil supply pipeline is equipped with a gear pump with a variable frequency drive. In addition, the gas outlet branch pipe is connected to a series-connected refrigerator, adsorber and gas meter, and the sweetened fuel oil outlet branch pipe is connected to a drain tank. 4 ill.

Description

The utility model relates to the purification of oil refining products - fuel oil, marine fuels from sulfur compounds and can be used in the oil refining industry.

The closest technical solution to the claimed utility model is a device for preparing high-sulfur fuel oils for combustion, containing an electric arc reactor, including a base, a cover, a fuel oil supply connection, a sweet fuel oil outlet, an overflow connection, and a gas outlet connection. Fixed electrodes are fixed on the cover, connected to a current source, between which fixed intermediate electrodes are installed, not connected to a current source, and an insulating grid with movable electrodes placed on it is installed on the base. The movable electrodes are made in the form of graphite balls, and the fixed electrodes are located vertically, at a distance from the insulating grid, with the possibility of free-weighted movement of the graphite balls in the entire volume of fuel oil. The current source is made in the form of an electric current converter having leads with positive and negative potential, and the stationary electrodes are divided into two groups, one of which is connected to the lead with a positive potential, and the other - to the lead with negative potential. In this case, the fuel oil supply connection is connected to the pressure tank by a fuel oil supply line and a bypass line with a pump, and the gas outlet connection is connected to series-connected cooling, primary and secondary gas purification units. In addition, the outlet for sweet fuel oil, the overflow connection, and the gas outlet are connected to the drain tank (US Pat. RU No. 107152, class C10G 15/00, 2011).

The disadvantage of the device selected as a prototype is the increased wear of fixed electrodes as a result of electron diffusion of the metal from which they are made and the destruction of graphite movable electrodes due to their fragility, which significantly reduces the reliability of the reactor. Another disadvantage is the low efficiency of fuel oil desulfurization due to the operation of the reactor in a narrow range of physical and chemical properties of raw materials: chemical composition, density and viscosity, as well as due to the implementation of movable electrodes in the form of graphite balls, the destruction of which leads to an increase in the ash content of the desulfurized fuel oil by compared with the original fuel oil.

The technical result of the utility model is to increase the efficiency of the reactor in the desulfurization of fuel oil.

The specified technical result is achieved by the fact that in the reactor for desulfurizing fuel oil, including a vertical body, a lid, a pipeline with a fuel oil supply pipe, outlet pipes for desulfurized fuel oil and gas, stationary electrodes are fixed on the lid, connected to an electric current converter, between which fixed intermediate electrodes are installed not connected to the electric current converter, while the stationary electrodes are located above the layer of movable electrodes, at a distance sufficient for free-weighted movement of the movable electrodes, and the stationary electrodes connected to the electric current converter are divided into two groups, one of which is connected to the output of the converter with a positive potential, and the other - to the output of the converter with a negative potential, in addition, the movable electrodes are located on the lower insulating perforated grid, the hole sizes of which are sufficient for the passage of fuel oil, but less the size of the movable electrodes, in addition, the gas outlet branch pipe is connected to a series-connected refrigerator, adsorber and gas meter, and the sweetened fuel oil outlet branch pipe is connected to the drain tank, unlike the prototype, the fixed electrodes are made of dissimilar steels, and the movable electrodes are in the form of ceramic balls, with a conductor with an active catalyst applied to their surface, while the electric current converter is equipped with adjustable current and voltage transformers, and the fuel oil supply pipeline is equipped with a gear pump with a variable frequency drive (VFD), in addition, the reactor is equipped with an upper perforated grating and a signaling device upper limit level.

FIG. 1 shows a general view of the reactor for desulfurization of fuel oil.

FIG. 2 shows an electrical diagram for connecting fixed electrodes to an electric current converter.

FIG. 3 shows a lid of a fixed electrode reactor along line A in FIG. 1.

FIG. 4 shows an insulating perforated grid, according to section b-b, shown in FIG. 1.

The reactor for desulfurization of fuel oil contains a vertical body 1 with a cover 2, which contains movable electrodes 3, fixed electrodes 4-6, upper and lower insulating perforated grids 7, 8, an upper limit level indicator 9, pipeline 10 with a fuel oil supply pipe 11, and also branch pipes of the output of the sweet fuel oil 12 and gas 13. The movable electrodes 3 are made in the form of ceramic balls, with a conductor with an active catalyst applied to their surface. Fixed electrodes 4-6 are made of dissimilar steels and are installed in such a way that the upper ends are fixed in the cover 2, and the lower ends are above the layer of movable electrodes 3, at a distance sufficient for the free-weighted movement of the movable electrodes 3 when the fuel oil passes. Moreover, the stationary electrodes 5, 6 are electrically connected to the electric current converter 14, so that the electrodes 5 are connected to the output of the converter with a positive potential, and the electrodes 6 to the output of the converter with a negative potential. In this case, the electric current converter 14 is equipped with adjustable current and voltage transformers. The dimensions of the holes of the perforated grids 7, 8 are sufficient for the passage of fuel oil, but less than the size of the movable electrodes 3. The fuel oil supply pipeline 10 is equipped with a gear pump 15 with VFD. In addition, the gas outlet 13 is connected to a series-connected refrigerator 16, an adsorber 17 and a gas meter 18, and the desulfurized fuel oil outlet 12 is connected to a drain tank 19.

The reactor operates as follows.

The fuel oil, preheated to 85-90 ° C, enters the reactor through the fuel oil supply pipeline 10 through the branch pipe 11. With the help of the VFD of the gear pump 15 and the signaling device of the upper limit level 9, the flow rate and level (time) of fuel oil processing in the reactor are regulated. In the reactor, fuel oil desulfurization occurs in an electric arc caused by the oscillatory movements of the movable electrodes 3 between the fixed electrodes 4-6. In an electric arc microdischarge, under the influence of high temperatures, reaching 1500 ° C in a spark, selective destruction of sulfur compounds and sulfur occurs, followed by a transition from a liquid to a vapor-gas state for removal from the reactor. In the reactor, sulfurous fuels are desulfurized in the interelectrode gap in the electric arc discharge of the movable electrodes 3. As a result of the stabilization of the flow by adjusting the fuel oil consumption and the level of current and voltage, the micro-discharges stabilize and increase in volume, since at the same time there are many centers of parallel and cross micro-arcs in the gaps between adjacent electrodes. Moreover, the density of electrical discharges in the volume of fuel oil increases due to the formation of a multitude of electric arcs not only near the lower ends of the fixed electrodes 5, 6, but also during their contact along the entire working length with movable electrodes 3 suspended in the liquid phase. A significant part of the movable electrodes 3 is constantly is in a suspended state under the action of an upward flow of fuel oil entering the reactor from below through an insulating perforated grating 8. The upper perforated grating 7 prevents the carry-over of movable electrodes 3 into the outlet pipes of sweet fuel oil 12 and gas 13, and the lower perforated grating 8 excludes the penetration of movable electrodes 3 into fuel oil supply pipe 11 when the reactor is shut down.

Intermediate contacting stationary electrodes 4 provide a uniform distribution of electric arcs along the contours in the spark gaps of stationary electrodes 5, 6. In addition, the presence of stationary intermediate unconnected electrodes 4, between the opposing main stationary electrodes 5, 6 increases the frequency of contact with moving electrodes 3, which makes it possible to increase reliability of discrete discharge in the system.

When fuel oil passes through the reactor, it is divided into two parts - liquid and gaseous. The liquid part is desulfurized fuel oil, which is directed through the desulfurized fuel oil outlet 12 to the drain tank 19. The gaseous part is the reaction part of sulfur compounds, due to low density it accumulates in the upper part of the housing 1 under the cover 2, and then through the nozzle 13 is removed from reactor and is sent to the refrigerator 16 to cool the gas, then it is cleaned in the adsorber 17 and, after determining the volume of gas in the counter 18, goes for utilization.

Adjustable transformers of the converter 14 are used to select the optimal level of current and voltage in order to obtain desulfurized fuel oil with predicted quality indicators. The magnitude of the value of the current and voltage depends on the physicochemical properties of fuel oil, and is also controlled by the quality of the desulfurized fuel oil at the output by laboratory methods.

The proposed reactor is characterized by increased operating efficiency.

Claims (1)

Reactor for desulfurizing fuel oil, including a vertical body, a lid, a pipeline with a fuel oil supply pipe, pipes for removing sweetened fuel oil and gas, fixed electrodes connected to an electric current converter are fixed on the lid, between which fixed intermediate electrodes are installed that are not connected to an electric current converter, in this case, the stationary electrodes are located above the layer of movable electrodes, at a distance sufficient for the free-weighted movement of the movable electrodes when the fuel oil passes, and the stationary electrodes connected to the electric current converter are divided into two groups, one of which is connected to the output of the converter with a positive potential, and the other - to the output of the converter with a negative potential, in addition, the movable electrodes are located on the lower insulating perforated grid, the hole sizes of which are sufficient for the passage of fuel oil, but less than the size of the movable electrodes, to In addition, the gas outlet branch pipe is connected to a series-connected refrigerator, an adsorber and a gas meter, and the sweetened fuel oil outlet branch pipe is connected to a drain tank, characterized in that the stationary electrodes are made of dissimilar steels, and the movable electrodes are in the form of ceramic balls, with the surface of the conductor with an active catalyst, while the electric current converter is equipped with adjustable current and voltage transformers, and the fuel oil supply pipeline is equipped with a gear pump with a variable frequency drive, in addition, the reactor is equipped with an upper perforated grid and an upper limit level indicator.

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