RU71080U1 - DEVICE FOR PROCESSING FUEL BEFORE ITS SPRAYING AND BURNING (OPTIONS) - Google Patents

Abstract

A group of utility models relates to the field of spraying liquids and can be used in devices for dispersing liquids before burning them. The device according to the first embodiment contains a section of a pipeline intended for passing a stream of fuel oil, inside which a cylindrical electrode is coaxially mounted with the possibility of passing a stream of fuel oil through the gap between this electrode and a section of the pipeline connected to a voltage source. The device according to the second embodiment contains a pipeline section, inside which a partition is installed with a central hole, the diameter of which is D = √4Q / μπ√2gH, where Q is the fuel oil consumption m / s, N is the pressure of the fuel oil in front of the partition, m. Water. column, μ = 0.95, g = 9.81 m / s ² . The technical result consists in reducing the surface tension of fuel oil, and therefore in increasing the dispersion of its droplets during spraying, resulting in fuel savings of 10% or more. 3 ill.

Description

A group of utility models relates to the field of spraying liquids and can be used in devices for dispersing liquids before burning them.

A known method of electropulse spraying a liquid and a device for its implementation, a distinctive feature of which is the creation of an electric spark discharge in a fluid stream, constantly flowing in a direction perpendicular to the axis of the nozzle hole. RU 2108870, publ. 1998) A known device is used for fuel injection in internal combustion engines.

The technical problem solved by the proposed group of utility models is to increase the efficiency of processing fuel oil before spraying and burning it.

Fuel containing electritites (resins and paraffins) can, due to them, become electrified and remain electrified for some time, while an electric charge arises on the surface of a droplet of electrified fuel, and the presence of a charge on the surface of the liquid reduces the surface tension by the liquid-gas interface, which contributes to a better atomization of fuel droplets into smaller ones, and also reduces the boiling point of the fuel.

The problem is solved in that the device for processing fuel oil before it is sprayed and burned contains a section of a pipeline designed to pass a stream of fuel oil, inside which a cylindrical electrode is coaxially mounted with the possibility of passing a stream of fuel oil through the gap between this electrode and a section of the pipeline connected to a voltage source .

The cylindrical electrode can be mounted on an electrically conductive diaphragm mounted between the pipe flanges, electrically isolated from them and having holes in the gap zone between the electrode and the pipe.

The cylindrical electrode can be made in the form of a glass, the bottom of which is formed by an electrically conductive diaphragm.

The problem is also solved by the second version of the device for processing fuel oil before spraying and burning, which contains a section of the pipeline, inside which there is a partition with a central hole, the diameter of which is D = √4Q / μπ√2gH, where Q is the consumption of fuel oil m ³ / s, N - fuel oil pressure in front of the partition, m. Water. column, μ = 0.95 - flow coefficient, g = 9.81 m / s ² .

The partition can be made in the form of a washer mounted between the flanges of the pipeline.

The technical result consists in reducing the surface tension of fuel oil, and therefore in increasing the dispersion of its droplets during spraying, resulting in fuel savings of 10% or more.

The essence of the utility model is illustrated using the drawings.

Figure 1 shows a longitudinal section of the device according to the first embodiment of the utility model, figure 2 shows a view A in figure 1 and view B in figure 2 (view A), figure 3 shows a longitudinal section of the device according to the second embodiment of the utility model .

The device according to the first embodiment contains a section of the pipeline 1, which is the first electrode, inside of which the second electrode is coaxially mounted in the form of a cup 2, mounted on an electrically conductive diaphragm 3, which is installed between the flanges 4 of the pipeline. The diaphragm 3 is electrically isolated from the pipeline by insulators 5 and has holes 6 in the gap between the glass 2 and

pipeline 1. The pipeline 1 and the diaphragm 3 are connected to a source of electrical voltage.

The device according to the second embodiment contains a pipeline section 1, inside which a partition is installed in the form of a washer 7 with a central hole 8. The diameter of the hole is determined by the formula: D = √4Q / μπ√2gH.

For example, with fuel oil consumption Q = 3 tons per day, specific gravity 1000 kg / m ³ and operating pressure N = 3 kg / cm ² ~ 30 m.v. The flow coefficient μ = 0.95, and the acceleration of gravity g = 9.81 m / s ²

Q = 3/24 × 3600 s = 0.0000347 m / s

D = √4 × 0.0000347 / 0.95 × 3.14 × √2 × 9.81 × 30 = 0.00137 = 1.37 mm

The diameter of fuel oil pipelines, even before fuel-burning plants, significantly exceeds the diameter of the hole through which a sufficient supply of fuel oil is possible, therefore, it is possible to form a jet in the volume of relatively stationary fuel by mounting the washer without even increasing the diameter of the pipeline.

The experiments showed that when using both versions of the devices, fuel economy is 10% or more and in some cases reaches 17%.

Claims (5)

1. A device for processing fuel oil before spraying and burning, containing a section of a pipeline designed to pass a stream of fuel oil, inside which a cylindrical electrode is coaxially mounted with the possibility of passing a stream of fuel oil through the gap between this electrode and a section of the pipeline connected to a voltage source. 2. The device according to claim 1, characterized in that the cylindrical electrode is mounted on an electrically conductive diaphragm mounted between the pipe flanges, electrically isolated from them and having holes in the gap zone between the electrode and the pipe. 3. The device according to claim 2, characterized in that the cylindrical electrode is made in the form of a glass, the bottom of which is formed by the specified conductive diaphragm. 4. A device for processing fuel oil before spraying and burning, containing a section of the pipeline, inside which a partition is installed with a central hole, the diameter of which

where Q is the consumption of fuel oil m ³ / s, N is the pressure of fuel oil in front of the partition, m. water column, μ = 0.95 is the flow coefficient, g = 9.81 m / s ² . 5. The device according to claim 4, characterized in that the partition is made in the form of a washer mounted between the flanges of the pipeline.