RU2112355C1 - Apparatus for increasing effective capacity of thermal power machine - Google Patents

Abstract

FIELD: agricultural engineering, in particular, equipment for physical treatment of air prior to supplying it to thermal power machine. SUBSTANCE: apparatus has flare discharge ozonizer. Prior to supplying air flow to thermal power machine, it is directed through ozonizer, which serves as electric filter for setting solid particles on ozonizer walls and as device for saturating air with ozone. EFFECT: increased efficiency, simplified construction and provision for improved operation of thermal power machine. 2 dwg

Description

 The invention relates to means of physical processing of air before being fed into a heat engine, for example, when the latter is operated in a greenhouse.

 Known devices for ionization and ozonation of air, the intake of which is carried out in a heat engine, for example, when internal combustion engines are used for aeration of greenhouses and similar processes [1, 2]. The disadvantage of these devices is their low performance.

 Closest to the claimed is a device comprising a housing with a supply pipe and a pipe for exhausting the gas mixture, and in the housing are installed coaxially electrodes connected to a unipolar high voltage source, while the internal electrode has a dielectric coating [3].

 The disadvantage of this device is its low efficiency.

 The purpose of the proposed technical solution is to increase the efficiency of the device.

 This goal is achieved by the fact that the inner electrode is made N-sectional, where N ≥3 and each section has the shape of the faces of an isosceles trapezoid, articulated with its smaller base, installed along the length of the housing, while the sections are mounted on a holder having a sectional view of the correct 2N -gon with gaps between the sections in one direction, and said faces are free from dielectric coating.

 A search conducted in patent and scientific literature showed that the claimed is not known, i.e. it meets the criterion of "novelty."

 Since there is a need for these products and the device is made of known elements, the claimed meets the criterion of "industrial applicability".

 Since, as a result of using this device, a new effect appears - more complete combustion of fuel and reduction of impurities in the exhaust, the claimed one meets the criterion of "inventive step".

 Figure 1 schematically shows a device; figure 2 is a section of figure 1. The device includes a housing 1 with a nozzle for supplying and discharging a gas mixture (not shown), with potential 2 and grounded electrodes installed in the housing coaxially; in a particular case, housing 1 can play its role, but the electrode can be performed independently and is installed inside the housing around the electrode 2.

 Both electrodes are connected to the terminals of a unipolar high voltage source (not shown), and the high-potential electrode 2 can be connected to this source, for example, through a candle 3. The electrode 2 is made in the form of N-sections, each of the sections 4 is an extended figure in the form the sides of the trapezoid connected to its smaller base, while sections 4 are mounted on the holder 5, which is made in the form of a regular 2N-gon. The holder 5 can be made of the corresponding dielectric material and play the role of resistance in the discharge circuit.

 The device operates as follows.

 Air or oxygen-enriched gas mixture flows through the supply pipe into the housing 1. Between the electrode 2 and, for example, the housing 1, i.e. with a grounded electrode, a flare discharge occurs, and the "torches" will be on the tips of sections 4, i.e. in places with a large field gradient. The flare discharge allows not only to obtain ozone from the air, but also plays the role of an electrostatic precipitator, precipitating solid particles in the air onto a grounded electrode, for example, the inside of the housing 1. Further, the ozone-air mixture enters the heat engine through the branch pipe. The use of such a mixture instead of air will increase the efficiency of fuel combustion, reduce the content of harmful impurities in the exhaust gases, which is very important, because, using, for example, exhausts for carbonating greenhouses, we get rid of the harmful effects of nitrogen and sulfur oxides on plants and people.

 The use of such a device can significantly increase the efficiency of the heat engine, simplify air purification when it is fed into the heat engine and reduce the amount of harmful impurities in the exhaust.

 Sources of information.

 1. USSR author's certificate N 1121467, 1984.

 2. Copyright certificate of the USSR N 1341366, 1987.

 3. Copyright certificate of the USSR N 1590607, 1990.

Claims (1)

 A device for increasing the efficiency of a heat engine, including a housing with a supply pipe and a gas mixture discharge pipe, moreover, coaxially mounted electrodes connected to a unipolar high voltage source, characterized in that the internal electrode is N-sectional, where N ≥ 3, and each section has the shape of the faces of an isosceles trapezoid, articulated with its smaller base, and is installed along the length of the body, while the sections are mounted on a holder that has a sectional view of a regular 2N-gon with a gap om between sections in one direction.

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