RU95109318A - Method of control and intensification of flame burning - Google Patents

Abstract

FIELD: control and intensification of flame burning. SUBSTANCE: intensification of flame burning is obtained due to treatment of flame by strong longitudinal electric field (2 kV/cm and higher) and revolving strong transverse electric field, for example, by means of three-phase system of electrodes and three-phase high-voltage source. Method also includes measurement of flame height and other parameters, change in inter-electrode distance of application of longitudinal field to flame at simultaneous adjustment of field intensity. Method also provides for rotation of flame by transverse electric field, thus enhancing degree of mixing and crushing of fuel-air mixture and intensifying combustion additionally. Proposed new procedure of atomizing the fuel into combustion zone by longitudinal electric field to molecular level intensifies additionally burning procedure, thus reducing the consumption of fuel. The proposed method makes it possible to control geometry of flame, its temperature and heat conductivity; to effect focusing of flame through change in its geometry and in electrical parameters of above-mentioned fields, which is absolutely necessary for heat treatment of metals and alloys. EFFECT: enhanced controllability and intensification of combustion at improved ecological cleanness; increase of intensity of combustion by 40 to 50 percent; reduction of consumption of oxidizer by 30 to 40 percent; reduction of toxicity of waste gases by 30 to 80 percent (by separate components).

Claims (1)

Existing methods of intensification of the flame combustion process, for example by increasing the consumption of an oxidizing agent, worsen the environmental parameters of combustion (the volume of toxic toxic gases increases, the amount of nitrogen and carbon oxides also increases). It is proposed to intensify the flame combustion process by treating the flame with a strong longitudinal electric field (2 kV / cm and above) and a rotating strong transverse electric field, for example, by means of a three-phase electrode system and a three-phase high-voltage source. The method also includes the operation of measuring the height of the flame and its other parameters, changing the interelectrode distance of the application of the longitudinal field to the flame while adjusting the field strength. The method also allows you to rotate the flame with a transverse electric field, which increases the degree of mixing and crushing of the air-fuel mixture and further intensifies the combustion process. The proposed new operation of electrostatic spraying of fuel into the combustion zone with a longitudinal electric field to the molecular level further intensifies the flame combustion process and reduces fuel consumption. The proposed method also allows you to adjust the geometry of the flame, its temperature and thermal conductivity by changing the geometry and electrical parameters of the mentioned electric fields, for example, focusing the flame, which is very necessary, for example, during heat treatment of metals and alloys. Thus, the proposed method significantly improves controllability and intensifies the combustion process while improving the environmental cleanliness of combustion. The effectiveness of the new method has been experimentally confirmed. The intensity of combustion increases by 40 - 50%; oxidizer consumption reduced by 30 - 40%; exhaust gas toxicity reduced by 30 - 80% (for individual components).