RU2007123738A - METHOD FOR PRODUCING PYROGENIC SILICON DIOXIDE AND BURNER FOR ITS IMPLEMENTATION - Google Patents

Claims (8)

1. A method of producing fumed silicon dioxide, comprising supplying a vapor-gas stream introduced into the reaction space through a multichannel tube burner in such a way that at the outlet of the burner a multilayer stream structure is formed from alternating concentric jets having at least one gaseous or vaporized silicon compound , water forming a combustible gas and oxygen containing gas, and burning said stream in the reaction space to form a flame, characterized in that it is alternated The jets are carried out according to a sequence diagram conventionally designated A-B-B-B-A, in which there is a stream of oxygen-containing gas (stream A) in the center of the stream, covered by a stream of combustible gas (stream B), then an annular vapor-gas stream is preliminarily located a mixed mixture of a silicon compound with an oxygen-containing gas (stream B), then stream B, and stream A at the periphery of the stream; moreover, as an alternative, the alternation of jets is carried out according to the sequence scheme, depending on the number of channels in the burner, conditionally designated as A-B-B-A, or A-B-B-A, or A-B-B, while the ratio of the inner diameter of the annular jet B to its thickness is in the range from 1 to 100, and the linear velocity of the mixture B is from 10 to 70 m / s, calculated at nos 2. The method according to claim 1, characterized in that the oxygen-containing gas is additionally supplied to the reaction space. 3. A multi-channel five-pipe burner having a first (central), second, third, fourth and fifth pipe arranged concentrically, characterized in that oxygen-containing gas is supplied to the central pipe, water forming combustible gas is supplied to the second pipe, and pre-mixed is supplied to the third pipe a mixture of a silicon compound with an oxygen-containing gas, combustible gas is supplied to the fourth pipe, and oxygen-containing gas is supplied to the fifth pipe, while the ratio of the inner diameter of the annular channel formed between Ora and third pipes to the width thereof is in the range from 1 to 100. 4. A multi-channel four-pipe burner having a first (central), second, third and fourth pipe arranged concentrically, characterized in that an oxygen-containing gas is supplied to the central pipe, a combustible gas forming water is supplied to the second or third pipe, while the premixed mixture of the compound silicon with oxygen-containing gas is supplied to the third or second pipe, respectively, and oxygen-containing gas is supplied to the fourth pipe, with the ratio of the inner diameter of the annular channel formed between the second and third pipes or the first and second, respectively, to its width is in the range from 1 to 100. 5. A multi-channel three-pipe burner having a first (central), second and third pipes arranged concentrically, characterized in that an oxygen-containing gas is supplied to the central pipe, a premixed mixture of a silicon compound with an oxygen-containing gas is fed into the second pipe, and a combustible gas forming water is supplied in the third pipe, while the ratio of the inner diameter of the annular channel formed between the first and second pipes to its width is in the range from 1 to 100. 6. A multi-channel burner according to any one of claims 3 to 5, characterized in that a conical or cylindrical conical flow displacer is installed in the central pipe at the outlet along the axis with a gap. 7. A multi-channel burner according to any one of claims 3 to 5, characterized in that the oxygen-containing gas is introduced into the central pipe tangentially. 8. A multi-channel burner according to any one of claims 3 to 5, characterized in that a flow swirl is installed in the central pipe along the axis.