A burner with a plurality of oxidant gas pipes distributed throughout the cross section of the burner and process gas in plug flow provides even mixing of the oxidant and the process gas.
대표청구항▼
1. Burner for a catalytic reactor comprising: an oxidant gas inlet aligned along a flow axis and having a discharge end,at least one perforated plate orthogonally arranged to said flow axis,a plurality of oxidant gas pipes having first ends arranged upstream of said plate and second ends comprising
1. Burner for a catalytic reactor comprising: an oxidant gas inlet aligned along a flow axis and having a discharge end,at least one perforated plate orthogonally arranged to said flow axis,a plurality of oxidant gas pipes having first ends arranged upstream of said plate and second ends comprising oxidant nozzles arranged downstream of said plate, and said plurality pipes have a length that extends from said first ends to said second ends, each of said oxidant gas pipes having a single feed inlet, said first ends of the oxidant gas pipes being connected to said discharge end of the oxidant gas inlet,a process gas inlet arranged to introduce process gas orthogonal to said flow axis and upstream of said plate, wherein the plurality of oxidant pipes are spaced from one another along the length of said plurality of pipes extending between said first ends and said oxidant nozzles such that orthogonal spacing between adjacent pipes increases along said length from said first ends towards said nozzles to ensure that the process gas flows between and external to the pipes before mixing with the oxidant gas, each pipe having a length that is at least five times an inner diameter of the pipe. 2. Burner according to claim 1, wherein each oxidant nozzle has a non-circular outlet opening cross-section. 3. Burner according to claim 2, wherein said non-circular outlet opening cross section is oval. 4. Burner according to claim 2, wherein said oxidant nozzle non-circular outlet opening cross sections are achieved by pressing the outlet of the pipes from at least two opposing sides until a plastic deformation of said pipes is achieved. 5. Burner according to claim 1, wherein the orientation of each pipe and corresponding oxidant nozzle define an oxidant gas outlet direction and wherein the outlet direction of at least two oxidant nozzles are not parallel. 6. Burner according to claim 1, comprising two of said perforated plates, each having a diameter, located between the process gas inlet and the oxidant nozzles outlet openings, thereby balancing the process gas flow across the cross section of the burner to form a plug flow but minimizing the pressure loss caused by the perforated plates. 7. Burner according to claim 6, wherein the distance between the two perforated plates is at least one quarter of the diameter of the perforated plate located closest to the process gas inlet. 8. Burner according to claim 1, wherein the oxidant gas pipes are arranged so the flow direction in the oxidant gas pipes are non-parallel at an angle less than 45° C. to the flow direction in the oxidant gas inlet. 9. Burner according to claim 1, wherein the number of oxidant gas pipes is three or greater. 10. Burner according to claim 1, wherein the at least one perforated plate has perforations which are evenly distributed over the cross sectional area of said perforated plate, thereby providing a balanced pressure drop over said cross sectional area. 11. A method for burning a process gas in a catalytic reactor comprising the steps of: providing a first stream comprising oxidant to an oxidant gas inlet of a burner installed in the catalytic reactor,providing a second stream comprising process gas to a process gas inlet arranged orthogonal to an axis of the burner,flowing the first stream from the oxidant gas inlet, through a plurality of oxidant gas pipes connected to the oxidant gas inlet at their upstream end and through an oxidant nozzle with non-circular outlet opening cross-section, arranged at the downstream end of each pipe,flowing the second stream from the process gas inlet, between and external to the pipes from the upstream end to the downstream end of the pipes, which pipes are arranged with sufficient and increasing spacing between the upstream end of the oxidant gas pipes and downstream end of adjacent oxidant gas pipes to ensure that the second stream can flow between the pipes, andmixing the first and the second streams in the zone downstream of the outlet of the oxidant nozzles. 12. A method for burning a process gas in a catalytic reactor according to claim 11 further comprising the intermediate step of flowing the second stream through at least two perforated plates located between the process gas inlet and the oxidant nozzle outlet openings, thereby balancing the second stream flow across the cross section of the burner. 13. Use of a burner according to claim 1 for carrying out catalytic processes in a chemical reactor. 14. Use of a burner according to claim 1 for a secondary reformer in an ammonia plant. 15. Burner for a catalytic reactor, said burner comprising an oxidant gas feed inlet aligned along a flow axis, a plurality of oxidant gas pipes each respectively having first inlet ends connecting the oxidant gas feed inlet to split gas flow from said oxidant gas feed inlet, the first inlet ends arranged to provide a first orthogonal pipe spacing between the plurality of pipes, each pipe having a first portion extending from said first inlet ends, a middle portion and a third portion with a distal nozzle downstream of said first and middle portions, a process gas inlet arranged to introduce process gas orthogonal to said flow axis at said first portion, wherein the plurality of pipes are arranged with sufficient spacing between adjacent pipes along an axis length of the third portion to ensure that the process gas flows between and exterior to the plurality of pipes before mixing with the oxidant gas, the length of each pipe is at least five times the inner diameter of the pipe, and wherein the third portions of said pipes are arranged at a second orthogonal spacing greater than said first orthogonal spacing. 16. Burner for a catalytic reactor, said burner comprising an oxidant gas feed inlet aligned along a flow axis, a plurality of oxidant gas pipes each having a length, each pipe respectively having an upstream end at one end of said length and connected the oxidant gas inlet to split gas flow from said oxidant gas feed inlet and a discharge nozzle for oxidant gas at a distal end of said length, a process gas inlet arranged to introduce process gas orthogonal to said flow axis at said upstream ends, wherein at least some of said plurality of pipes are arranged to be non-parallel with one another along said length from the upstream end to the distal end, such that spacing between said discharge nozzles is greater than spacing between said upstream ends of said plurality of pipes.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (3)
Gauthier Jean-Claude (Marseille FRX) Bury Frederic (Allauch FRX), Liquid or gaseous fuel burner with very low emission of nitrogen oxides.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.