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Various methods and apparatus are disclosed that relate to one or more aspects of an abatement system that removes heat and/or one or more byproducts of combustion from a gas flow. In various aspects a misting array assembly is provided that includes at least one nozzle tubing having at least one no

Various methods and apparatus are disclosed that relate to one or more aspects of an abatement system that removes heat and/or one or more byproducts of combustion from a gas flow. In various aspects a misting array assembly is provided that includes at least one nozzle tubing having at least one nozzle coupled thereto.

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1. A misting array assembly disposed across an abatement chamber of an abatement system, said abatement chamber having a gas flow extending therethrough, a majority of said gas flow moving in a gas flow direction, said misting array assembly comprising: a sealing piece having a first side and a seco

1. A misting array assembly disposed across an abatement chamber of an abatement system, said abatement chamber having a gas flow extending therethrough, a majority of said gas flow moving in a gas flow direction, said misting array assembly comprising: a sealing piece having a first side and a second side opposite said first side;a frame structure coupled to said sealing piece and provided on said second side of said sealing piece;a first nozzle tubing extending through said sealing piece, said first nozzle tubing having a first nozzle tubing axis extending substantially perpendicular to the direction of said gas flow, said first nozzle tubing having a first liquid source coupling and a plurality of first tubing nozzles; wherein said first liquid source coupling is on said first side of said sealing piece and said first tubing nozzles are on said second side of said sealing piece;a second nozzle tubing extending through said sealing piece, said second nozzle tubing having a second nozzle tubing axis extending substantially perpendicular to the direction of said gas flow, said second nozzle tubing having a second liquid source coupling and a plurality of second tubing nozzles; wherein said second liquid source coupling is on said first side of said sealing piece and said second tubing nozzles are on said second side of said sealing piece; wherein said sealing piece, said frame structure, said first nozzle tubing, and said second nozzle tubing are movable between an inserted position and a removed position;wherein said frame structure includes at least one member slidably engageable with corresponding track structure provided along at least a portion of the inner periphery of said abatement chamber;wherein in said inserted position said first tubing nozzles and said second tubing nozzles are in said abatement chamber; andwherein in said removed position at least some of said first tubing nozzles and at least some of said second tubing nozzles are removed from said abatement chamber. 2. The misting array assembly of claim 1 wherein in said removed position said sealing piece, said frame structure, said first nozzle tubing, and said second nozzle tubing are separated from said abatement system. 3. The misting array assembly of claim 1 wherein at least a portion of said first nozzle tubing is fixedly adjustable about said first nozzle tubing axis to a first position and a second position, whereby adjusting said first nozzle tubing correspondingly adjusts said first tubing nozzles. 4. The misting array assembly of claim 1 wherein a plurality of said first tubing nozzles are provided at a first angular orientation relative to said first nozzle tubing axis and a plurality of said first tubing nozzles are provided at a second angular orientation relative to said first nozzle tubing axis. 5. The misting array assembly of claim 4 wherein said first angular orientation is offset from said second angular orientation from ten to sixty degrees. 6. The misting array assembly of claim 5 wherein said first angular orientation is offset from said second angular orientation from thirty to fifty degrees. 7. The misting array assembly of claim 6 wherein said first angular orientation is offset from said second angular orientation approximately forty degrees. 8. The misting array assembly of claim 1 wherein a portion of the outer periphery of said frame structure generally conforms to a portion of the inner periphery of said abatement chamber. 9. A misting array assembly disposed across an abatement chamber of an abatement system, said abatement chamber having a gas flow extending therethrough, a majority of said gas flow moving in a gas flow direction, said misting array assembly comprising: a sealing piece having a first side and a second side opposite said first side;a frame structure coupled to said sealing piece and provided on said second side of said sealing piece; wherein at least a portion of the outer periphery of said frame structure engages structure within said abatement chamber;a first nozzle tubing coupled to said frame structure and extending through said sealing piece, said first nozzle tubing having a liquid source coupling on said first side of said sealing piece;a plurality of first tubing nozzles producing a nozzle output having a nozzle output central axis, said first tubing nozzles coupled to said first nozzle tubing on said second side of said sealing plate; wherein said sealing piece, said frame structure, and said first nozzle tubing are slideably movable between an inserted position and a removed position;wherein in said inserted position said first tubing nozzles are in said abatement chamber;wherein in said removed position at least some of said first tubing nozzles are removed from said abatement chamber; andwherein said frame structure includes at least one of at least one frame member and at least one frame track structure; said at least one frame member slideably engageable with corresponding track structure provided along at least a portion of the inner periphery of said abatement chamber; andsaid at least one frame track structure slidably engageable with a corresponding member provided along at least a portion of the inner periphery of said abatement chamber. 10. The misting array assembly of claim 9 wherein a plurality of said first tubing nozzles are upwardly disposed first tubing nozzles and a plurality of said first tubing nozzles are downwardly disposed first tubing nozzles. 11. The misting array assembly of claim 10 wherein said nozzle output central axis of each of said upwardly disposed first tubing nozzles is at a ten to thirty degree upward angle with respect to the direction of said gas flow and said nozzle output central axis of each of said downwardly disposed first tubing nozzles is at a ten to thirty degree downward angle with respect to the direction of said gas flow. 12. The misting array assembly of claim 9 wherein at least a portion of said first nozzle tubing is fixedly rotationally adjustable from at least a first position to a second position, whereby adjusting said first nozzle tubing correspondingly adjusts said first tubing nozzles. 13. The misting array assembly of claim 12 wherein said first nozzle tubing is linearly extending. 14. The misting array assembly of claim 9 wherein said at least one frame member includes a side member opposite said sealing piece, an upper member extending between said sealing piece and said side member, and a lower member opposite said upper member and extending between said sealing piece and said side member. 15. A misting array section of an abatement system, said misting array section comprising: an abatement chamber misting section, said abatement chamber misting section having an opposed top and bottom extending between an opposed first side and second side, said top and said bottom each having track structure extending therefrom, said first side having an opening therethrough, said opening extending between said abatement chamber misting section and a shell of said abatement system, said opening in communication with said track structure of said top and said bottom; wherein said abatement chamber misting section has a gas flow extending therethrough, a majority of said gas flow moving in a gas flow direction;a misting array assembly removably received in said abatement chamber misting section, said misting array assembly comprising a sealing piece, a frame structure coupled to said sealing piece, nozzle tubing coupled to said frame structure, and at least one nozzle coupled to said nozzle tubing;said sealing piece having a sealing plate engageable against said shell of said abatement system;said frame structure including an upper frame member and a lower frame member receivable in respective track structure of said top and said bottom;said nozzle tubing extending through said sealing piece. 16. The misting array section of claim 15 further comprising a side track structure extending from said second side, wherein said frame structure further includes a side frame member extending between said upper frame member and said lower frame member and being slideably receivable in said side track structure. 17. The misting array section of claim 16 further comprising a gasket interposed between said sealing plate and said shell of said abatement system. 18. The misting array section of claim 16 wherein a plurality of said nozzle are provided, at least some thereof being upwardly disposed tubing nozzles, wherein said nozzle output central axis of each of said upwardly disposed tubing nozzles is at a five to thirty degree upward angle counter to the direction of said gas flow. 19. The misting array section of claim 16 wherein some of said plurality of said nozzle are downwardly disposed tubing nozzles, wherein said nozzle output central axis of each of said downwardly disposed tubing nozzles is at a five to thirty degree downward angle with the direction of said gas flow.