Claims
- 1. A continuous dynamic mixing assembly, comprising:
- a generally horizontally extending mixing chamber having an inner wall which is generally symmetrical about a central axis;
- at least one first fluid inlet for introducing first fluid material into said mixing chamber;
- at least one second fluid inlet constructed and arranged for introducing second, gaseous fluid material into said mixing chamber;
- at least one outlet for discharging a mixture of said first fluid material and said second fluid material from the mixing chamber;
- first baffles extending along the inner wall generally parallel to said axis for disrupting generally circumferential fluid flow in said mixing chamber;
- second baffles extending from the inner wall generally transverse to said axis for disrupting generally axial fluid flow; and
- a rotatable agitator comprising a cylindrical central portion extending in said mixing chamber along said axis and at least one blade that extends from said central portion, the central portion being impervious to fluid flow;
- wherein a relative construction and arrangement among said first baffles, said second baffles and said agitator enable residence time of fluid in said reactor to be selectively adjusted.
- 2. The mixing assembly according to claim 1 wherein said chamber is generally cylindrical.
- 3. The mixing assembly according to claim 1 wherein said at least one first fluid inlet is constructed and arranged to introduce liquid material into said mixing chamber.
- 4. The mixing assembly according to claim 1 comprising plate assemblies each disposed at a location of said at least one second fluid inlet adjacent the mixing chamber wall having one of a Particular porosity and sized openings effective to admit said second fluid material into said mixing chamber at a selected flow rate.
- 5. The mixing assembly according to claim 1 wherein said at least one blade has a pitch such that there is a generally constant gap between an edge of said at least one blade and edges of said first baffles along an entire length of said at least one blade.
- 6. The mixing assembly according to claim 1 wherein said second baffles partition said mixing chamber into at least two axial segments.
- 7. The mixing assembly according to claim 1 wherein a generally annular space is located radially between said at least one blade and said first baffles and said space has a size selected to produce a particular residence time of liquid material in said mixing chamber.
- 8. The mixing assembly according to claim 7 wherein said mixing chamber is generally cylindrical and said space ranges from about 0.01 to about 0.1 times an inside diameter of said mixing chamber.
- 9. The mixing assembly according to claim 7 wherein said mixing chamber is generally cylindrical and said space ranges from about 0.03 to about 0.11 times an inside diameter of said mixing chamber.
- 10. The mixing assembly according to claim 7 wherein said mixing chamber is generally cylindrical, said space being selected to range from about 0.01 to about 0.1times an inside diameter of said mixing chamber, and a ratio of a height of each of said first baffles to an inside diameter of said mixing chamber ranging from about 0.20 to about 0.40.
- 11. The mixing assembly according to claim 1 wherein a ratio of a height of each of said first baffles to an inside diameter of said mixing chamber ranges from about 0.001 to about 0.40.
- 12. The mixing assembly according to claim 1 wherein a ratio of a height of each of said first baffles to an inside diameter of said mixing chamber ranges from about 0.01 to about 0.20.
- 13. The mixing assembly according to claim 1 comprising a variable speed drive that is connected to said agitator and can rotate said agitator in clockwise and counterclockwise directions.
- 14. A continuous dynamic mixing assembly, comprising:
- a mixing chamber having an inner wall which is generally symmetrical about a central axis;
- at least one first fluid inlet for introducing first fluid material into said mixing chamber;
- at least one second fluid inlet for introducing second fluid material into said mixing chamber;
- at least one outlet for discharging a mixture of said first fluid material and said second fluid material from the mixing chamber;
- first baffles extending along the inner wall generally parallel to said axis for disrupting generally circumferential fluid flow in said mixing chamber;
- second baffles extending from the inner wall generally transverse to said axis for disrupting generally axial fluid flow in said mixing chamber; and
- a rotatable agitator comprising a cylindrical central portion extending in said mixing chamber along said axis and at least one blade that extends along an arc of said central portion;
- wherein said second baffles partition said mixing chamber into at least two axial segments and the first baffles in one of said segments are circumferentially offset from the first baffles in an adjacent one of said segments as viewed in a direction of said axis, and
- wherein a relative construction and arrangement among said first baffles, said second baffles and said agitator enable residence time of fluid in said reactor to be selectively adjusted.
- 15. A continuous dynamic mixing assembly, comprising:
- a generally horizontally extending mixing chamber having an inner wall which is generally cylindrical and symmetrical about a central axis;
- at least one first fluid inlet for introducing first fluid material into said mixing chamber;
- second fluid inlets disposed at a plurality of locations around said mixing chamber for introducing second fluid material into said mixing chamber;
- at least one outlet for discharging a mixture of said first fluid material and said second fluid material from the mixing chamber;
- first baffles extending along the inner wall generally parallel to said axis for disrupting generally circumferential fluid flow in said mixing chamber;
- second baffles extending from the inner wall generally transverse to said axis for disrupting generally axial fluid flow in said mixing chamber, wherein said second baffles are constructed and arranged to segment the mixing chamber axially;
- plate assemblies each disposed at a location of said second fluid inlet adjacent the mixing chamber wall having one of a particular porosity and sized openings effective to admit said second fluid material into said mixing chamber at a selected flow rate; and
- a rotatable agitator comprising a central cylindrical hub portion extending in said mixing chamber along said axis and at least one blade that extends along an arc of said hub portion;
- wherein a relative construction and arrangement among said first baffles, said second baffles and said agitator enable residence time of fluid in said reactor to be selectively adjusted.
- 16. The mixing assembly according to claim 15 wherein a generally annular space is located radially between said at least one blade and said first baffles and said space is selected to produce a particular residence time of liquid material in said mixing chamber.
- 17. A continuous dynamic mixing assembly, comprising:
- a generally horizontally extending mixing chamber having an inner wall which is generally cylindrical and symmetrical about a central axis, a liquid inlet for introducing liquid material into said mixing chamber, and an outlet for discharging mixed substances from said mixing chamber;
- flow means disposed adjacent the mixing chamber wall for admitting a gaseous substance into said mixing chamber at a selected flow rate;
- at least one gas port for introducing the gaseous substance into said mixing chamber through each of said flow means;
- first baffles extending axially along the inner wall of said mixing chamber for disrupting generally circumferential fluid flow in said mixing chamber;
- second baffles extending inwardly from said inner wall generally transverse to said axis for disrupting generally axial fluid flow in said mixing chamber, said second baffles partitioning said mixing chamber into at least two distinct axial segments;
- a rotatable agitator comprising a cylindrical hub portion extending in said mixing chamber along said axis and blades that extend along arcs of said hub portion, each said blade having a pitch such that a generally constant gap is maintained between an edge of each said blade and edges of said first baffles along an entire length of said blade, wherein a generally annular space is located radially between said blades and said first baffles and a size of said space is selected to produce a particular residence time of liquid material in said mixing chamber; and
- a variable speed drive mechanism that is connected to said agitator and can rotate said agitator in clockwise and counterclockwise directions;
- wherein a relative construction and arrangement among said first baffles, said second baffles and said agitator enable residence time of fluid in said reactor to be selectively adjusted.
- 18. The mixing apparatus according to claim 17 comprising means for pressurizing the liquid material.
- 19. The mixing apparatus according to claim 17 wherein said agitator can produce substantially superatmospheric pressure in said mixing chamber.
- 20. A method of mixing a first fluid material and a second fluid material, comprising:
- directing the first fluid material into a generally horizontally extending mixing chamber having an inner wall which is generally symmetrical about a central axis;
- directing the second fluid material into said mixing chamber;
- rotating an agitator that comprises a cylindrical central portion extending in said mixing chamber along said axis and at least one blade extending from said central portion, the central portion being impervious to fluid flow;
- disrupting generally circumferential fluid flow in said mixing chamber with first baffles that extend from the inner wall generally along said axis;
- disrupting generally axial fluid flow with second baffles that extend from the inner wall generally transverse to said axis; and
- selectively adjusting residence time of fluid in said reactor based upon a relative construction and arrangement among said first baffles, said second baffles and said agitator.
- 21. The method according to claim 20 comprising adjusting a residence time of liquid material in said mixing chamber by selecting a size of an annular space located radially between said at least one blade and said first baffles.
- 22. The method according to claim 20 wherein said mixing chamber includes liquid material from at least one of said first fluid material and said second fluid material, comprising increasing a residence time of said liquid material in said mixing chamber by rotating said agitator in a direction to retard flow of said liquid material.
- 23. The method according to claim 20 wherein said first fluid material comprises a liquor used in the pulping of wood to make paper.
- 24. The method according to claim 23 wherein said first fluid material is white liquor.
- 25. The method according to claim 20 wherein said second fluid material comprises an oxygen-containing gas.
- 26. The method according to claim 20 comprising decreasing mixing power consumption based upon a relative construction and arrangement among said first baffles, said second baffles and said agitator.
- 27. The method according to claim 20 wherein said first fluid material is black liquor.
- 28. The method according to claim 20 wherein said first fluid material is green liquor.
- 29. The method according to claim 20 wherein said first fluid material comprises oxidizable compounds.
- 30. The method according to claim 20 comprising continuously conveying said first fluid material into said mixing chamber.
- 31. The method according to claim 20 comprising passing a mixture of said first fluid material and said second fluid material from said mixing chamber to a separator tank and pressurizing said mixing chamber using a pressure control valve in communication with said separator tank.
- 32. A continuous dynamic mixing assembly, comprising:
- a generally horizontally extending mixing chamber having an inner wall which is generally symmetrical about a central axis;
- at least one first fluid inlet for introducing first fluid material into said mixing chamber;
- at least one second fluid inlet for introducing second fluid material into said mixing chamber;
- at least one outlet for discharging a mixture of said first fluid material and said second fluid material from the mixing chamber;
- first baffles extending along the inner wall generally along said axis for disrupting generally circumferential fluid flow in the mixing chamber;
- second baffles extending from the inner wall generally transverse to said axis for disrupting generally axial fluid flow in the mixing chamber, said second baffles extending between said first baffles; and
- a rotatable agitator comprising a central portion extending in said mixing chamber along said axis and multiple blades extending outwardly from said central portion, wherein each of said blades extends along a different axial portion of said central portion than an adjacent one of said blades;
- wherein said second baffles are disposed so that a portion of at least one of said second baffles is aligned transverse to said axis with a region that extends along said axis containing an axially terminal end of a first of said blades, and said second baffles partition said mixing chamber into at least two axial segments,
- wherein said first blade extends so as to be confined along said axis by said one second baffle in a first of said segments and a second of said blades that is adjacent said first blade extends so as to be axially confined by said one second baffle in a second of said segments that is adjacent said first segment.
- 33. The mixing assembly according to claim 32 wherein said central portion of said agitator is cylindrical and said blades extend along arcs of said central portion.
- 34. The mixing assembly according to claim 32 wherein said mixing chamber is generally cylindrical and a generally annular space is located radially between said blades and said first baffles, said space being selected to range from about 0.01 to about 0.1 times an inside diameter of said mixing chamber, and a ratio of a height of each of said first baffles to an inside diameter of said mixing chamber ranging from about 0.02 to about 0.40.
- 35. The mixing assembly according to claim 32 comprising a plurality of porous plate assemblies each disposed at a location of said at least one second fluid inlet adjacent the mixing chamber wall, said porous plate assemblies having one of a particular porosity and sized openings effective to admit said second fluid into said mixing chamber at a selected flow rate.
- 36. The mixing assembly according to claim 32 wherein the first baffles in one of said segments are circumferentially offset from the first baffles in an adjacent one of said segments as viewed in a direction of said axis.
- 37. The mixing assembly according to claim 32 wherein said first baffles and said second baffles extend inwardly from said inner wall of said mixing chamber transverse to said axis, said first baffles extending inwardly a greater distance than said second baffles.
- 38. The mixing assembly according to claim 37 wherein said second baffles have an annular shape and extend along said inner wall of said mixing chamber for the entire circumference of said mixing chamber.
- 39. The mixing assembly of claim 32 wherein said region is contiguous with an axially terminal end of said second blade.
- 40. A system for mixing fluid materials comprising:
- (a) a continuous dynamic mining assembly comprising:
- a generally horizontally extending mixing chamber having an inner wall which is generally symmetrical about a central axis;
- at least one first fluid inlet for introducing first fluid material into said mixing chamber;
- at least one second fluid inlet constructed and arranged for introducing second, gaseous fluid material into said mixing chamber;
- at least one outlet for discharging mixture of said first fluid material and said second fluid material from said mixing chamber;
- first baffles extending along the inner wall generally parallel to said axis for disrupting generally circumferential fluid flow in said mixing chamber;
- second baffles extending from the inner wall generally transverse to said axis for disrupting generally axial fluid flow; and
- a rotatable agitator comprising a central portion extending in said mixing chamber along said axis and at least one blade that extends from said central portion, the central portion being impervious to fluid flow;
- wherein a relative construction and arrangement among said first baffles, said second baffles and said agitator enable residence time of fluid in said reactor to be selectively adjusted;
- (b) a separator tank for receiving said mixture that is discharged from said mixing chamber; and
- (c) a pressure control valve in communication with gas from said separator tank for pressurizing said mixing chamber.
- 41. A continuous dynamic mixing assembly comprising:
- a generally horizontally extending mixing chamber having an inner wall which is generally symmetrical about a central axis;
- at least one first fluid inlet for introducing first fluid material into said mixing chamber;
- at least one second fluid inlet constructed and arranged for introducing second, gaseous fluid material into said mixing chamber;
- at least one outlet for discharging a mixture of said first fluid material and said second fluid material from said mixing chamber;
- first baffles extending along the inner wall generally parallel to said axis for disrupting generally circumferential fluid flow in said mixing chamber;
- second baffles extending from the inner wall generally transverse to said axis for disrupting generally axial fluid flow; and
- a rotatable agitator comprising a central portion extending in said mixing chamber along said axis and at least one blade that extends from said central portion, the central portion being imperious to fluid flow;
- wherein a relative construction and arrangement among said first baffles, said second baffles and said agitator enable residence time of fluid in said reactor to be selectively adjusted.
- 42. A system for mixing fluid materials comprising:
- (a) a continuous dynamic mixing assembly comprising:
- a generally horizontally extending mixing chamber having an inner wall which is generally symmetrical about a central axis;
- at least one first fluid inlet for introducing first fluid material into said mixing chamber;
- at least one second fluid inlet constructed and arranged for introducing second, gaseous fluid material into said mixing chamber;
- at least one outlet for discharging a mixture of said first fluid material and said second fluid material from said mixing chamber;
- first baffles extending along the inner wall generally parallel to said axis for disrupting generally circumferential fluid flow in said mixing chamber;
- second baffles extending from the inner wall generally transverse to said axis for disrupting generally axial fluid flow; and
- a rotatable agitator comprising a central portion extending in said mixing chamber along said axis and at least one blade that extends from said central portion, the central portion being impervious to fluid flow;
- wherein a relative construction and arrangement among said first baffles, said second baffles and said agitator enable residence time of fluid in said reactor to be selectively adjusted; and
- (b) means for removing gas from said mixture.
CROSS-REFERENCE TO RELATED APPLICATION
This patent application is a continuation-in-part of patent application Ser. No. 08/893,601, entitled, "Method of Oxidizing White and Black Liquor," filed Jul. 14, 1997.
US Referenced Citations (38)
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
893601 |
Jul 1997 |
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