Methods and apparatus for materials processing
First Claim
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1. A method for processing materials, comprising:
- passing materials to be processed in a flow path through a passage between two closely spaced surfaces and wherein said two closely spaced surfaces are smooth and at least one of said surfaces moves relative to the other;
wherein the materials form material boundary layers against both the surfaces;
wherein the spacing between the two surfaces is equal to or less than the back-to-back thicknesses of the two boundary layers; and
wherein the surfaces are such that formation of Taylor vortices in the processing passage is inhibited.
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Abstract
Methods and apparatus for processing materials employ two cylindrical members, one mounted within the other, defining an annular processing chamber. Preferably, the outer member is stationery (stator), while the inner rotates (rotor). The radial spacing between the stator inner surface and the rotor outer surface is equal to or less than the back-to-back radial thicknesses of the two laminar boundary layers formed on the two surfaces by the material being processed. The surfaces are made smooth, as by buffing to a finish of not more than 10 microinches. This structure inhibits formation of Taylor vortices in the processing passage, which cause unstable flow and consequent incomplete mixing. Preferably, the relative velocity between rotor and stator surfaces is at least 1.2 meters per second. The surfaces may be coated with catalysts. Transducers may be provided to apply processing energy, such as microwave, light or ultrasonic waves, through the stator wall.
171 Citations
22 Claims
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1. A method for processing materials, comprising:
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passing materials to be processed in a flow path through a passage between two closely spaced surfaces and wherein said two closely spaced surfaces are smooth and at least one of said surfaces moves relative to the other;
wherein the materials form material boundary layers against both the surfaces;
wherein the spacing between the two surfaces is equal to or less than the back-to-back thicknesses of the two boundary layers; and
wherein the surfaces are such that formation of Taylor vortices in the processing passage is inhibited. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
members rotate relative to one another about respective longitudinal axes that are coaxial with one another so that the radial spacing of the two surfaces is constant circumferentially thereof. -
4. A method as claimed in claim 2, wherein the apparatus members are moved so as to produce a linear velocity between their operative surfaces relative to one another of at least 1.2 meter per second.
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5. A method as claimed in claim 2, further comprising applying processing energy to the processing passage through the wall of the outer of the two members.
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6. A method as claimed in claim 5, wherein the energy applied to the processing passage is any one of electromagnetic energy of microwave frequency, light, X-rays, gamma radiation and ultrasonic longitudinal vibrations.
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7. A method as claimed in claim 1, wherein the smoothness of the surfaces is 10 microinches or less.
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8. A method as claimed in claim 7, wherein the smoothness of the surfaces is 5 microinches or less.
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9. A method as claimed in claim 1, wherein one or both of the surfaces is coated with catalytic material that enhances at least one of chemical, bio-chemical and biocidal reactions in the processing passage.
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10. A method as claimed in claim 1, wherein spacing between the two closely spaced surfaces inhibits eddy and vortex formation.
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11. The method as claimed in claim 1, wherein said two closely spaced surfaces are substantially congruent.
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12. An apparatus for processing materials comprising:
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two closely spaced surfaces providing a processing passage constituting a flow path for the materiel and wherein said two closely spaced surfaces are smooth and at least one of said surfaces moves relative to the other;
wherein the spacing between the two surfaces is equal to or less than the back-to-back thicknesses of laminar boundary layers of the material against the two surfaces that is to pass through the processing passage; and
wherein the surfaces are such that formation of Taylor vortices in the processing passage is inhibited. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
members are mounted to rotate relative to one another about respective longitudinal axes that are coaxial so that the radial spacing of the two surfaces is constant circumferentially thereof. -
15. An apparatus as claimed in claim 13, wherein the apparatus members are moved so as to produce a linear velocity between their operative surfaces relative to one another of at least 1.2 meter per second.
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16. An apparatus as claimed in claim 13, wherein the apparatus members are coaxially mounted and at least one rotates relative to the other.
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17. An apparatus as claimed in claim 12, wherein the smoothness of the surfaces is 10 microinches or less.
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18. An apparatus as claimed in claim 12, wherein the smoothnesses of the surfaces are 5 microinches or less.
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19. An apparatus as claimed in claim 12, further comprising means for applying processing energy to the processing passage through the wall of the outer of the two members.
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20. An apparatus as claimed in claim 19 wherein the energy applied to the processing passage is any one of electromagnetic energy of microwave frequency, light, X-rays, gamma radiation and ultrasonic longitudinal vibrations.
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21. An apparatus as claimed in claim 12, wherein agitation induced by said movement inhibits eddy and/or vortex formation and promotes uniform mixing.
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22. The apparatus as claimed in claim 12 wherein said two closely spaced surfaces are substantially congruent.
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Specification
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Current AssigneeThe 323 Trust
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Original AssigneeHoll Technologies Company
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InventorsHoll, Richard A.
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Primary Examiner(s)SOOHOO, TONY GLEN
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Application NumberUS10/264,217Publication NumberTime in Patent Office628 DaysField of Search366/279, 366/315, 366/342, 366/343, 366/348, 366/349, 366/165.1, 366/DIG.1, 366/DIG.2, 366/DIG.3, 366/DIG.4, 241/1US Class Current366/279CPC Class CodesB01F 27/74 with rotary cylindersB01F 33/8362 with chemical reactionsB01F 35/4122 at the side walls of the re...B01F 35/512 characterised by surface pr...B01F 35/54 Closely surrounding the rot...B01F 35/90 Heating or cooling systemsB01J 19/10 employing sonic or ultrason...B01J 19/122 Incoherent waves gamma-radi...B01J 19/125 X-raysB01J 19/126 MicrowavesB01J 19/127 Sunlight; Visible lightB01J 19/1887 forming a thin filmB01J 2219/00094 JacketsB01J 2219/0888 Liquid-liquidB01J 2219/182 horizontalB01J 2219/1943 cylindricalF28D 11/02 the movement being rotary, ...F28D 7/0066 Multi-circuit heat-exchange...F28F 13/02 by influencing fluid bounda...
