Device and methodology for improved mixing of liquids and solids
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A62C-031/00
F23D-011/16
F23D-011/10
B05B-007/06
B05B-007/02
출원번호
US-0020891
(2004-12-22)
등록번호
US-7311270
(2007-12-25)
발명자
/ 주소
Kapila,Mukesh
출원인 / 주소
M I L.L.C.
인용정보
피인용 횟수 :
1인용 특허 :
7
초록▼
An eductor for mixing liquids and solid particles includes a nozzle, an initial mixing chamber, a first diffuser, an intermediate mixing chamber and a second diffuser. The nozzle includes a semicircular nozzle outlet that is offset from a centrally-located first axis. Motive flow is accelerated thro
An eductor for mixing liquids and solid particles includes a nozzle, an initial mixing chamber, a first diffuser, an intermediate mixing chamber and a second diffuser. The nozzle includes a semicircular nozzle outlet that is offset from a centrally-located first axis. Motive flow is accelerated through the nozzle through a first and second acceleration segment. Solid particles are added to the motive flow in the initial mixing chamber and directed to the first diffuser. Each diffuser includes an acceleration and a deceleration segment separated by an elliptically-shaped throat. The intermediate mixing chamber is located between the first and second diffusers. A method for mixing liquids and solids includes introducing a motive flow into an initial mixing chamber, creating a vacuum in the initial mixing chamber to induce solids into the motive fluid, providing a region of turbulence to enhance mixing of the motive flow and solid particles, and diffusing the motive flow to further increase boundary flow separation conducive to mixing.
대표청구항▼
What is claimed is: 1. An apparatus for mixing solids and liquids comprising: a nozzle having a nozzle inlet and a nozzle outlet; wherein the nozzle outlet is semicircular, and wherein the round inlet is centered about a first axis and the nozzle outlet is offset from the first axis; wherein the no
What is claimed is: 1. An apparatus for mixing solids and liquids comprising: a nozzle having a nozzle inlet and a nozzle outlet; wherein the nozzle outlet is semicircular, and wherein the round inlet is centered about a first axis and the nozzle outlet is offset from the first axis; wherein the nozzle outlet further comprises: a flat upper outlet edge located an offset distance below the first axis; and a semicircular lower edge sharing common side points with the upper edge and defining an opening therebetween having a nozzle outlet height; an initial mixing chamber receiving fluid from the nozzle and having a chamber first inlet, a chamber second inlet, and a chamber outlet; a hopper operable to provide solid particles to the initial mixing chamber through the chamber second inlet; a first diffuser receiving a mixture of the fluid and solid particles from the initial mixing chamber and having a first diffuser inlet, a first diffuser throat, and a first diffuser outlet; an intermediate mixing chamber receiving the mixture from the first diffuser; and a second diffuser receiving the mixture from the intermediate mixing chamber and including a second diffuser inlet, a second diffuser throat, and a second diffuser outlet. 2. The apparatus as in claim 1, wherein the nozzle further comprises: an inner surface extending from the nozzle inlet to the nozzle outlet; a first acceleration segment, wherein an upper portion of the inner surface slopes downward and flattens toward a plane coextensive with the upper outlet edge; and a second acceleration segment, wherein a lower portion of the inner surface slopes upward and inward to match the lower edge of nozzle outlet. 3. The apparatus of claim 1, wherein the first diffuser throat and the second diffuser throat have an elliptical cross sectional shape. 4. The apparatus of claim 1, wherein the first diffuser further comprises: a first converging section between the first diffuser inlet and the first diffuser throat; and a first diverging section between the first diffuser throat and the first diffuser outlet. 5. The apparatus of claim 4, wherein the second diffuser further comprises: a second converging section between the second diffuser inlet and the second diffuser throat; and a second diffusing section between the second diffuser throat and the second diffuser outlet. 6. An eductor for mixing solid particles into a motive fluid comprising: a nozzle having a nozzle inlet and a nozzle outlet; an initial mixing chamber, receiving motive flow from the nozzle and receiving solid particles, wherein a first mixing zone is formed within the initial mixing chamber to combine the motive fluid and the solid particles into an initial mixture; a first diffuser including a first converging segment, a first throat, and a first diverging segment serially aligned; a second diffuser segment including a second converging segment, a second diverging segment, and a second throat serially aligned; an intermediate mixing chamber receiving the initial mixture from the first diffuser, wherein a second mixing zone is formed within the intermediate mixing chamber to further mix the initial mixture to provide an intermediate mixture of the motive fluid and the solid particles. 7. The eductor of claim 6, wherein the nozzle inlet is circumferential about a first axis and the nozzle outlet is semicircular, defined by a flat portion an offset distance from the first axis and a round portion distal the first axis. 8. The eductor of claim 6, wherein the nozzle further comprises: an upper outlet edge located an offset distance below the first axis and extending in a straight line between opposing side points; a lower outlet edge curving between the opposing side points of the upper outlet edge to define an opening having a nozzle outlet height. 9. An eductor as in claim 8, wherein the nozzle further comprises: an entrance segment having an inner surface with an inner diameter; a first acceleration segment in fluid communication with the entrance segment and having a top portion of the inner surface slope downward and flatten and a lower portion of the inner surface remain a constant radial distance from the first axis; a second acceleration segment in fluid communication with the first acceleration segment and the nozzle outlet, wherein the top portion of the inner surface continues to slope downward and flatten to match the upper outlet edge below the first axis and the lower portion of the inner surface slopes upward to match the curve of the lower outlet edge. 10. The eductor of claim 6, wherein the first throat and the second throat each have an elliptically shaped cross section. 11. A method of mixing a solid and a liquid comprising: introducing a motive fluid to an initial mixing chamber; creating a vacuum to induce solids into the motive fluid; providing a first mixing zone for mixing the motive fluid and the induced solids; diffusing the motive fluid carrying the induced solids to increase boundary flow separation; creating a second mixing zone to further mix the motive fluid with the solids; diffusing the motive fluid a second time; and creating a third mixing zone to further mix the motive fluid with the solids. 12. A method of mixing a solid and a liquid comprising: introducing a motive fluid to an initial mixing chamber; creating a vacuum to induce solids into the motive fluid; providing a first mixing zone for mixing the motive fluid and the induced solids; diffusing the motive fluid carrying the induced solids to increase boundary flow separation; creating a second mixing zone to further mix the motive fluid with the solids; and repeatedly diffusing the motive flow to create a plurality of mixing zones to further mix the motive fluid with the solids.
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이 특허에 인용된 특허 (7)
Lott W. Gerald, Continuous static mixing apparatus.
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