ARIZONA BOARD OF REGENTS ON BEHALF OF ARIZONA STATE UNIVERSITY
대리인 / 주소
Michael Best & Friedrich LLP
인용정보
피인용 횟수 :
0인용 특허 :
37
초록▼
Nozzle Assemblies and methods of use for producing a liquid jet are disclosed that may be permit adjustable time delays between mixing of fluids and observation of reactions. An example nozzle assembly includes: a housing having an inlet and an outlet and a first channel defined therebetween, where
Nozzle Assemblies and methods of use for producing a liquid jet are disclosed that may be permit adjustable time delays between mixing of fluids and observation of reactions. An example nozzle assembly includes: a housing having an inlet and an outlet and a first channel defined therebetween, where the housing includes a gas focusing aperture defining the housing outlet; an intermediate tube disposed within the first channel of the housing, where the intermediate tube has an inlet and an outlet and defines a second channel therebetween; and a central tube disposed within the second channel of the intermediate tube, where the central tube has an inlet and an outlet and defines a third channel therebetween, where the central tube outlet is longitudinally spaced apart from the intermediate tube outlet such that the intermediate tube outlet is disposed between the central tube outlet and the gas focusing aperture's inlet.
대표청구항▼
1. A nozzle assembly comprising: a housing having an inlet and an outlet and a first channel defined therebetween, wherein the housing includes a gas focusing aperture that defines the outlet of the housing;a non-converging intermediate tube disposed within the first channel of the housing, wherein
1. A nozzle assembly comprising: a housing having an inlet and an outlet and a first channel defined therebetween, wherein the housing includes a gas focusing aperture that defines the outlet of the housing;a non-converging intermediate tube disposed within the first channel of the housing, wherein the non-converging intermediate tube has an inlet and an outlet and defines a second channel therebetween, wherein the outlet of the non-converging intermediate tube is beveled; anda dynamically adjustable, non-converging central tube disposed within the second channel of the non-converging intermediate tube, wherein the non-converging central tube has an inlet and an outlet and defines a third channel therebetween, wherein the outlet of the non-converging central tube is beveled and is longitudinally adjustable relative to and spaced apart from the outlet of the non-converging intermediate tube such that the outlet of the non-converging intermediate tube is disposed between the outlet of the non-converging central tube and an inlet of the gas focusing aperture,wherein the gas focusing aperture includes a convergent section configured to focus fluid output from the non-converging intermediate tube and the non-converging central tube. 2. The nozzle assembly of claim 1, wherein the housing, the non-converging intermediate tube and the non-converging central tube are arranged coaxially with respect to one another. 3. The nozzle assembly of claim 1, wherein an inner diameter of the housing is greater than an outer diameter of the non-converging intermediate tube such that there is a coaxial space between the housing and the non-converging intermediate tube. 4. The nozzle assembly of claim 1, wherein an inner diameter of the non-converging intermediate tube is greater than an outer diameter of the non-converging central tube such that there is a coaxial space between the non-converging intermediate tube and the non-converging central tube. 5. The nozzle assembly of claim 1, wherein the non-converging central tube has an inner diameter ranging from about 20 μm to about 50 μm and an outer diameter ranging from about 100 μm to about 200 μm. 6. The nozzle assembly of claim 1, wherein the non-converging intermediate tube has an inner diameter ranging from about 200 μm to about 400 μm and an outer diameter ranging from about 360 μm to about 600 μm. 7. The nozzle assembly of claim 1, wherein the gas focusing aperture has an inner diameter ranging from about 500 μm to about 1000 μm and an outer diameter ranging from about 1000 μm to about 2000 μm. 8. The nozzle assembly of claim 1, wherein the outlet end of the non-converging central tube and the outlet end of the non-converging intermediate tube are conical. 9. The nozzle assembly of claim 1, wherein a common longitudinal axis of the non-converging intermediate tube and the non-converging central tube is collinear with a longitudinal axis of the gas focusing aperture. 10. The nozzle assembly of claim 1, wherein the non-converging central tube is moveable relative to the non-converging intermediate tube to increase or decrease a longitudinal distance between a central tube outlet and an intermediate tube outlet. 11. A method for producing a liquid jet comprising: injecting a first fluid into the inlet of the housing of the nozzle assembly of claim 1 and thereby advancing the first fluid through the first channel of the housing;injecting a second fluid into an inlet of the non-converging intermediate tube and thereby advancing the second fluid through the second channel of the non-converging intermediate tube;injecting a third fluid into an inlet of the non-converging central tube and thereby advancing the third fluid through the third channel of the non-converging intermediate tube; andcombining the second fluid and the third fluid in a mixing region in the non-converging intermediate tube between the outlet of the non-converging central tube and the outlet of the non-converging intermediate tube. 12. The method of claim 11 further comprising: hydrodynamically focusing the third fluid into a first free jet in the mixing region, via the advancing second fluid, as the third fluid advances through the outlet of the non-converging central tube. 13. The method of claim 11, wherein the third fluid is hydrodynamically focused from a flow diameter of about 20 μm to about 50 μm in the non-converging central tube to a free jet diameter ranging from about 1 μm to about 3 μm in the mixing region. 14. The method of claim 11, wherein the second fluid is advanced through the second channel of the non-converging intermediate tube at a faster rate than the third fluid is advanced through the third channel of the non-converging central tube. 15. The method of claim 11, further comprising: advancing the combined second and third fluids through the outlet of the non-converging intermediate tube into a gas focusing aperture of the housing; andhydrodynamically focusing the combined second and third fluids into a second free jet in the gas focusing aperture, via the advancing first fluid. 16. The method of claim 11, wherein the second free jet has a diameter ranging from about 3 μm to about 7 μm. 17. The method of claim 11, further comprising: advancing the second free jet through an outlet in the gas focusing aperture at a rate of 10 m/s. 18. The method of claim 11, further comprising: advancing the second free jet as a continuous stream for a distance of about 1 μm to about 300 μm beyond the outlet in the gas focusing aperture.
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