Methods are provided for achieving dynamic mixing of two or more fluid streams using a mixing device. The methods include providing at least two integrated concentric contours that are configured to simultaneously direct fluid flow and transform the kinetic energy level of the first and second fluid
Methods are provided for achieving dynamic mixing of two or more fluid streams using a mixing device. The methods include providing at least two integrated concentric contours that are configured to simultaneously direct fluid flow and transform the kinetic energy level of the first and second fluid streams, and directing fluid flow through the at least two integrated concentric contours such that, in two adjacent contours, the first and second fluid streams are input in opposite directions. As a result, the physical effects acting on each stream of each contour are combined, increasing the kinetic energy of the mix and transforming the mix from a first kinetic energy level to a second kinetic energy level, where the second kinetic energy level is greater than the first kinetic energy level.
대표청구항▼
1. A method of dynamic mixing of at least a first fluid stream and a second fluid stream to provide a mixed stream having increased kinetic energy and transformed fluid properties, the method including the following method steps: providing at least two integrated dynamic contours that are configured
1. A method of dynamic mixing of at least a first fluid stream and a second fluid stream to provide a mixed stream having increased kinetic energy and transformed fluid properties, the method including the following method steps: providing at least two integrated dynamic contours that are configured to simultaneously direct fluid flow on both sides of a reflector with an external reflecting surface and an internal reflecting surface, where a first dynamic contour of the at least two integrated dynamic contours includes a first housing and a conical ring for dispersal within the limits of the first dynamic contour, and a second dynamic contour of the at least two integrated dynamic contours includes a second housing, wherein the external reflecting surface next to the first dynamic contour and the internal reflecting surface next to the second dynamic contour and transform the kinetic energy level of the first and second fluid streams; anddirecting fluid flow by the at least two integrated dynamic contours for dispersal such that, the first and second fluid streams are input in opposite directions,changing the direction of the fluid flow of the first fluid stream between the first dynamic contour and the external reflecting surface and the second fluid stream between the second dynamic contour and the internal reflecting surface so they become co-terminus,wherein a zone of accumulation of kinetic energy of the mixed stream is formed at the junction of the adjacent contours such that the first fluid stream and the second fluid stream and mix forming the mixed stream,as the first fluid stream and the second fluid stream move into the zone of accumulation, the physical effects acting on the first fluid stream and the second fluid stream are combined, increasing the kinetic energy of the mixed stream and transforming the mixed stream from a first kinetic energy level to a second kinetic energy level, where the second kinetic energy level is greater than the first kinetic energy level, andeach of the at least two integrated dynamic contours operates independently. 2. The method of claim 1 wherein the first fluid stream is a liquid and the second fluid stream is a gas. 3. The method of claim 1 wherein the first fluid stream is a first liquid and the second fluid stream is a second liquid. 4. The method of claim 1 wherein the first fluid stream is a first gas and the second fluid stream is a second gas. 5. The method of claim 1 wherein each of the at least two integrated dynamic contours operates independently on the basis of one of known dynamic physical principles of turbulence. 6. A method of dynamic mixing of at least a first fluid stream and a second fluid stream to provide a mixed stream having increased kinetic energy and transformed properties, the first fluid stream comprising a liquid and the second fluid stream comprising a gas, the method including the following method steps: providing at least two integrated dynamic contours that are configured to simultaneously direct fluid flow on both sides of a reflector with an external reflecting surface and an internal reflecting surface, where a first dynamic contour of the at least two integrated dynamic contours includes a first housing and a conical ring for dispersal within the limits of the first dynamic contour, and a second dynamic contour of the at least two integrated dynamic contours includes a second housing, wherein the external reflecting surface next to the first dynamic contour and the internal reflecting surface next to the second dynamic contour and transform the energy level of the first and second fluid streams;directing fluid flow by the at least two integrated dynamic contours for dispersal such that, the first and second fluid streams are input in opposite directions, and a third fluid stream is added to the mixed stream formed by the first fluid stream and the second fluid stream in a direction perpendicular to the flow direction of the mixed stream,changing the direction of the fluid flow of the first fluid stream between the first dynamic contour and the external reflecting surface and the second fluid stream between the second dynamic contour and the internal reflecting surface so they become co-terminus,wherein a zone of accumulation of kinetic energy of the mixed stream is formed at the junction of the adjacent contours such that the first fluid stream and the second fluid stream and mix forming the mixed steam,as the first fluid stream and the second fluid stream move into the zone of accumulation, the physical effects acting on the first fluid stream and the second fluid stream are combined, increasing the kinetic energy of the mixed stream and transforming the mixed stream from a first kinetic energy level to a second kinetic energy level, where the second kinetic energy level is greater than the first kinetic energy level, andeach of the at least two integrated dynamic contours operates independently. 7. A method of dynamic mixing of at least a first fluid stream and a second fluid stream to provide a mixed stream having increased kinetic energy and transformed fluid properties, the method including the following method steps: providing at least two integrated dynamic contours that are configured to simultaneously direct fluid flow on both sides of a reflector with an external reflecting surface and an internal reflecting surface, where a first dynamic contour of the at least two integrated dynamic contours includes a first housing and a conical ring for dispersal within the limits of the first dynamic contour, and a second dynamic contour of the at least two integrated dynamic contours includes a second housing, wherein the external reflecting surface next to the first dynamic contour and the internal reflecting surface next to the second dynamic contour and transform the kinetic energy level of the first and second fluid streams; anddirecting fluid flow by the at least two integrated dynamic contours for dispersal such that, the first and second fluid streams are input in opposite directions,changing the direction of the fluid flow of the first fluid stream between the first dynamic contour and the external reflecting surface and the second fluid stream between the second dynamic contour and the internal reflecting surface so they become co-terminus,wherein a zone of accumulation of kinetic energy of the mixed stream is formed at the junction of the adjacent contours such that the first fluid stream and the second fluid stream and mix forming the mixed stream, as the first fluid stream and the second fluid stream of the mixed stream move into the zone of accumulation, the physical effects acting on the first fluid stream and the second fluid stream are combined, increasing the kinetic energy of the mixed stream and transforming the mixed stream from a first kinetic energy level to a second kinetic energy level, where the second kinetic energy level is greater than the first kinetic energy level, andeach of the first and second housings and the reflector are non moving parts. 8. The method of claim 1 wherein the first fluid stream is a gas and the second fluid stream is an aerosol. 9. The method of claim 7, wherein the first fluid stream is a gas and the second fluid stream is an aerosol.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (45)
Surovikin Vitaly F. (ulitsa Lermontova ; 20 ; kv. 80 Omsk SUX) Antonenko Vladimir F. (Kamerny pereulok ; 46 ; kv. 61 Omsk SUX) Babich Gennady V. (ulitsa 20 let RKKA ; 40 ; kv. 15 Omsk SUX) Bobrik Mik, Aerodynamic apparatus for mixing components of a fuel mixture.
Karlsson Rolf (Alvkarleby SEX) Tinoco Hernan (Alvkarleby SEX) Henriksson Mats (Alvkarleby SEX) Lundstrm Anders (Alvkarleby SEX), Device for mixing two fluids having different temperature.
Wells Marvin D. (Redford MI) Barua Debojit (Troy MI) Richardson William P. (Columbus IN) Evers Lawrence W. (Lake Linden MI), Method and structure for optimizing atomization quality of a low pressure fuel injector.
King Leonard T. (4109 Cedar Ave. Long Beach CA 90807) Nelmida Leo (21086 Cantebury La. Lake Forest CA 92630), Special injection and distribution device.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.