A plasma-actuated vortex generator arrangement includes a plurality of spaced-apart vortex generators, and a plasma actuator distributed amongst the plurality of vortex generators.
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1. A plasma-actuated vortex generator arrangement, comprising: a plurality of vortex generators in the form of elements that extend from a body surface over which a working fluid flows, the vortex generators being spaced apart from one another along a spaced direction transverse to a direction of tr
1. A plasma-actuated vortex generator arrangement, comprising: a plurality of vortex generators in the form of elements that extend from a body surface over which a working fluid flows, the vortex generators being spaced apart from one another along a spaced direction transverse to a direction of travel of the working fluid to allow a working fluid to flow between them; anda plasma actuator distributed amongst the plurality of vortex generators and configured to generate an electric field between the vortex generators and induce fluid flow from at least one of the vortex generators to at least one other of the vortex generators across a space between the vortex generators. 2. The plasma-actuated vortex generator arrangement of claim 1, wherein the plurality of vortex generators includes a first vortex generator, and a second vortex generator located adjacent to the first vortex generator, and wherein the plasma actuator includes a first upstream electrode carried by the first vortex generator, and a first downstream electrode carried by the second vortex generator in a location downstream of the first electrode. 3. The plasma-actuated vortex generator arrangement of claim 2, wherein the first upstream electrode is carried by an inboard surface of the first vortex generator proximate an upstream end of the first vortex generator, and the first downstream electrode may be carried by an inboard surface of the second vortex generator proximate a downstream end of the second vortex generator. 4. The plasma-actuated vortex generator arrangement of claim 1 wherein the plasma actuator is operated or modulated a frequency that is a multiple of a resonant frequency of working fluid passing by the vortex generators. 5. The plasma-actuated vortex generator arrangement of claim 1 wherein the plurality of vortex generators includes a first vortex generator, and a second vortex generator located adjacent to the first vortex generator, and wherein the plasma actuator includes a first upstream electrode carried by the first vortex generator, a second upstream electrode carried by the second vortex generator, a first downstream electrode carried by the second vortex generator, and a second downstream electrode carried by the first vortex generator. 6. The plasma-actuated vortex generator arrangement of claim 5, wherein the plasma actuator produces a first fluid flow between the first upstream electrode and the first downstream electrode, and a second fluid flow between the second upstream electrode and the second downstream electrode, wherein the first and second fluid flows are cross-wise fluid flows from one of the vortex generators to another of the vortex generators. 7. The plasma-actuated vortex generator arrangement of claim 6, wherein the plasma actuator produces a third fluid flow between the first upstream electrode and the second downstream electrode, and a fourth fluid flow between the second upstream electrode and the first downstream electrode, wherein the third and fourth fluid flows are aligned fluid flows along the vortex generators. 8. The plasma-actuated vortex generator arrangement of claim 1, wherein the plasma actuator is an AC dielectric barrier discharge plasma actuator. 9. The plasma-actuated vortex generator arrangement of claim 1, wherein the plasma actuator is a DC ion wind plasma actuator. 10. The plasma-actuated vortex generator arrangement of claim 1 wherein the plurality of vortex generators includes a first vortex generator, and a pair of adjacent vortex generators located downstream of the first vortex generator, and wherein the plasma actuator is a DC corona discharge plasma actuator including a first electrode carried by a trailing portion of the first vortex generator, a pair of ground electrodes carried by upstream portions of the pair of adjacent vortex generators, and a pair of second electrodes carried by downstream portions of the pair of adjacent vortex generators. 11. A plasma-actuated vortex generator arrangement, comprising: a first vortex generator in the form of an element extending from a body surface over which a working fluid flows;a second vortex generator in the form of an element extending from a body surface over which a working fluid flows located adjacent to and spaced apart from the first vortex generator along a spaced direction transverse to a direction of travel of the working fluid; anda plasma actuator distributed amongst the first and second vortex generators, and including: a first electrode carried by the first vortex generator; anda second electrode carried by the second vortex generator in a location downstream of the first electrode,the plasma actuator being configured to generate an electric field between the vortex generators and to induce fluid flow from one of the vortex generators to another of the vortex generators across a space between the vortex generators. 12. The plasma-actuated vortex generator arrangement of claim 11, wherein the plasma actuator is an AC dielectric barrier discharge device. 13. The plasma-actuated vortex generator arrangement of claim 11, wherein the plasma actuator is a DC ion wind device. 14. A plasma-actuated vortex generator arrangement, comprising: a first vortex generator in the form of an element that extends from a body surface over which a working fluid flows;a pair of adjacent spaced-apart vortex generators in the form of elements that extend from a body surface over which a working fluid flows, the pair of vortex generators being spaced apart from one another along a spaced direction transverse to a direction of travel of the working fluid, to allow a working fluid to flow between them, and located downstream of the first vortex generator; anda DC corona discharge plasma actuator distributed amongst the vortex generators, and including: a first electrode carried by a trailing portion of the first vortex generator;a pair of second electrodes carried by downstream portions of the pair of adjacent vortex generators; anda pair of ground electrodes between the first and second electrodes and carried by upstream portions of the pair of adjacent vortex generators;the plasma actuator being configured to generate an electric field between the vortex generators and induces fluid flow across a space between the vortex generators from the first vortex generator to the pair of adjacent vortex generators. 15. The plasma-actuated vortex generator arrangement of claim 14, wherein the plasma actuator includes a first power supply coupled to and between the first electrode and ground, and a second power supply coupled to and between the pair of second electrodes and ground. 16. A plasma-actuated vortex generator arrangement, comprising: a plurality of spaced-apart vortex generators carried on and extending from a body surface over which a working fluid flows and spaced apart from one another along a spaced direction transverse to a direction of travel of the working fluid; anda plasma actuator distributed amongst the plurality of vortex generators and the body surface and configured to generate an electric field between a location on the body surface and at least one of the vortex generators and induce fluid flow between the location on the body surface and at least one of the vortex generators across a space between the vortex generators. 17. The plasma-actuated vortex generator arrangement of claim 16, wherein the plasma actuator includes at least one upstream electrode carried by at least one of the vortex generators, and at least one downstream electrode carried by the body surface. 18. The plasma-actuated vortex generator arrangement of claim 16, wherein the plasma actuator includes at least one upstream electrode carried by the body surface, and at least one downstream electrode carried by at least one of the vortex generators. 19. A plasma-actuated vortex generator arrangement, comprising: a plurality of vortex generators extending away from a body surface over which a working fluid flows, and being spaced apart from one another to allow the working fluid to flow between them, and disposed adjacent with respect to one another on either side of a longitudinal axis L and in the same direction with respect to a direction of travel of a working fluid so as to generate co-rotating vortices; anda plasma actuator distributed amongst at least the plurality of vortex generators and configured to induce fluid flow across a space between the vortex generators. 20. The plasma-actuated vortex generator arrangement of claim 19, wherein the plasma actuator includes at least one electrode carried by at least one of the vortex generators, and at least one other electrode carried by the body surface and offset with respect to a longitudinal axis equally spaced between the vortex generators, wherein the at least one other electrode is closer to one of the vortex generators than another of the vortex generators.
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