A flow body having a surface, a leading edge has an active flow control system. The active flow control system includes a plurality of openings, at least one control pressure varying device and at least one fluidic actuator with an interaction chamber having an inlet connectable to an air source, at
A flow body having a surface, a leading edge has an active flow control system. The active flow control system includes a plurality of openings, at least one control pressure varying device and at least one fluidic actuator with an interaction chamber having an inlet connectable to an air source, at least two outlets and at least two control pressure ports. The openings are distributed along or parallel to the leading edge in a side-by-side relationship and extend through the surface. The control pressure varying device is connected to the at least two control pressure ports in a fluidic manner, wherein the control pressure varying device is adapted to bring about the flow of the fluid at least majoritarily into a respective one of the outlets. Each of the outlets is connected to one individual opening of the plurality of openings.
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1. A flow body having a surface, a leading edge and an active flow control system, wherein the active flow control system comprises: a plurality of openings;at least one control pressure varying device; andat least one fluidic actuator with: an inlet connectable to an air source;at least first and s
1. A flow body having a surface, a leading edge and an active flow control system, wherein the active flow control system comprises: a plurality of openings;at least one control pressure varying device; andat least one fluidic actuator with: an inlet connectable to an air source;at least first and second outlets; andat least first and second control pressure ports, wherein the fluidic actuator is configured such that air from the inlet flows to the at least first and second outlets,wherein the control pressure varying device comprises: a flow dividing device with an inlet connectable to a control air source;at least third and fourth outlets, the third outlet in fluidic communication with the first control pressure port and the fourth outlet in fluidic communication with the second control pressure port; anda first and a second feedback line associated with the third and fourth outlet, respectively, adapted for feeding back a part of a control air flow into the flow dividing device,wherein the openings are distributed along or parallel to the leading edge in a side-by-side relationship and extend through the surface, andwherein the control pressure varying device is adapted to bring about the flow of the fluid at least majoritarily into a respective one of the first and second outlets, andwherein each of the first and second outlets is connected to one individual opening of the plurality of openings. 2. The flow body of claim 1, wherein the fluidic actuator comprises an interaction chamber connecting the inlet with the at least first and second outlets and situated between the at least first and second control pressure ports, wherein the interaction chamber is adapted for deflecting a flow from the inlet primarily into one of the at least first and second outlets by a control air flow originating from the control pressure ports. 3. The flow body of claim 1, wherein a plurality of fluidic actuators is connected to a single control pressure varying device. 4. The flow body of claim 1, wherein at least one of the volume and the length of each feedback line is dimensioned so as to adjust the pulsation frequency of the control pressure varying device to a predetermined value. 5. The flow body of claim 1, wherein the openings comprise a flow axis including an angle (a) with a local tangent to the surface below 90° in a downstream direction. 6. A flow body; having a surface, a leading edge and an active flow control system, wherein the active flow control system comprises: a plurality of openings;at least one control pressure varying device; andat least one fluidic actuator with: an inlet connectable to an air source;at least first and second outlets; andat least first and second control pressure ports, wherein the fluidic actuator is configured such that air from the inlet flows to the at least first and second outlets,wherein the control pressure varying device comprises: a flow dividing device with an inlet connectable to a control air source;at least third and fourth outlets, the third outlet in fluidic communication with the first control pressure port and the fourth outlet in fluidic communication with the second control pressure port; anda first and a second feedback line associated with the third and fourth outlet, respectively, adapted for feeding back a part of a control air flow into the flow dividing device,wherein the openings are distributed along or parallel to the leading edge in a side-by-side relationship and extend through the surface,wherein the control pressure varying device is adapted to bring about the flow of the fluid at least majoritarily into a respective one of the first and second outlets,wherein each of the first and second outlets is connected to one individual opening of the plurality of openings, andwherein the at least one fluidic actuator is arranged in a straight extension of a flow axis of the associated openings. 7. The flow body of claim 1, wherein the openings comprise a width and a depth, wherein the ratio of width to depth is at least 5. 8. The flow body of claim 1, wherein adjacent openings are separated from each other by a web. 9. The flow body of claim 1, wherein the openings are closable through closing means. 10. A flow body having a surface, a leading edge and an active flow control system, wherein the active flow control system comprises: a plurality of openings;at least one control pressure varying device; andat least one fluidic actuator with: an inlet connectable to an air source;at least first and second outlets; andat least first and second control pressure ports, wherein the fluidic actuator is configured such that air from the inlet flows to the at least first and second outlets,wherein the control pressure varying device comprises: a flow dividing device with an inlet connectable to a control air source;at least third and fourth outlets, the third outlet in fluidic communication with the first control pressure port and the fourth outlet in fluidic communication with the second control pressure port; anda first and a second feedback line associated with the third and fourth outlet, respectively, adapted for feeding back a part of a control air flow into the flow dividing device,wherein the openings are distributed along or parallel to the leading edge in a side-by-side relationship and extend through the surface,wherein the control pressure varying device is adapted to bring about the flow of the fluid at least majoritarily into a respective one of the first and second outlets,wherein each of the first and second outlets is connected to one individual opening of the plurality of openings,wherein the openings are arranged in a first part of the flow body and wherein a swivellable wing nose configured as a second part of the flow body is movable relative to the first part so as to selectively cover and uncover the openings. 11. The flow body of claim 1, wherein the air supplied by the air source comprises a temperature sufficient for a thermal de- or anti-icing of the flow body. 12. The device of claim 3, further comprising: a first pressure distribution line fluidically connecting the third outlet to the first pressure control ports of the plurality of the actuators; anda second pressure distribution line fluidically connecting the fourth outlet to the second pressure control ports of the plurality of the actuators.
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이 특허에 인용된 특허 (5)
Byung-Hun Kim ; David R. Williams, Large amplitude pneumatic oscillator.
Ashill Patrick R. (Bromham GBX) Pierce Donald (Crookham Village GBX) Treadgold Desmond A. (Farnborough GBX) Fulker John L. (Sharnbrook GBX), Manoeuverable supercritical wing section.
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