Flow control device

The invention claimed is: 1. A flow control device with a device aerodynamic surface arranged on a structure with a structure aerodynamic surface such that strain in the structure is at least partially transferred to the flow control device, the flow control device is configured to modify the airflow and includes a first state corresponding to a first shape of the device aerodynamic surface, and a second state corresponding to a second shape of the device aerodynamic surface, wherein the first state is a stable state of the flow control device and the second state is either a steady state or a second stable state of the flow control device, and the flow control device is arranged to rapidly transition from the first state to the second state when strain in the structure exceeds an activation threshold of the flow control device, and wherein the flow control device has a first edge attached to or integrally formed with the structure and a second edge unattached to the structure. 2. The flow control device on a structure of claim 1 , wherein in the first shape of the device aerodynamic surface is substantially flush with the structure aerodynamic surface. 3. The flow control device on a structure of claim 1 , wherein in the second shape of the device aerodynamic surface is bent away from the structure and towards an oncoming flow direction. 4. The flow control device on a structure of claim 1 , wherein the activation threshold of the flow control device is tuneable. 5. The flow control device on a structure of claim 1 , wherein the flow control device is configured to at least initially remain in the second, stable state when the strain in the structure decreases below the activation threshold. 6. The flow control device on a structure of claim 1 , wherein the device aerodynamic surface is substantially rectangular in the first state, preferably wherein the short side of the rectangle extends generally parallel to an oncoming flow direction. 7. The flow control device on a structure of claim 1 , wherein the flow control device is mono-stable or bi-stable. 8. The flow control device on a structure of claim 1 , wherein the flow control device comprises anisotropic material. 9. The flow control device on a structure of a claim 1 , wherein the flow control device comprises a pre-stressed isotropic material. 10. The flow control device on a structure of claim 1 , wherein the flow control device is configured such that the second, steady state is maintained only by the strain in the structure remaining above the activation threshold. 11. The flow control device on a structure of claim 10 , wherein the flow control device is configured to return to the first state once the strain in the structure decreases below the activation threshold. 12. The flow control device on a structure of claim 1 , wherein the flow control device has a proximal end towards an oncoming flow direction, and the proximal end of the flow control device is attached to or integrally formed with the structure. 13. The flow control device on a structure according to claim 12 , wherein the strain in the structure is at least partially transferred to the flow control device through the attached or integrally formed proximal end of the flow control device. 14. The flow control device on a structure according to claim 1 , wherein the structure forms part of an aerofoil. 15. The flow control device on a structure of claim 14 , wherein the aerofoil is adapted to generate lift when moving relative to an air flow, and wherein in the second state the flow control device is configured to interact with the air flow around the aerofoil to reduce the lift generated by the aerofoil as compared with the lift generated by the aerofoil when the flow control device is in the first state. 16. The flow control device on a structure of claim 14 , wherein the structure aerodynamic surface is a low pressure surface of the aerofoil. 17. The flow control device on a structure of claim 16 , wherein the structure having the low pressure surface is configured to support compressive strain when the aerofoil generates lift, and the flow control device is configured to rapidly transition from the first state to the second state when compressive strain in the structure exceeds the activation threshold due to the lift generated by the aerofoil. 18. An aircraft wing or wing tip device comprising the flow control device on a structure of claim 15 . 19. The aircraft wing of claim 18 , wherein the flow control device is arranged at a transition region between the aircraft wing and an upwardly projecting portion of the wing tip device. 20. A method of controlling air flow over an aerofoil having a morphing flow control device, the method comprising: operating the aerofoil to induce strain in a structure of the aerofoil; and harnessing the strain in the structure to activate a morphing flow control device configured to modify the airflow and arranged on the structure to rapidly transition from a first stable state to a second stable or steady state when an activation energy of the flow control device exceeds a threshold due to increased strain in the structure, wherein the first state corresponds to a first shape of a device aerodynamic surface, and the second state corresponds to a second shape of the device aerodynamic surface, and wherein the flow control device has a first edge attached to or integrally formed with the structure and a second edge unattached to the structure. 21. The method according to claim 20 , wherein the strain is induced due to bending, deformation or movement of the structure. 22. The method according to claim 20 , wherein in the second state the flow control device interacts with the air flow over the aerofoil to reduce the lift generated by the aerofoil as compared with the lift generated by the aerofoil when the flow control device is in the first state. 23. An aerofoil comprising a low pressure surface and a spoiler arranged on the low pressure surface, wherein the flow control device has a first edge attached to or integrally formed with the structure and a second edge unattached to the structure, the spoiler having a rest position where it is substantially flush with the low pressure surface and an activated position where it protrudes from the low pressure surface and modifies the airflow over that surface; wherein the spoiler is a device having a stable state in the rest position and a stable or quasi-stable state in the activated position; the spoiler bends to move from the rest position to the activated position; and the coupling of the spoiler to the aerofoil transfers at least some strain from the aerofoil to the spoiler and the movement of the spoiler is triggered by the strain in the aerofoil crossing a threshold.