Resonant energy harvester, aircraft component comprising the resonant energy harvester and an aircraft comprising the resonant energy harvester or the aircraft component

What is claimed is: 1. An energy harvester for an aircraft, comprising: a first portion including a charge collecting device having an electrical permittivity different to that of air, the charge collecting device being configured to be exposed to an air flow; a movable element configured to be driven by a charge of the charge collecting device, the movable element comprising an elastic element having a fixed first end and a second end, the elastic element comprising a conductive material, and the second end being arranged to move freely and disposed in the vicinity of the first portion, and a second portion configured to be exposed to an air flow, the second portion comprising a conductive material and being electrically connected to the first end; and a kinetic-to-electric-energy-converter configured to generate energy by movement of the movable element, the kinetic-to-electric-energy-converter being fixed to the elastic element. 2. The energy harvester according to claim 1 , wherein the elastic element is a cantilever or a membrane. 3. The energy harvester according to claim 1 , further comprising a second conductive section electrically connected between the elastic element and the second portion, with the fixed first end being fixed to the second conductive section. 4. The energy harvester according to claim 1 , wherein the charge collecting device comprises a surface exposed to the air flow and a dielectric material. 5. The energy harvester according to claim 1 , wherein the second portion comprises an edge or an apex configured to locally increase an electric potential of the second portion. 6. The energy harvester according to claim 5 , wherein the second portion has a shape of a cone or a needle. 7. The energy harvester according to claim 1 , wherein the first portion is electrically insulated from the movable element by an insulation layer between the first portion and the second portion. 8. The energy harvester according to claim 7 , wherein the first portion is spatially separated from the movable element. 9. An aircraft component comprising: a portion having an outer surface; and the energy harvester according to claim 1 , configured such that the charge collecting device is part of the outer surface. 10. An aircraft comprising: the aircraft component according to claim 9 . 11. An aircraft comprising: the energy harvester according to claim 1 . 12. The energy harvester according to claim 1 , wherein the kinetic-to-electric-energy-converter comprises a piezoelectric material, in particular a piezoelectric ceramic. 13. The energy harvester according to claim 1 , wherein the first portion comprises a first conductive section electrically connected to the charge collecting device and arranged in the vicinity of the second end. 14. The energy harvester according to claim 13 , wherein the elastic element is a cantilever or a membrane. 15. The energy harvester according to claim 13 , further comprising a second conductive section electrically connected between the elastic element and the second portion, with the fixed first end being fixed to the second conductive section. 16. The energy harvester according to claim 13 , wherein the charge collecting device comprises a surface exposed to the air flow and a dielectric material. 17. The energy harvester according to claim 13 , wherein the second portion comprises an edge or an apex configured to locally increase an electric potential of the second portion. 18. The energy harvester according to claim 13 , wherein the first portion is electrically insulated from the movable element by an insulation layer between the first portion and the second portion. 19. An energy harvester for an aircraft, comprising: a first portion including a charge collecting device having an electrical permittivity different to that of air, the charge collecting device being configured to be exposed to an air flow; a movable element configured to be driven by a charge of the charge collecting device; and a kinetic-to-electric-energy-converter configured to generate energy by movement of the movable element, and comprising a piezoelectric ceramic.