Leading edge structure for a flow control system of an aircraft

The invention claimed is: 1. A leading edge structure for a flow control system of an aircraft comprising: a leading edge panel covering a plenum in a curved manner, the plenum extending in a span direction of the leading edge structure, wherein the leading edge panel has a first side portion extending from a leading edge point to a first attachment end, wherein the leading edge panel has a second side portion, opposite the first side portion, extending from the leading edge point to a second attachment end, wherein the leading edge panel comprises an inner surface facing the plenum and an outer surface in contact with an ambient flow, wherein the leading edge panel comprises a plurality of micro pores forming a fluid connection between the plenum and the ambient flow, wherein the plenum is separated by a partition wall into a leading edge plenum section aligned with the leading edge point, and a downstream plenum section downstream from the leading edge plenum section, wherein the leading edge plenum section is connected to a first air inlet via a first duct, wherein the downstream plenum section is connected to a second air inlet via a second duct, wherein the first air inlet is separate from the second air inlet and the first duct is separate from the second duct, and wherein the plenum is configured to be at a pressure greater than a dynamic air pressure of the ambient air flow over the outer surface. 2. The leading edge structure according to claim 1 , wherein the first air inlet and the first duct and/or the second air inlet and second duct are configured to receive a mass flow of air to cause a higher pressure in the leading edge plenum section as compared to the downstream plenum section. 3. The leading edge structure according to claim 1 , wherein the first air inlet and/or the second air inlet is formed as a combined air inlet/outlet device. 4. The leading edge structure according to claim 1 , further comprising a back wall connecting the first attachment end to the second attachment end of the leading edge panel, thereby enclosing the plenum on a side opposite the leading edge point. 5. The leading edge structure according to claim 1 , wherein the leading edge panel has a double-walled form including an inner wall element having the inner surface and an outer wall element having the outer surface. 6. The leading edge structure according to claim 5 , wherein between the inner and outer wall elements the leading edge panel comprises a plurality of elongate stiffeners spaced apart from one another, so that between each pair of adjacent stiffeners a hollow chamber is formed between the inner and outer wall elements. 7. The leading edge structure according to claim 6 , wherein the outer wall element comprises the plurality of micro pores forming a fluid connection between the hollow chambers and the ambient flow, and wherein the inner wall element comprises openings forming a fluid connection between the hollow chambers and the plenum. 8. A vertical tail plane for an aircraft comprising a vertical tail plane box having a first lateral panel with a first attachment portion and an opposite second lateral panel with a second attachment portion, a leading edge structure according to claim 1 , wherein the first attachment end is attached to the first attachment portion, and wherein the second attachment end is attached to the second attachment portion, so that the first side portion of the leading edge panel forms a continuous flow surface with the first lateral panel of the vertical tail plane box, and the second side portion of the leading edge panel forms a continuous flow surface with the second lateral panel of the vertical tail plane box. 9. The vertical tail plane according to claim 8 , wherein the first is arranged in the first lateral panel and the second air inlet is arranged in the second lateral panel. 10. A leading edge structure for a lifting or air control structure on an aircraft, the leading edge structure comprising: a leading edge panel including a leading edge point region and first and second side portions opposite to each other, and the first and second side portions each extend in a chord-wise direction from the leading edge point region, wherein the leading edge panel includes an outer surface configured to be exposed to an ambient air flow while the aircraft is in flight and an inner surface opposite to the outer surface; a plenum within the leading edge panel and facing the inner surface, wherein the plenum extends in a span-wise direction through the leading edge structure; micro pores in the leading edge panel and extending between the outer and inner surfaces, wherein the micro pores form a fluid connection between the plenum and the ambient flow; a partition wall separating a leading edge plenum section of the plenum and a downstream plenum section of the plenum, wherein the partition wall has a first edge region and a second edge region, opposite to the first edge region, wherein the first and second edge regions are attached to the inner surface of the leading edge panel, and the partition wall is impervious such that air in the leading edge plenum section does not leak into downstream plenum section; a first air inlet connected to the leading edge plenum via a first duct, and a second air inlet connected to the downstream plenum via a second duct, wherein the first air inlet is separate from the second air inlet and the first duct is separate from the second duct; wherein the leading edge plenum section is aligned with and adjacent the leading edge point region and the downstream plenum section is aligned with and adjacent at least one of the first and second side portions, and wherein the plenum is configured to be at a pressure greater than a dynamic air pressure of the ambient air flow over the outer surface. 11. The leading edge structure of claim 10 , wherein the lifting or air control structure is a vertical tail plane. 12. The leading edge structure of claim 10 , wherein the leading edge plenum section is configured to be operated at a higher internal air pressure than the downstream plenum section. 13. The leading edge structure of claim 10 , further comprising: a first ambient air inlet and a first duct extending between the first ambient air inlet and the leading edge plenum section such that ambient air entering the first ambient air inlet passes through the first duct and pressurizes the leading edge plenum section, and a second ambient air inlet and a second duct extending between the second ambient air inlet and the downstream plenum section such that ambient air entering the second ambient air inlet passes through the second duct and pressurizes the downstream plenum section to a pressure level lower than a pressure in the leading edge plenum section. 14. A method of pressurizing a plenum in a leading edge structure of a lifting or air control structure on an aircraft, wherein the leading edge structure includes: a leading edge panel including a leading edge point region and first and second side portions opposite to each other, and the first and second side portions each extend in a chord-wise direction from the leading edge point region; wherein the leading edge panel includes an outer surface configured to be exposed to an ambient air flow while the aircraft is in flight and an inner surface opposite to the outer surface; a plenum within the leading edge panel and facing the inner surface, wherein the plenum extends in a span-wise direction through the leading edge structure, micro pores in the leading edge panel and extending between the outer and inner surfaces, whe