Stiffened panel and method of manufacturing same

The invention claimed is: 1. A method of manufacturing a stiffened panel comprising a skin and at least one substantially elongated stiffener, said at least one stiffener comprising a groove placed in the longitudinal direction and forming a cavity with the skin, the stiffened panel comprising at least one storage device for storing and releasing electrical energy, the method comprising the steps of: successive layering of an electrode layer and a layer of a porous electric insulator; winding the successive layering around a core having a form substantially complementary to the cavity; filling the groove of said at least one stiffener with said at least one storage device; and covering said at least one storage device with the skin, so that the groove of said at least one stiffener and the skin together form the cavity housing said at least one storage device. 2. The method as claimed in claim 1 , wherein said at least one storage device forms a core; and further comprising the step of draping the skin over the core. 3. The method as claimed in claim 2 , wherein said at least one stiffener comprises a composite material; and wherein the step of filling the groove of said at least one stiffener is performed with a pre-cured stiffener; and further comprising the step of curing a pre-cured stiffened panel. 4. The method as claimed in claim 1 , wherein the electrode layer and the layer of the porous electric insulator are successively layered substantially parallel to a surface of the skin forming the cavity with the groove of said at least one stiffener. 5. The method as claimed in claim 1 , further comprising the steps of providing each electrode layers with a collector to collect electrical energy; connecting the collectors of a same pole to a hollow tube comprising an opening opposite said at least one storage device; injecting an electrolyte into the hollow tube to impregnate the electrode layers; and plugging the hollow tube. 6. A stiffened panel comprising a skin and at least one substantially elongated stiffener, said at least one stiffener comprising a groove placed in the longitudinal direction and forming a cavity with the skin, the stiffened panel comprising at least one storage device for storing and releasing electrical energy, said at least one storage device being placed inside the cavity; the groove of said at least one stiffener is filled with successive layers of an electrode layer and a layer of porous electric insulator, the successive layers being wound around a core having a form substantially complementary to the cavity; and wherein the skin covers said at least one storage device so that the groove of said at least one stiffener and the skin together form the cavity housing said at least one storage device. 7. The stiffened panel as claimed in claim 6 , wherein said at least one storage device is placed inside the cavity so as to mold to walls of the cavity. 8. The stiffened panel as claimed in claim 6 , wherein said at least one storage device is an ultracapacitor. 9. The stiffened panel as claimed in claim 8 , wherein the ultracapacitor comprises two electrode layers placed substantially parallel to a surface of the skin and a layer of a porous electrical insulator between the two electrode layers. 10. The stiffened panel as claimed in claim 9 , wherein the two electrode layers of the ultracapacitor are impregnated with an electrolyte and provided at two opposite extremities in a transverse direction and sealed with a sealer so that the electrolyte flows only through the layer of the porous electrical insulator. 11. The stiffened panel as claimed in claim 9 , wherein each electrode layer is provided with a collector to collect the electrical energy, the collectors being placed opposite each other in a transverse direction. 12. The stiffened panel as claimed in claim 9 , wherein two electrode layers protrude, one relative to the other, in a longitudinal direction to provide protrusions comprising a collector to collect the electrical energy. 13. The stiffened panel as claimed in claim 8 , wherein the ultracapacitor comprises two electrode layers substantially placed in a spiral; and a layer of a porous electrical insulator between the two electrode layers. 14. A method of manufacturing a stiffened panel comprising a skin and at least one substantially elongated stiffener, said at least one stiffener comprising a groove placed in the longitudinal direction and forming a cavity with the skin, the stiffened panel comprising at least one storage device for storing and releasing electrical energy, the method comprising the steps of: successive layering of an electrode layer and a layer of a porous electric insulator; providing each electrode layers with a collector to collect electrical energy; connecting the collectors of a same pole to a hollow tube comprising an opening opposite said at least one storage device; injecting an electrolyte into the hollow tube to impregnate the electrode layers; plugging the hollow tube; filling the groove of said at least one stiffener with at least one storage device; and covering said at least one storage device with the skin, so that the groove of said at least one stiffener and the skin together form the cavity housing said at least one storage device. 15. The method as claimed in claim 14 , wherein said at least one storage device forms a core; and further comprising the step of draping the skin over the core. 16. The method as claimed in claim 15 , wherein said at least one stiffener comprises a composite material; and wherein the step of filling the groove of said at least one stiffener is performed with a pre-cured stiffener; and further comprising the step of curing a pre-cured stiffened panel. 17. The method as claimed in claim 14 , wherein the electrode layer and the layer of the porous electric insulator are successively layered substantially parallel to a surface of the skin forming the cavity with the groove of said at least one stiffener. 18. The method as claimed in claim 14 , further comprising the step of winding the successive layering around a core having a form substantially complementary to the cavity.