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For a wind turbine, an electromagnetically shielding nacelle cover is formed of a composite material which can comprise, for example, an outer layer made of a fiber material or fiber mats such as glass fiber mats and an interposed foam layer. A conductor layer, for example a mesh, a woven fabric or

For a wind turbine, an electromagnetically shielding nacelle cover is formed of a composite material which can comprise, for example, an outer layer made of a fiber material or fiber mats such as glass fiber mats and an interposed foam layer. A conductor layer, for example a mesh, a woven fabric or a coating made of conductive material is integrated between the fiber layers of the composite material to provide electromagnetic shielding of the nacelle. The conductor layer is also connected, or can be connected, directly or indirectly, to at least one conductive structure that is applied to the outside of the nacelle cover.

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1. Nacelle cover for a nacelle of a wind turbine having a tower and at least one rotor blade, wherein the nacelle is rotatably mounted on the tower,wherein the nacelle comprises a nacelle cover having at least an outer layer and an inner layer,and wherein a conductor layer for electromagnetic shield

1. Nacelle cover for a nacelle of a wind turbine having a tower and at least one rotor blade, wherein the nacelle is rotatably mounted on the tower,wherein the nacelle comprises a nacelle cover having at least an outer layer and an inner layer,and wherein a conductor layer for electromagnetic shielding of the nacelle is integrated into the nacelle cover, said nacelle cover comprising: the conductor layer for electromagnetic shielding of the nacelle, which is arranged to be substantially completely integrated into the nacelle cover, in such a way that the conductor layer is protected from corrosion, and the life time of the conductor layer is increased,a conductor element, which is electrically connected to the conductor layer, wherein the conductor layer is directly or indirectly connected with at least one conductive structure, which can be arranged on an outer side or inner side of the nacelle cover, via the conductor element, and wherein the conductor layer and the conductor element are so configured and are so connected with each other and are so connectable with the at least one conductive structure, that via this a lightning current can be diverted from a structure mounted on the outer side of the nacelle cover and/or an electrical potential equalization between at least two of the at least one conductive structure arranged on the outer side or inner side of the nacelle cover is made possible, andan adapter, on which the conductor element is arranged in such a manner that the adapter has an electrically conductive connection cross-section with the conductor layer, said adapter comprising a connecting element for connecting the at least one conductive structure, andan adapter plate configured as the conductor element,which are respectively made of conductive material, and said connecting element is electrically conductively connected with the adapter plate and said adapter plate is electrically conductively connected with the conductor layer. 2. Nacelle cover according to claim 1, wherein the adapter plate is arranged between the outer layer and the inner layer, and the connecting element projects through the outer layer or the inner layer. 3. Nacelle cover for a nacelle of a wind turbine having a tower and at least one rotor blade, wherein the nacelle is rotatably mounted on the tower,wherein the nacelle comprises a nacelle cover having at least an outer layer and an inner layer,and wherein a conductor layer for electromagnetic shielding of the nacelle is integrated into the nacelle cover, said nacelle cover comprising: the conductor layer for electromagnetic shielding of the nacelle, which is arranged to be substantially completely integrated into the nacelle cover, in such a way that the conductor layer is protected from corrosion, and the life time of the conductor layer is increased,a conductor element, which is electrically connected to the conductor layer, wherein the conductor layer is directly or indirectly connected with at least one conductive structure, which can be arranged on an outer side or inner side of the nacelle cover, via the conductor element, and wherein the conductor layer and the conductor element are so configured and are so connected with each other and are so connectable with the at least one conductive structure, that via this a lightning current can be diverted from a structure mounted on the outer side of the nacelle cover and/or an electrical potential equalization between at least two of the at least one conductive structure arranged on the outer side or inner side of the nacelle cover, is made possible, and wherein: the conductor element is arranged at least partially between the outer layer and the inner layer and projects through the outer layer or the inner layer, andthe adapter comprises a connecting element for connection of the at least one conductive structure and an adapter plate, which are respectively made of conductive material, the connecting element is electrically conductively connected with the adapter plate and the adapter plate is electrically conductively connected with the conductor element of the conductor layer, and the adapter plate is arranged on the outer side or on the inner side.