Electric cables for solar plants generating electrical and thermal energy, and plants comprising the electrical cables

The invention claimed is: 1. A composite flat cable for a solar plant for generating electrical energy and thermal energy having in cross-section a major side, the cable comprising: an outer sheath; first and second main electrical conductors; and first and second ducts configured to circulate fluid; wherein the first and second ducts are between the first and second main electrical conductors in an inner position with respect to a corresponding end of the major side of the cable, wherein the first duct is alongside the first main electrical conductor, wherein the second duct is alongside the second main electrical conductor, wherein both of the first and second ducts comprise a corrugated tube, and wherein both of the first and second ducts further comprise a silicone layer in a radially outer position with respect to the corrugated tube. 2. The cable of claim 1 , wherein the first and second ducts are directly between the first and second main electrical conductors. 3. A composite flat cable having in cross-section a major side, the cable comprising: an outer sheath; first and second main electrical conductors; first and second ducts configured to circulate fluid; and at least one secondary electrical conductor; wherein the first and second ducts are between the first and second main electrical conductors in an inner position with respect to a corresponding end of the major side of the cable, wherein the at least one secondary electrical conductor is between the first and second ducts, wherein both of the first and second ducts comprise a corrugated tube, and wherein both of the first and second ducts further comprise a silicone layer in a radially outer position with respect to the corrugated tube. 4. The cable of claim 1 , wherein the outer sheath is based on cross-linked ethylene/vinyl acetate copolymer. 5. The cable of claim 1 , wherein both of the first and second main electrical conductors comprise a conductive core including a plurality of copper conductors. 6. The cable of claim 5 , wherein the conductive core is a class 5 conductor according to the EN 60228 2004-11 standard. 7. A solar cogeneration plant, comprising: at least one cell configured to produce electric current, connected to a plant for distribution of electrical energy and of heated fluid by a composite flat cable, having in cross-section a major side, the cable comprising: an outer sheath; first and second main electrical conductors; and first and second ducts configured to circulate fluid; wherein the first and second ducts are between the first and second main electrical conductors in an inner position with respect to a corresponding end of the major side of the cable. 8. The cable of claim 1 , wherein an outer diameter of the first and second main electrical conductors is substantially the same as an outer diameter of the first and second ducts. 9. The cable of claim 1 , wherein the first duct is configured to carry fluid to be heated, and wherein the second duct is configured to carry heated fluid. 10. The cable of claim 3 , wherein the first duct is in a proximity of the first main electrical conductor, and wherein the second duct is in a proximity of the second main electrical conductor. 11. The cable of claim 3 , wherein the first duct is alongside the first main electrical conductor, and wherein the second duct is alongside the second main electrical conductor. 12. The cable of claim 3 , wherein the first and second ducts are directly between the first and second main electrical conductors. 13. The cable of claim 3 , wherein the outer sheath is based on cross-linked ethylene/vinyl acetate copolymer. 14. The cable of claim 3 , wherein both of the first and second main electrical conductors comprise a conductive core including a plurality of copper conductors. 15. The cable of claim 14 , wherein the conductive core is a class 5 conductor according to the EN 60228 2004-11 standard. 16. The cable of claim 3 , wherein an outer diameter of the first and second main electrical conductors is substantially the same as an outer diameter of the first and second ducts.