Gas-insulated electrical apparatus, in particular gas-insulated transformer or reactor

The invention claimed is: 1. A fluid-insulated electrical apparatus, comprising: a housing enclosing an interior space, in which interior space an electrical component comprising at least one winding is arranged, at least a portion of the interior space defining an insulation space; an insulation fluid disposed within the insulation space and electrically insulating at least a part of the electrical component from the housing, the insulation fluid comprising a first organofluorine compound and a background gas, wherein the first organofluorine compound is selected from the group consisting of fluoroethers, fluoroketones, fluoroolefins, fluoronitriles, and mixtures thereof; a cooling element comprising a condenser, an evaporator and a cooling fluid to be circulated between the condenser and the evaporator, the evaporator being configured such that at least a part of the electrical component is immersed in the cooling fluid in its liquid state, thus being in direct contact with the cooling fluid, the cooling fluid consisting of second organofluorine compound selected from the group consisting of fluoroethers, fluoroketones, fluoroolefins, fluoronitriles, and mixtures thereof, wherein the cooling fluid is devoid of a background gas, wherein the insulation fluid has a first condensation temperature and the cooling fluid has a second condensation temperature lower than the first condensation temperature. 2. The electrical apparatus according to claim 1 , further comprising a fluid-insulated transformer, the electrical component comprising: at least two windings including a primary winding and a secondary winding; and a magnetic core. 3. The electrical apparatus according to claim 2 , wherein at least one winding of the at least two windings is at least partially immersed in the cooling fluid in its liquid state. 4. The electrical apparatus according to claim 1 , wherein the insulation fluid and the cooling fluid differ from each other in at least one of their composition or density. 5. The electrical apparatus according to claim 1 , wherein a condensation temperature is lower than a condensation temperature of the insulation fluid. 6. The electrical apparatus according to claim 1 , wherein the evaporator is surrounded by the insulation space and comprises an evaporator wall enclosing an evaporator interior space separated from the insulation space, said evaporator wall being impermeable for both the insulation fluid and the cooling fluid. 7. The electrical apparatus according to claim 1 , wherein the cooling fluid has a boiling point lower than a maximally allowed hotspot temperature at the at least one winding. 8. The electrical apparatus according to claim 1 , wherein the cooling fluid has a boiling point lower than 100° C., at a maximum pressure expected inside the electrical apparatus, during standard operation of the electrical apparatus. 9. The electrical apparatus according to claim 8 , wherein the maximum pressure expected inside the electrical apparatus, during standard operation of the electrical apparatus is 6 bar at most. 10. The electrical apparatus according to claim 1 , wherein the first organofluorine compound is selected from the group consisting of hydrofluoromonoethers, perfluoroketones, hydrofluoroolefins, and perfluoronitriles, and mixtures thereof, and wherein the second organofluorine compound is selected from the group consisting of hydrofluoromonoethers, perfluoroketones, hydrofluoroolefins, and perfluoronitriles, and mixtures thereof. 11. The electrical apparatus according to claim 1 , wherein the first organofluorine compound and the second organofluorine compound comprise the same organofluorine compound. 12. The electrical apparatus according to claim 1 , wherein the cooling fluid is at least approximately devoid of air or an air component. 13. The electrical apparatus according to claim 1 , wherein the background gas is selected from the group consisting of: air, an air component, nitrogen, oxygen, carbon dioxide, a nitrogen oxide, and mixtures thereof. 14. The electrical apparatus according to claim 1 , wherein a second pressure of the cooling fluid in the evaporator is at least approximately equal to a first pressure of the insulation fluid in the insulation space. 15. The electrical apparatus according to claim 1 , wherein the condenser is arranged outside of the apparatus, and is configured to transfer heat to the outside of the electrical apparatus. 16. The electrical apparatus according to claim 1 , further comprising an auxiliary cooling element allocated to the condenser. 17. The electrical apparatus according to claim 1 , further comprising a cooling fluid recirculation channel fluidically connecting the condenser and the evaporator, wherein the cooling fluid recirculation channel allows a flow of the condensed cooling fluid from the condenser in direction to the evaporator. 18. The electrical apparatus according to claim 17 , wherein the cooling fluid recirculation channel is disposed in a cooling fluid outlet region branching off from the condenser and arranged outside of the apparatus. 19. The electrical apparatus according to claim 1 , wherein the electrical apparatus comprises one of a gas-insulated transformer or a gas-insulated reactor. 20. The electrical apparatus according to claim 1 , wherein the cooling fluid forms a dielectric insulating material. 21. The electrical apparatus according to claim 1 , wherein the immersed part of the electrical component is a bare or barely insulated part configured to produce heat upon exposure to electric or magnetic fields. 22. The electrical apparatus according to claim 1 , wherein the cooling element comprises a heat sink. 23. The electrical apparatus according to claim 1 , further comprising means for creating a turbulent flow of the liquid cooling fluid inside the cooling element. 24. The electrical apparatus according to claim 23 , wherein the means are or are part of the immersed part of the electrical component. 25. A method of cooling a fluid-insulated electrical apparatus, comprising: a housing enclosing an interior space, in which interior space an electrical component comprising at least one winding is arranged, at least a portion of the interior space defining an insulation space; an insulation fluid disposed within the insulation space and electrically insulating at least a part of the electrical component from the housing, the insulation fluid comprising a first organofluorine compound and a background gas, wherein the first organofluorine compound is selected from the group consisting of fluoroethers, fluoroketones, fluoroolefins, fluoronitriles, and mixtures thereof; a cooling element comprising a condenser, an evaporator and a cooling fluid to be circulated between the condenser and the evaporator, the evaporator being configured such that at least a part of the electrical component is immersed in the cooling fluid in its liquid state, thus being in direct contact with the cooling fluid, the cooling fluid consisting of second organofluorine compound selected from the group consisting of fluoroethers, fluoroketones, fluoroolefins, fluoronitriles, and mixtures thereof, wherein the cooling fluid is devoid of a background gas, wherein the insulation fluid has a first condensation temperature and the cooling fluid has a second condensation temperature lower than the first condensation temperature, the method comprising: tran