The invention relates to a pipeline for carrying a molten salt, with a pipe wall that is stable with respect to the temperatures occurring. A heating conductor (21) is provided inside the pipeline (5) for heating, the heating conductor (21) preferably not lying against the inner wall of the pipeline
The invention relates to a pipeline for carrying a molten salt, with a pipe wall that is stable with respect to the temperatures occurring. A heating conductor (21) is provided inside the pipeline (5) for heating, the heating conductor (21) preferably not lying against the inner wall of the pipeline (5).
대표청구항▼
1. A pipeline for carrying a molten salt comprising a pipe wall that is stable with respect to the temperatures occurring, a heating conductor disposed inside the pipeline for heating, the heating conductor preferably not lying against the inner wall of the pipeline, wherein the heating conductor is
1. A pipeline for carrying a molten salt comprising a pipe wall that is stable with respect to the temperatures occurring, a heating conductor disposed inside the pipeline for heating, the heating conductor preferably not lying against the inner wall of the pipeline, wherein the heating conductor is designed in the form of a tube or a channel of any desired cross section and openings are formed in the wall of the tube or channel, or wherein the heating conductor is designed as an annular knit or weave, or wherein the heating conductor has at least one u-shaped or v-shaped depression extending in the axial direction. 2. The pipeline according to claim 1 wherein the heating conductor is arranged off-center in the pipeline, the distance of the heating conductor in the downward direction being greater than in the upward direction in the case of a length of pipe running with a maximum gradient of 45 °. 3. The pipeline according to claim 1, wherein the heating conductor is arranged centrally in the pipeline if the pipeline has a gradient of more than 45 °. 4. The pipeline according to claim 1, wherein the heating conductor is passed through eyelets in the pipeline through which the molten salt flows. 5. The pipeline according to claim 4, wherein an insulator is applied to the heating conductor and the heating conductor is attached with the insulator in the eyelet. 6. The pipeline according to claim 1, wherein the heating conductor is attached by resilient spacers inside the pipeline. 7. The pipeline according to claim 1, wherein the heating conductor is provided with loops, which are suspended in attachment hooks in order to attach the heating conductor in the pipeline. 8. The pipeline according to claim 1, wherein the heating conductor is designed in the form of a tube or a channel of any desired cross section and openings are formed in the wall of the tube or channel. 9. The pipeline according to claim 1, wherein the heating conductor is designed as an annular knit or weave. 10. The pipeline according to claim 1, wherein the heating conductor has at least one u-shaped or v-shaped depression extending in the axial direction. 11. The pipeline according to claim 1, wherein the pipeline comprises an inner pipe, through which the molten salt flows. 12. The pipeline according to claim 1, wherein the heating conductor is divided into heating conductor segments, the heating conductor segments being connected with low electrical resistance. 13. The pipeline according to claim 12, wherein the length of the heating conductor segments corresponds to the length of one or more segments of the pipeline. 14. The pipeline according to claim 1, wherein the pipeline is divided into individual segments. 15. The pipeline according to claim 1, wherein the pipeline is a pipeline in a solar array of a parabolic-trough solar power plant. 16. The pipeline according to claim 1, wherein pipe bends for flow deflection each have a pipeline section that continues in the direction of the pipeline, the pipeline section being closed by a closure and the heating conductor being passed through the closure of the pipeline section. 17. The pipeline according to claim 16, wherein the closure of the pipeline section is configured as a blind flange. 18. The pipeline according to claim 1, wherein the surface material for the heating conductor is chosen from high-grade steel that is corrosion-resistance to nitrate. 19. The pipeline according to claim 1 wherein the heating conductor is provided in the pipeline in an uninsulated manner. 20. The pipeline according to claim 19, wherein the heating conductor is produced from a number of tubes filled with a material of good electrical conductivity. 21. The use of a molten salt comprising sodium nitrate and potassium nitrate, the proportion of sodium nitrate being at least 60% by weight, as a heat transfer medium in a solar power plant, wherein the solar power plant comprises at least one pipeline according to claim 1.
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이 특허에 인용된 특허 (3)
Beran Anthony V. ; Shigezawa Gordon ; Minch Morris, Medical air hose internal flow heater.
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