A heating system for heating a fluid pipe in an industrial process system includes at least one gas tank fluidically connected to a first catalyst via a gas supply pipe. A first pipe heating zone is fluidically connected to the first catalyst via a first hot gas pipe. The first pipe heating zone has
A heating system for heating a fluid pipe in an industrial process system includes at least one gas tank fluidically connected to a first catalyst via a gas supply pipe. A first pipe heating zone is fluidically connected to the first catalyst via a first hot gas pipe. The first pipe heating zone has at least one passage extending along a first portion of the fluid pipe, in thermal contact with the fluid pipe.
대표청구항▼
1. A heating system for heating a fluid pipe in an industrial process system, the heating system comprising: at least one gas tank;a first catalyst fluidically connected to the at least one gas tank via a gas supply pipe so as to catalyze a hot gas;a first pipe heating zone fluidically connected to
1. A heating system for heating a fluid pipe in an industrial process system, the heating system comprising: at least one gas tank;a first catalyst fluidically connected to the at least one gas tank via a gas supply pipe so as to catalyze a hot gas;a first pipe heating zone fluidically connected to the first catalyst via a first hot gas pipe, wherein the first pipe heating zone comprises at least one passage extending along a first portion of the fluid pipe, in thermal contact with the fluid pipe, and wherein the at least one passage is physically adjacent to an exterior surface of the fluid pipe;a heat transfer medium positioned inside the fluid pipe; anda solar receiver, the fluid pipe directing the heat transfer medium downstream from the first pipe heating zone to the solar receiver to absorb solar rays. 2. The heating system of claim 1, wherein the heat transfer medium comprises a molten salt. 3. The heating system of claim 1, wherein the industrial process system comprises a concentrated solar power generation system. 4. The heating system of claim 1, wherein the at least one gas tank comprises a gas tank for holding Tridyne. 5. The heating system of claim 1, wherein the at least one gas tank comprises a first gas tank for holding air and a second gas tank for holding fuel selected from a group consisting of hydrogen and methane. 6. The heating system of claim 5, and further comprising: at least one valve between the first tank, the second tank, and the first catalyst. 7. The heating system of claim 1, wherein the at least one passage spirals around the fluid pipe. 8. The heating system of claim 1, wherein the at least one passage comprises a plurality of passages spaced substantially symmetrically around the fluid pipe, and wherein each of the plurality of passages are physically adjacent the exterior surface of the fluid pipe. 9. The heating system of claim 1, wherein the at least one passage comprises an annular passage concentric with the fluid pipe, wherein an outer surface of the fluid pipe comprises an inner surface of the annular passage. 10. The heating system of claim 1, and further comprising: a layer of insulation covering the first pipe heating zone and the fluid pipe. 11. The heating system of claim 1, wherein the first catalyst is positioned near the first pipe heating zone, the heating system further comprising: a second catalyst fluidically connected to the at least one gas tank and positioned near a second pipe heating zone, wherein the second pipe heating zone comprises at least one passage extending along a second portion of the fluid pipe, in thermal contact with the fluid pipe; anda third catalyst fluidically connected to the at least one gas tank and positioned near a third pipe heating zone, wherein the third pipe heating zone comprises at least one passage extending along a third portion of the fluid pipe, in thermal contact with the fluid pipe. 12. The heating system of claim 1, wherein the at least one passage is provided by a tube, and wherein the tube directly contacts an exterior surface of the fluid pipe. 13. A method for heating a fluid pipe in an industrial process system, the method comprising: flowing a gaseous mixture across a catalyst bed;catalyzing the gaseous mixture to create a hot gas;flowing the hot gas that has been catalyzed through the fluid pipe;flowing a fluid through the fluid pipe to heat the fluid through direct contact with the hot gas; andflowing the fluid to a solar receiver for absorbing solar rays. 14. The method of claim 13, wherein the fluid comprises a molten salt. 15. The method of claim 13, and further comprising: mixing a fuel from a first tank with air from a second tank to create the gaseous mixture, wherein the fuel is selected from a group consisting of hydrogen and methane. 16. The method of claim 13, and further comprising: venting the hot gas from the fluid pipe to the atmosphere while maintaining substantially all of the fluid in the fluid pipe.
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