Chilled clathrate transportation system

What is claimed is: 1. A pipeline system comprising: a transportation conduit containing a natural gas hydrate flowing from a first geographic location to a second geographic location; a cooling conduit extending longitudinally in the same directions as the transportation conduit, the transportation conduit being disposed exterior to and radially outward from the cooling conduit, the cooling conduit having a heat-transfer surface thermally coupled with the flowing natural gas hydrate, and containing a heat-transfer fluid flowing between the first geographic location and the second geographic location, the flowing heat-transfer fluid having a target temperature range predicted to maintain a selected stability of the flowing natural gas hydrate; a hydrate pump urging the flowing natural gas hydrate toward the second geographic location, wherein the hydrate pump includes a pressure controller configured to regulate the pressure of the contained natural gas hydrate flowing between the first geographic location and the second geographic location, the regulated pressure and the target temperature range predicted to maintain the selected stability of the natural gas hydrate flowing from the first geographic location to the second geographic location; a cooling system configured to cool the heat-transfer fluid to the target temperature range; a removal system configured to withdraw at least a portion of the heat-transfer fluid from the cooling conduit; and an injection system configured to introduce the withdrawn heat-transfer fluid into the cooling conduit after cooling of the withdrawn heat-transfer fluid by the cooling system. 2. The pipeline system of claim 1 , wherein the flowing natural gas hydrate includes a natural gas hydrate able to flow, capable of flowing, or being flowed through the transportation conduit. 3. The pipeline system of claim 1 , wherein the flowing natural gas hydrate includes a natural gas hydrate and a carrier fluid. 4. The pipeline system of claim 3 , wherein the carrier fluid includes water or a flowable hydrocarbon. 5. The pipeline system of claim 1 , wherein the flowing natural gas hydrate includes a flowing clathrate or semi-clathrate composition with H 2 O as a host molecule and a natural gas as a guest molecule. 6. The pipeline system of claim 1 , wherein the cooling conduit is located within the transportation conduit. 7. The pipeline system of claim 1 , wherein the cooling conduit and the transportation conduit share a common thermally conductive wall portion. 8. The pipeline system of claim 1 , wherein the heat-transfer fluid includes a flowable solid-liquid phase slurry. 9. The pipeline system of claim 1 , wherein the heat-transfer fluid includes a flowable ice-water slurry. 10. The pipeline system of claim 1 , wherein the heat-transfer fluid includes a flowable hydrocarbon fluid. 11. The pipeline system of claim 1 , wherein the heat-transfer fluid includes water. 12. The pipeline system of claim 1 , wherein the heat-transfer fluid and a carrier fluid of the natural gas hydrate are substantially the same material. 13. The pipeline system of claim 1 , wherein the target temperature range includes a temperature range predicted to maintain the selected stability of the flowing natural gas hydrate during a transit of a portion of the transportation conduit. 14. The pipeline system of claim 13 , wherein the target temperature range includes a temperature range predicted to maintain a decomposition rate of less than 10% of the flowing natural gas hydrate per 1000 km transit of the transportation conduit. 15. The pipeline system of claim 13 , wherein the target temperature range includes a temperature range predicted to maintain a decomposition rate of less than 1% of the flowing natural gas hydrate per 1000 km transit of the transportation conduit. 16. The pipeline system of claim 1 , wherein the target temperature range includes a temperature range predicted to maintain the flowing natural gas hydrate at least substantially within its hydrate stability range during transit of a portion of the transportation conduit. 17. The pipeline system of claim 1 , wherein the target temperature range includes a temperature range demonstrated to maintain the selected stability of the flowing natural gas hydrate during a transit of a portion of the transportation conduit. 18. The pipeline system of claim 1 , wherein the target temperature range includes a target temperature range (i) lower than the ambient temperature surrounding the transportation conduit and (ii) predicted to maintain the selected stability of the flowing natural gas hydrate. 19. The pipeline system of claim 1 , wherein the heat-transfer fluid is selected to absorb heat from the flowing natural gas hydrate and undergo a phase change. 20. The pipeline system of claim 1 , further comprising: an exhaust system configured to vent a portion of the heat-transfer fluid after the heat-transfer fluid has undergone a phase change. 21. The pipeline system of claim 1 , further comprising a return-conduit running between the second geographical location and the first geographical location, the return conduit containing a portion of the heat-transfer fluid withdrawn from the cooling conduit at the second geographical location and flowing the withdrawn heat-transfer fluid from the second geographical location toward the first geographical location. 22. The pipeline system of claim 1 , wherein the cooling system is powered at least in part by combustion of natural gas released by decomposition of the flowing natural gas hydrate contained in the transportation conduit. 23. The pipeline system of claim 1 , wherein at least a portion of the cooling conduit includes a capillary member configured to provide the flow of the heat-transfer fluid either from the first geographical location toward the second geographical location, or from the second geographical location toward the first geographical location. 24. The pipeline system of claim 1 , further comprising: a fluid pump urging the flowing of the heat-transfer fluid from the first geographical location toward the second geographical location, or from the second geographical location toward the first geographical location. 25. The pipeline system of claim 1 , further comprising: an insulating material thermally separating the transportation conduit from ambient temperature of the environment surrounding the transportation conduit. 26. The pipeline system of claim 1 , further comprising: a controller configured to control a pressure or temperature of the heat-transfer fluid. 27. A pipeline system comprising: a transportation conduit containing a natural gas hydrate flowing from a first geographic location to a second geographic location; a cooling conduit extending longitudinally in the same directions as the transportation conduit, the transportation conduit being disposed exterior to and radially outward from the cooling conduit, the cooling conduit having a heat-transfer surface thermally coupled with the flowing natural gas hydrate, and containing a heat-transfer fluid flowing between the first geographic location and the second geographic location, the flowing heat-transfer fluid having a target temperature range predicted to maintain a selected stability of the flowing natural gas hydrate; a pressure sensor responsive to a pressure of the natural gas hyd