Heat transport system and transportation machine

The invention claimed is: 1. A heat transport system incorporated into a transportation machine, comprising: a loop heat pipe charged with a working fluid, the loop heat pipe including: an evaporator that changes at least a part of the working fluid from a liquid phase into a gas phase by heat absorbed from a heat source, a condenser located above the evaporator to change the working fluid from the gas phase into the liquid phase, a vapor conduit connecting an outlet of the evaporator and an inlet of the condenser, and a liquid conduit connecting an outlet of the condenser and an inlet of the evaporator; a pump disposed in the liquid conduit or the vapor conduit to exert a circulation drive force on the working fluid; a tilt sensor that detects a tilt of the loop heat pipe; a temperature sensor that detects a temperature of the heat source; and a controller that controls operation of the pump, wherein: the working fluid in the liquid conduit flows from the condenser to the evaporator without being subjected to an action of the pump when the pump is at rest, and is forced to flow from the condenser to the evaporator under the action of the pump when the pump is running, the controller is configured to: run the pump if the tilt is greater than a predetermined tilt threshold and the temperature of the heat source is higher than a predetermined first temperature threshold; stop the pump if the tilt is greater than the predetermine tilt threshold and the temperature of the heat source is equal to or lower than the first temperature threshold; run the pump if the tilt is equal to or smaller than the predetermined tilt threshold and the temperature of the heat source is higher than a predetermined second temperature threshold; and stop the pump if the tilt is equal to or smaller than the predetermined tilt threshold and the temperature of the heat source is equal to or lower than the second temperature threshold, and the first temperature threshold is lower than the second temperature threshold. 2. The heat transport system according to claim 1 , wherein the liquid conduit includes a bypass conduit through which the working fluid flows to bypass the pump. 3. The heat transport system according to claim 1 , wherein the working fluid is a temperature-sensitive magnetic fluid, and the pump includes a magnet that applies a non-uniform magnetic field to the working fluid flowing in the liquid conduit and a heater that heats the working fluid magnetized by the applied magnetic field. 4. The heat transport system according to claim 1 , wherein the pump includes a tank located in the liquid conduit and a heater located inside the tank or upstream of the tank in a flow direction of the working fluid, and the pump exerts the circulation drive force on the working fluid by a pressure of a vapor resulting from heating by the heater. 5. A transportation machine comprising: a heat-generating element; and the heat transport system according to claim 1 , wherein the evaporator of the heat transport system uses the heat-generating element as a heat source to evaporate the working fluid. 6. The transportation machine according to claim 5 , further comprising: an outer panel exposed to an external fluid; and an interior wall located inward of the outer panel, wherein the condenser is located in a cooling chamber defined between the outer panel and the interior wall. 7. The transportation machine according to claim 5 , further comprising: a fuel tank, wherein the condenser is located in a liquid phase contained in the fuel tank.