Estimation device, estimation method, and non-transitory computer-readable recording medium for thickness of precipitate

What is claimed is: 1 . An estimation device comprising a controller that: acquires a first pipe surface temperature and a second pipe surface temperature, wherein the first pipe surface temperature is an outer surface temperature of a pipe at a precipitate generation position at which a precipitate is adhered to an inner surface of the pipe through which a fluid flows, and the second pipe surface temperature is the outer surface temperature of the pipe at a reference position different from the precipitate generation position, calculates an in-pipe fluid temperature that is a temperature of the fluid at the precipitate generation position based on the second pipe surface temperature, estimates a thickness of the precipitate based on the in-pipe fluid temperature and the first pipe surface temperature, and in a case where the precipitate is adhered to the inner surface at the reference position, further estimates a difference between the thickness of the precipitate at the reference position and the thickness of the precipitate at the precipitate generation position. 2 . The estimation device according to claim 1 , wherein the controller: acquires the first pipe surface temperature and the second pipe surface temperature with respect to the pipe transporting oil or gas produced from a winze, calculates the in-pipe fluid temperature of the oil or the gas based on the second pipe surface temperature, and estimates a thickness of hydrate, wax, asphaltene, or scale based on the in-pipe fluid temperature and the first pipe surface temperature. 3 . The estimation device according to claim 1 , wherein, when the controller acquires the second pipe surface temperature from reference positions of the pipe different from the precipitate generation position, the controller further calculates the in-pipe fluid temperature based on the second pipe surface temperature that is acquired from one of the reference positions in which a highest outer surface temperature is indicated. 4 . The estimation device according to claim 3 , wherein the controller: acquires the first pipe surface temperature and the second pipe surface temperature with respect to the pipe that transports oil or gas produced from a winze, calculates the in-pipe fluid temperature of the oil or the gas based on the second pipe surface temperature, and estimates a thickness of hydrate, wax, asphaltene, or scale based on the in-pipe fluid temperature and the first pipe surface temperature. 5 . The estimation device according to claim 1 , wherein the controller further calculates: a temperature difference between the fluid flowing through the reference position and the fluid flowing through the precipitate generation position based on the temperature of the fluid at the precipitate generation position where the precipitate is not adhered, a flow velocity of the fluid inside the pipe, and a distance between the reference position and the precipitate generation position, and the in-pipe fluid temperature based on the temperature difference. 6 . The estimation device according to claim 5 , wherein the controller: acquires the first pipe surface temperature and the second pipe surface temperature with respect to the pipe that transports oil or gas produced from a winze, calculates the in-pipe fluid temperature of the oil or the gas based on the second pipe surface temperature, and estimates a thickness of hydrate, wax, asphaltene, or scale based on the in-pipe fluid temperature and the first pipe surface temperature. 7 . The estimation device according to claim 5 , wherein, when the controller acquires the second pipe surface temperature from reference positions of the pipe different from the precipitate generation position, the controller further calculates the in-pipe fluid temperature based on the second pipe surface temperature that is acquired from one of the reference positions in which a highest outer surface temperature is indicated. 8 . The estimation device according to claim 7 , wherein the controller: acquires the first pipe surface temperature and the second pipe surface temperature with respect to the pipe that transports oil or gas produced from a winze, calculates the in-pipe fluid temperature of the oil or the gas based on the second pipe surface temperature, and estimates a thickness of hydrate, wax, asphaltene, or scale based on the in-pipe fluid temperature and the first pipe surface temperature. 9 . An estimation device comprising a controller that: acquires a first pipe surface temperature and a second pipe surface temperature, wherein the first pipe surface temperature is an outer surface temperature of a pipe at a precipitate generation position at which a precipitate is adhered to an inner surface of the pipe through which a fluid flows, and the second pipe surface temperature is the outer surface temperature of the pipe at a reference position different from the precipitate generation position, calculates an in-pipe fluid temperature that is a temperature of the fluid at the precipitate generation position based on the second pipe surface temperature, estimates a thickness of the precipitate based on the in-pipe fluid temperature and the first pipe surface temperature, further acquires a heat insulating material surface temperature that is an outer surface temperature of a heat insulating material that covers the pipe, further calculates the in-pipe fluid temperature based on the second pipe surface temperature, the heat insulating material surface temperature, and thermal resistance of each of the fluid, the pipe, and the heat insulating material, and further estimates the thickness of the precipitate at the precipitate generation position based on a thickness distribution of the precipitates that are associated with the in-pipe fluid temperature and the first pipe surface temperature. 10 . The estimation device according to claim 9 , wherein the controller: acquires the first pipe surface temperature and the second pipe surface temperature with respect to the pipe that transports oil or gas produced from a winze, calculates the in-pipe fluid temperature of the oil or the gas based on the second pipe surface temperature, and estimates a thickness of hydrate, wax, asphaltene, or scale based on the in-pipe fluid temperature and the first pipe surface temperature. 11 . The estimation device according to claim 9 , wherein, when the controller acquires the second pipe surface temperature from reference positions of the pipe different from the precipitate generation position, the controller further calculates the in-pipe fluid temperature based on the second pipe surface temperature that is acquired from one of the reference positions in which a highest outer surface temperature is indicated. 12 . The estimation device according to claim 11 , wherein the controller: acquires the first pipe surface temperature and the second pipe surface temperature with respect to the pipe that transports oil or gas produced from a winze, calculates the in-pipe fluid temperature of the oil or the gas based on the second pipe surface temperature, and estimates a thickness of hydrate, wax, asphaltene, or scale based on the in-pipe fluid temperature and the first pipe surface temperature. 13 . The estimation device according to claim 9 , wherein the controller further calculates: a temperature difference between the fluid flowing through the reference position and the fluid flowing through the precipitate generation position based on the temperature of the fluid at the precipitate generation position where the precipitate is not adhered, a flow veloc