Method of determining the thermal state of a substance in cold condition

The invention claimed is: 1. A method for determining a thermal state or a thermal state transition of a substance contained in a tank of an after-treatment system of an internal combustion engine, the thermal state being a solid phase, a liquid phase or a mixture of solid phase and liquid phase, the method comprising: determining a current thermal state of the substance based on a tank temperature (T_tank) and a time interval during which the engine has been switched off (t_EngineOff) when an internal combustion engine is switched on; calculating a percentage of the liquid phase based on a total mass of the substance in the tank (Total_Fluid), a heat amount supplied to the tank and a heat exchange of the tank with an external environment when the thermal state of the substance is a mixture of solid phase and liquid phase; and detecting a thermal state transition based on said tank temperature (T_tank), a time derivative of said tank temperature and said percentage of the liquid phase. 2. The method according to claim 1 , wherein determining a current thermal state of the substance is based on a comparison of the tank temperature (T_tank) and a fusion temperature (T_fusion), wherein the current thermal state is determined to be a solid phase when the tank temperature is less than the fusion temperature. 3. The method according to claim 1 , wherein determining a current thermal state of the substance is based on the tank temperature (T_tank), the fusion temperature (T_fusion) and the time during which the engine has been switched off (t_EngineOff), wherein the current thermal state is determined to be a mixture of solid phase and liquid phase when the tank temperature (T_tank) is equal to the fusion temperature (T_fusion) and the time during which the engine has been switched off (t_EngineOff) is smaller than a time threshold (t 1 ). 4. The method according to claim 3 , wherein determining a current state of a substances is based on the time during which the engine has been switched off (t_EngineOff) and a time threshold (t 1 ), the current thermal state of is determined to be a liquid phase when the time during which the engine has been switched off (t_EngineOff) is larger than the time threshold (t 1 ). 5. The method according to claim 1 , wherein when the current thermal state is a mixture of solid phase and liquid phase, the percentage of the liquid phase is calculated by: (i) summing the amount of heat supplied to the tank due to a heat exchange of the tank with the external environment, and the amount of heat supplied to the tank by means of a heating element to compute a sum; (ii) dividing said sum by a specific latent heat (Latent_specific) of said substance to compute a result; (iii) time integrating the result to compute an integral; and (iv) dividing said integral by a total mass of the substance in the tank (Total_Fluid) to compute the percentage of the liquid phase. 6. The method according to claim 5 , wherein an initial percentage of the liquid phase (Fluid_mass_thawed_init) when the internal combustion engine is switched on is determined by multiplying a prior percentage of the liquid phase (Fluid_mass_thawed_old) by a coefficient (K_EngOffCorr), wherein the coefficient is function of the time interval during which the engine is switched off (t_EngineOff) and the tank temperature (T_Tank). 7. The method according to claim 1 , wherein a thermal state transition from the solid phase to a mixture of solid phase and liquid phase is identified when the tank temperature is equal to said temperature threshold (T_fusion) and a time derivative of the tank temperature is equal to zero. 8. The method according to claim 1 , wherein a thermal state transition from a mixture of solid phase and liquid phase to a liquid phase is identified when the percentage of the liquid phase is higher than a first percentage threshold (totally_thawed threshold) of the liquid phase. 9. The method according to claim 1 , wherein a thermal state transition from a liquid phase to a mixture of solid phase and liquid phase is identified when the percentage of the liquid phase is lower than a second percentage threshold (partially_thawed threshold) of the liquid phase. 10. The method according to claim 1 , wherein a thermal state transition from a mixture of solid phase and liquid phase to a solid phase is identified when the tank temperature is lower than said temperature threshold (T_fusion). 11. The method according to claim 1 wherein the method is carried out by a computer program on an electronic control unit for an engine of an automotive system having a selective catalytic reduction system including a particulate filter. 12. The method according to claim 1 further comprising a computer program stored on a non-transitory computer readable medium having a computer-code suitable for performing the method.