Method for removing a turbofan engine using a heating device

The invention claimed is: 1. A method for dismantling a twin-spool turbofan including a front fan, a high pressure (HP) module including a high pressure (HP) rotor, a low pressure (LP) turbine module including a low pressure (LP) turbine and a low pressure (LP) turbine shaft, and an intermediate casing including a bearing for supporting the HP rotor, the HP rotor being retained in the bearing by a connecting nut, the method comprising: removing LP turbine module to provide access to the connecting nut; once the LP turbine module, with the LP turbine shaft, has been removed, introducing a guiding tube into a central space left free by the LP turbine module such that an end of the guiding tube is level with the connecting nut; heating the connecting nut with a heating device; after heating the connecting nut, introducing a rear unscrewing tool for unscrewing the connecting nut; and applying an unscrewing torque to the rear unscrewing tool, the unscrewing torque being maintained at a predetermined value below that at which forces applied on teeth of the connecting nut by the rear unscrewing tool would risk damaging the teeth of the connecting nut, wherein the method further comprises, in a case of an unsuccessful attempt of dismantling via the rear unscrewing tool, removing the fan so as to free up the connecting nut in a forward direction, heating the connecting nut, and putting a front unscrewing tool in place for applying an unscrewing torque to the connecting nut, wherein the heating device includes a heating unit arranged at a first end of a hollow tube which produces a flow of hot air which directed toward holes at a second end of the hollow tube, wherein the heating includes inserting the heating device into the guiding tube and turning the heating device on so that the flow of hot air is blown toward the connecting nut via the holes, and wherein a temperature of the connecting nut does not exceed 130° C. during the heating. 2. The method as claimed in claim 1 , wherein the front unscrewing tool comprises a tubular element including teeth of a shape complementary with a shape of teeth of the connecting nut. 3. The method as claimed in claim 2 , wherein the tubular element of the front unscrewing tool is placed in a support attached to a casing of the engine, the support forming a contact point for applying the unscrewing torque. 4. The method as claimed in claim 1 , wherein the rear unscrewing tool comprises a tube and a plurality of fingers which are retractable between a position in which the plurality of fingers is housed within the tube and a position in which the plurality of fingers deployed radially to come into contact with teeth of the connecting nut. 5. The method as claimed in claim 1 , further comprising, after the removing the LP turbine module, preventing the HP rotor from rotating by engaging a tubular element in a space left free by the LP turbine module and which is attached at a first end to a casing of the HP module and which is secured in rotation at a second end with the HP rotor. 6. The method as claimed in claim 1 , further comprising, before applying an unscrewing torque, ascertaining that the connecting nut has not seized by applying a break-action torque wrench calibrated to a maximum permitted torque on a pinion of the tool for unscrewing the connecting nut and determining if the break-action torque wrench is able to rotate the pinion without folding. 7. The method as claimed in claim 1 , wherein the heating device includes a trolley on which the hollow tube is mounted.