Patent attributes
A magnetocaloric heat generator having an assembly of at least two magnetocaloric modules with a heat transfer fluid flowing through them. The cold ends of the modules are in fluidic communication via a cold transfer circuit and the hot ends are in fluidic communication via a hot transfer circuit. The cold transfer circuit is arranged so that the fluid exiting the cold end of one of the magnetocaloric modules with an exit temperature enters the cold end of the other magnetocaloric module with an entry temperature that is substantially equal to the temperature of the cold end. The hot transfer circuit modifies the temperature of the fluid so that the fluid exiting the hot end of one of the magnetocaloric modules with an exit temperature enters the hot end of the other magnetocaloric module with an entry temperature that is substantially equal to the temperature of the hot end.
