Induction heating device and power generation system

The invention claimed is: 1. An induction heating device that heats a heating medium, comprising: a rotor having a rotation shaft; a heating part disposed to be opposed to said rotor at a distance; a magnetic flux generating part provided at said rotor to generate magnetic flux for said heating part; and a flow passage provided along said heating part to allow said heating medium to circulate, wherein said heating part is a tubular member provided on an outer circumferential side of said rotor, said magnetic flux generating part generates said magnetic flux in a radial direction of said rotor, said flow passage is provided spirally in an axial direction of said heating part and has an inlet to supply said heating medium on one side in said axial direction along said heating part and an outlet to discharge said heating medium on the other side, said inlet being provided on one side in the axial direction of said heating part, said outlet being provided on the other side, a distance between said magnetic flux generating part and said heating part is larger on said outlet side than on said inlet side of said flow passage, and said flow passage is formed such that a distance between adjacent said flow passage is smaller on said outlet side than on said inlet side. 2. The induction heating device according to claim 1 , wherein said flow passage is formed such that a contact area with said heating part is larger on said outlet side than on said inlet side. 3. The induction heating device according to claim 1 , wherein said rotation shaft is connected to a wind turbine. 4. A power generation system comprising: the induction heating device of claim 1 ; and a power generating part configured to convert heat of said heating medium heated by said induction heating device into electric energy. 5. An induction heating device that heats a heating medium, comprising: a rotor having a rotation shaft; a heating part disposed to be opposed to said rotor at a distance; a magnetic flux generating part provided at said rotor to generate magnetic flux for said heating part; and a flow passage provided along said heating part to allow said heating medium to circulate, wherein said flow passage has an inlet to supply said heating medium on one side in a direction along said heating part and an outlet to discharge said heating medium on the other side, and said flow passage is formed such that a contact area with said heating part is larger on said outlet side than on said inlet side, and a distance between said magnetic flux generating part and said heating part is larger on said outlet side than on said inlet side of said flow passage. 6. The induction heating device according to claim 5 , wherein said heating part is a tubular member provided on an outer circumferential side of said rotor, said magnetic flux generating part generates said magnetic flux in a radial direction of said rotor, and said flow passage is provided spirally in an axial direction of said heating part, said inlet being provided on one side in the axial direction of said heating part, said outlet being provided on the other side. 7. The induction heating device according to claim 5 , wherein said rotation shaft is connected to a wind turbine. 8. A power generation system comprising: the induction heating device of claim 5 ; and a power generating part configured to convert heat of said heating medium heated by said induction heating device into electric energy. 9. The induction heating device according to claim 1 , wherein said rotor has a conical outer circumferential surface and said heating part has a conical inner circumferential surface corresponding to said conical outer circumferential surface of said rotor, and the induction heating device further comprises an axial movement mechanism that moves at least one of said rotor and said heating part in said axial direction of said heating part. 10. The induction heating device according to claim 5 , wherein said rotor has a conical outer circumferential surface and said heating part has a conical inner circumferential surface corresponding to said conical outer circumferential surface of said rotor, and the induction heating device further comprises an axial movement mechanism that moves at least one of said rotor and said heating part in said axial direction of said heating part.