This paper presents a novel concept of hybrid energy transfer considering the multipurpose utilization of liquefied shale gas (LSG), liquefied nitrogen (LN2) and superconducting DC cable (DC SC). For the hybrid energy generation, shale gas (SG) mined from the shale gas areas is used to produce a part of LSG through a series of SG liquefiers, a part of electric power through a series of SG generators and a part of LN2 through a series of gas nitrogen (GN2) liquefiers. For the hybrid energy transfer, two types of coaxial-type and axis-aligned-type pipe arrangements are proposed and discussed. In addition, considering the heat leakage from the cryogenic LN2 to room-temperature environment, structural design and consideration of intermediate LN2-supply and GN2-decompression channel distributed along with the long-distance hybrid energy transfer system are also presented.