As a multi-particle entangled state, W state is more robust than GHZ state, because even if one of the entangled particles is traced out or projected to a specific state, the remaining particles of W state are still entangled. In this paper, we propose a novel scheme to generate hybrid W state entanglement where three photons entangled in spin angular momentum (SAM), path (line momentum), and orbital angular momentum (OAM). Based on the hybrid entanglement W state, we present a probabilistic open-destination teleportation scheme, in which Alice can remotely control the OAM generation of Bob's photon. Different from the original teleportation, with certain probability, the specified state can be transmit to any photon of the multi-particle entanglement, and its information can be obtained from any individual DOF of OAM or linear momentum, depending on postprocessing. At last, we evaluate the performance of this scheme using quantum state tomography, and we find Bob's OAM state not only electrically tuned by Alice, but also depend on the linear momentum (path) of the W state and the polarization of Carol's photon.