We present a new I-V model for a long-channel surrounding-gate (SG) metal-oxide-semiconductor field-effect transistor (MOSFET). SG MOSFET is a strong candidate for next generation nanoscale devices due to a high electrostatic channel control, which in turn substantially reduces the short-channel effect. The new model takes into account quantum mechanical (QM) effects in the SG MOSFET using a double triangular QM well model in the strong inversion regime. In contrast with the old model, we consider the V-g dependence of the QM effect. New model yields excellent agreement with 2-D numerical simulation results for various radii and gate oxide thicknesses of the SG MOSFET.