Tropical Storm Toraji (2013) is a rare case that formed near Taiwan and is involved with a mid-level cyclonic circulation which is a remnant of Tropical Storm Kong-Rey (2013). When Kong-Rey (2013) was moving northward to the offshore of the eastern Taiwan on Aug 28, 2013, its low- and mid-level cyclonic circulation decoupled due to the strong vertical wind shear. The low-level circulation kept moving northward, while the mid-level circulation moved west-northward and across the central mountain range of Taiwan. The mid-level circulation moved to the northern Taiwan Strait and had become stationary for 1 to 2 days. After then, the incipient vortex of Tropical Storm Toraji formed in the region. The major purpose of this study is to disuss the influence of the mid-level circulation on the formation of Tropical Strom Toraji and the mechanism. The piecewise potential vorticity inversion (PPVI) method was applied to figure out the contribution of the mid-level cyclonic circulation to the low-level wind field under quasi-balanced condition. In addition, sensitivity numerical experiments designed to remove the mid-level circulation by different removing factors had also been conducted. The results of PPVI showed that the mid-level positive PV anomalies had the most contribution to the low-level positive vorticity before the formation of the low-level circulation of Toraji’s incipient vortex. Besides, the sensitivity experiments showed that when the removing factor was increased, there was a declining trend of the intensity of low-level perturbation, and the intensity of convection systems in the region of the mid-level circulation also became weaker and developed late. Moreover, the simulations whose the mid-level circulation was totally removed showed that no significant convection system developed, so that no low-level perturbation formed. The analyses showed that the mid-level circulation provided a favorable environment for convection and led to the formatio of Toraji. As a result, the mid-level circulation played a critical role in the formation of Toraji.