In this paper, a novel electromagnetic inertial mass damper (EIMD) is applied to realize the practical semi-active control of a real-life eccentrically braced high-rise building structure subjected to outward dynamic loads such as earthquake. Then, we present a feasible semi-active control strategy based on a linear quadratic regulator (LQR) active control algorithm. The coupled torsional responses of the structure with EIMDs are analyzed at different EIIMD installation positions. Finally, the feasibility and effectiveness of the new control strategy is demonstrated by its application to a real-life 24-story irregularly reinforced concrete frame-shear wall structure with EIMDs, for which the El Centro earthquake records are considered. The simulation results show that (1) the proposed semi-active control strategy is effective and feasible compared with the traditional active LQR control method, and (2) the torsional angle and torsional angle acceleration responses of the structure are obviously suppressed by optimizing the installation positions of the EIMDs.