Chung-Hsiung Chen

Title: Innovations of Chung-Hsiung Chen in Power Grid Solutions

Introduction

Chung-Hsiung Chen is a notable inventor based in Tao-Yuan, Taiwan. He has made significant contributions to the field of power systems, particularly in the area of power flow solutions. His innovative approach has led to the development of a unique method that enhances the efficiency of power grid management.

Latest Patents

Chung-Hsiung Chen holds a patent for a "Method of calculating power flow solution of a power grid that includes generalized power flow controllers." This method incorporates the steady-state model of the generalized power flow controller into a Newton-Raphson power flow algorithm. It adopts a flexible steady-state model that can be applied to calculate the power flow solution of a power grid embedded with various controllers, including STATCOM, UPFC, and GUPFC. The method focuses on incorporating the control variables of the shunt voltage sourced converter into the state vector of the algorithm. Notably, the increment of the state variables due to this incorporation is less than that of prior art, while preserving the quadratic convergence characteristic of the Newton-Raphson algorithm.

Career Highlights

Chung-Hsiung Chen is affiliated with Chang Gung University, where he continues to advance research in power systems. His work has garnered attention for its practical applications in modern power grids, making him a valuable asset to the academic and engineering communities.

Collaborations

Chung-Hsiung Chen has collaborated with esteemed colleagues such as Chia-Chi Chu and Sheng-Huei Lee. These partnerships have fostered a collaborative environment that enhances research and innovation in the field.

Conclusion

Chung-Hsiung Chen's contributions to power grid solutions exemplify the impact of innovative thinking in engineering. His patented method represents a significant advancement in the efficiency of power flow calculations, showcasing his expertise and dedication to the field.