Michel Malengret

Title: Michel Malengret: Innovator in Power Network Technologies

Introduction

Michel Malengret is a notable inventor based in Cape Town, South Africa. He has made significant contributions to the field of power networks, holding a total of 3 patents. His work focuses on improving the efficiency of power injection and extraction processes within electrical networks.

Latest Patents

One of his latest patents is titled "Frequency domain-based determination of currents for injection into a power network." This invention provides a system and method for determining currents for injection into or extraction from a power network. The method involves compiling Thèvenin parameter data structures for voltage, resistance, and inductance at a point of common coupling. It also includes calculating offset values to satisfy physical constraints associated with the network, ultimately reducing total electrical transmission losses.

Another significant patent is "Methods and systems for power injection or extraction in a power network." This invention outlines a method for obtaining Thèvenin parameters and calculating optimal currents for power injection or extraction. The method ensures that the current injected or extracted aligns with the specific power requirements at the point of common coupling.

Career Highlights

Michel has worked at prestigious institutions such as the University of Cape Town and Curtin University of Technology. His academic and professional experiences have greatly influenced his innovative approaches to power network technologies.

Collaborations

Throughout his career, Michel has collaborated with notable individuals, including Charles Trevor Gaunt and Chemmangot V Nayar. These collaborations have contributed to the advancement of his research and inventions.

Conclusion

Michel Malengret's contributions to power network technologies demonstrate his commitment to innovation and efficiency. His patents reflect a deep understanding of electrical systems and a desire to enhance their performance.