Company Filing History:
Years Active: 2020-2022
Title: Innovations by Mario Dante Jardiel in Renewable Energy
Introduction
Mario Dante Jardiel is an accomplished inventor based in Singapore, SG. He has made significant contributions to the field of renewable energy, particularly in the operation and control of power plants. With a total of 2 patents to his name, Jardiel's work focuses on enhancing the stability and efficiency of renewable power systems.
Latest Patents
Jardiel's latest patents include a method for adaptive control of networked renewable power plants. This innovative method involves identifying predetermined voltage conditions and controlling the renewable power plant to maintain zero reactive power exchange at the bus for a specified period. By calculating the average voltage level achieved during this period, the renewable power plant can maintain its voltage output at a set level, ensuring grid stability. Another notable patent relates to reactive power control in wind power plants. This method measures voltage levels at the interconnection point between the power transmission network and the power plant, calculating a reactive power exchange limit to ensure that it is not exceeded.
Career Highlights
Mario Dante Jardiel is currently employed at Vestas Wind Systems A/S, a leading company in the wind energy sector. His work at Vestas focuses on developing innovative solutions that enhance the performance and reliability of renewable energy systems. Jardiel's expertise in power plant control has positioned him as a key player in advancing renewable energy technologies.
Collaborations
Jardiel collaborates with talented professionals in his field, including Manoj Gupta and Janakiraman Sivasankaran. These collaborations foster a dynamic environment for innovation and problem-solving in renewable energy.
Conclusion
Mario Dante Jardiel's contributions to renewable energy through his patents and work at Vestas Wind Systems A/S highlight his commitment to advancing sustainable technologies. His innovative methods for controlling power plants play a crucial role in ensuring the stability and efficiency of renewable energy systems.