Company Filing History:
Years Active: 1995
Title: Kenneth A. Kousen – Innovator in Noise Cancellation Technology
Introduction
Kenneth A. Kousen is an accomplished inventor based in East Hartford, Connecticut. He has made significant contributions to the field of gas turbine technology, particularly in the area of noise reduction. With a keen focus on innovation, Kousen has been recognized for his expertise in creating solutions that enhance operational efficiency while minimizing disruptive noise.
Latest Patents
Kenneth A. Kousen holds one patent for his invention titled "Anti-sound arrangement for multi-stage blade cascade." This patent addresses the challenge of unwanted noise created by sequential blade rows in a gas turbine engine. The arrangement includes a variety of acoustic sources positioned on the blades of the downstream row, effectively cancelling out unwanted sound and improving the acoustic performance of the engine.
Career Highlights
Kousen's career spans a notable period at United Technologies Corporation, where he has leveraged his skills in innovation to drive advancements in gas turbine engine technology. His work has been pivotal in enhancing product designs that align with the industry's evolving demands for quieter and more efficient engines.
Collaborations
Throughout his career, Kenneth A. Kousen has collaborated with talented individuals such as John C. Simonich and Joseph M. Verdon. These partnerships have fostered a creative environment that encourages the exchange of ideas and has contributed to the successful development of cutting-edge technologies within their field.
Conclusion
Kenneth A. Kousen exemplifies the spirit of innovation through his work in gas turbine technology. His contributions, particularly in noise cancellation, highlight the importance of inventors in advancing modern engineering solutions. As he continues to collaborate with esteemed colleagues, Kousen remains a significant figure in the realm of inventions that aim to enhance both performance and user experience in complex systems.