Company Filing History:
1 out of 832,880 Years Active: 2003
Title: **Innovative Mind: The Contributions of Randall L. Peeters**
Introduction
Randall L. Peeters, based in El Dorado Hills, CA, is an inventor who has made significant strides in the field of thermodynamic engineering. With a focus on improving the efficiency of Stirling engines, his innovative ideas have the potential to transform energy applications.
Latest Patents
Peeters holds a patent for a unique invention titled "Stirling engine having platelet heat exchanging elements". This groundbreaking patent introduces heat exchanging elements made from multiple platelets that are stacked and joined together. The innovative design permits Stirling engines to operate more efficiently by enhancing heat transfer and combustion processes. Notably, the patent describes various embodiments, including multi-stage combustion and the ability to utilize different types of fuels. Additionally, the invention allows for the reception of solar energy to heat the working gas in a Stirling engine. A versatile approach is also provided for the heat exchanging method, enabling multiple fluids to flow in opposing or the same direction.
Career Highlights
Over the course of his career, Randall L. Peeters has focused on technological innovations that push the boundaries of conventional engine designs. His work on the platelet heat exchanging elements is a testament to his dedication to enhancing energy efficiency and sustainability within engineering.
Collaborations
Throughout his career, Peeters has collaborated with talented professionals such as Joseph P. Maceda and Felix F. Chen. Their combined expertise and innovative spirits foster an environment of creativity and a sharing of ideas that drives engineering advancements forward.
Conclusion
Randall L. Peeters stands out in the landscape of inventors, showcasing a commitment to innovation through his patent in the field of Stirling engines. As technology continues to evolve, his contributions may play a crucial role in shaping the future of energy efficiency and resource utilization.