Kin Meng Chan

Title: Innovations by Kin Meng Chan in Hydrocarbon Fuel Technology

Introduction

Kin Meng Chan is a notable inventor based in Kuala Lumpur, Malaysia. He has made significant contributions to the field of hydrocarbon fuel technology, particularly in methods that enhance the cetane number of diesel fuels. With two patents to his name, Chan's work focuses on innovative mixing techniques that improve fuel efficiency and performance.

Latest Patents

Chan's latest patents include a method and system for oxidatively increasing the cetane number of hydrocarbon fuel. This innovative approach utilizes high-energy ultrasonic mixing of a hydrocarbon feedstock and reactants, which consist of an oxidation source, acid, and optional catalyst. The process creates cavitation through the formation and violent collapse of micron-sized bubbles, significantly increasing the reactivity of the reactants. This method results in a liquid hydrocarbon product with a substantially higher cetane number compared to conventional mixing processes, such as simple mechanical stirring. Additionally, an aqueous mixture of water and acid can be pretreated with ozone or another oxidizer using ultrasonic cavitation before reacting with the hydrocarbon feedstock, promoting beneficial cetane-increasing reactions while minimizing the formation of water-soluble sulfones.

Career Highlights

Chan is currently associated with Cetamax Ventures Ltd., where he continues to develop and refine his innovative techniques in hydrocarbon fuel technology. His work has garnered attention for its potential to revolutionize fuel production and improve environmental outcomes.

Collaborations

Chan collaborates with talented individuals such as Kamalul Arifin Yusof and Shahrul Niza Bin Abdul Rahim, contributing to a dynamic team focused on advancing fuel technology.

Conclusion

Kin Meng Chan's innovative methods for increasing the cetane number of hydrocarbon fuels represent a significant advancement in fuel technology. His contributions are poised to enhance fuel efficiency and reduce environmental impact, marking him as a key figure in the field.