Alison Chambers

Title: Innovations by Alison Chambers

Introduction

Alison Chambers is a notable inventor based in Garden City, MI (US). She has made significant contributions to the field of automotive emissions reduction, holding 2 patents that showcase her innovative spirit and technical expertise.

Latest Patents

One of her latest patents is the "Pre-injection exhaust flow modifier." This invention is an exhaust gas treatment system designed to reduce emissions from an engine. It includes an exhaust conduit that supplies an exhaust stream from the engine to an exhaust treatment device. The conduit features an aperture through which a reagent is injected into the exhaust stream. A flow modifier is strategically positioned within the exhaust conduit upstream of the injector, incorporating a diverter that increases the velocity of the exhaust gas at a predetermined location relative to the injected reagent.

Another significant patent is the "Method and apparatus for injecting atomized fluids." This invention outlines methods and apparatus for injecting reagents, such as an aqueous urea solution, into an exhaust stream to reduce emissions. The design utilizes a whirl plate with multiple whirl slots surrounding the exit orifice of an injector. This configuration produces a high-velocity rotating flow in the whirl chamber, leading to effective atomization of the reagent as it enters the exhaust stream.

Career Highlights

Alison Chambers is currently employed at Tenneco Automotive Operating Company Inc., where she continues to develop innovative solutions for the automotive industry. Her work focuses on enhancing engine performance while minimizing environmental impact.

Collaborations

Alison has collaborated with notable colleagues, including Stephen M Thomas and Scott M Martin, who contribute to her projects and innovations.

Conclusion

Alison Chambers exemplifies the spirit of innovation in the automotive sector, with her patents reflecting a commitment to reducing emissions and improving engine efficiency. Her contributions are vital in the ongoing effort to create cleaner and more efficient automotive technologies.