Caroline Bruneel Delhaye

Title: Caroline Bruneel Delhaye: Innovator in Alcohol Beverage Control Technology

Introduction

Caroline Bruneel Delhaye is a notable inventor based in Saint Selve, France. She has made significant contributions to the field of alcohol beverage control technology, holding 2 patents that showcase her innovative spirit and technical expertise.

Latest Patents

Her latest patents include a portable device for controlling an alcoholic beverage through a container, along with a system and method associated with it. This invention provides a portable device and method for controlling an alcoholic beverage through an at least partially transparent container. The method involves acquiring a fluorescence spectrum of the beverage through the container's wall, normalizing the measured spectrum profile, calculating a resemblance factor, and determining the beverage's authenticity based on this factor. Another patent details a portable device that includes a single light source emitting a monochromatic excitation light beam, a beam splitter, a focus and collection lens, and a positioning device. This device is designed to orient the light beam along a direction substantially normal to the container's outer surface, ensuring accurate measurement and analysis of the beverage.

Career Highlights

Throughout her career, Caroline has worked with prominent companies such as Pernod Ricard and Université de Bordeaux. Her experience in these organizations has allowed her to develop and refine her innovative ideas in the field of beverage technology.

Collaborations

Caroline has collaborated with notable individuals in her field, including Pascal Marc Brunerie and Katia Gouret. These partnerships have contributed to her success and the advancement of her inventions.

Conclusion

Caroline Bruneel Delhaye is a pioneering inventor whose work in alcohol beverage control technology has the potential to revolutionize the industry. Her patents reflect her commitment to innovation and her ability to address real-world challenges.