Cindy Dewitte
About Cindy Dewitte
Cindy Dewitte is the High Pressure PE Facilities Planning & Licensing Principal Engineer at ExxonMobil, with a long career at the company in various engineering roles. She holds a Master of Science in Chemical Engineering from KU Leuven.
Current Role at ExxonMobil
Cindy Dewitte is currently serving as the High Pressure PE Facilities Planning & Licensing Principal Engineer at ExxonMobil, a role she has held since 2021. In this capacity, she is responsible for overseeing the planning and licensing of high-pressure polyethylene facilities. Her work ensures that these facilities operate efficiently and align with industry standards and internal policies.
Previous Experience at ExxonMobil
Cindy Dewitte has a long history with ExxonMobil, beginning in 2005. She has held various roles, including Operations Support Engineer, Process Engineer, APP Improve Engineer, MPP Improve Engineer, and AMPP Process Improve Engineer. Her broad experience across different engineering positions has given her a well-rounded perspective on process improvement and operational efficiency. Notably, she served as the HPPE Process Technologist from 2013 to 2021, where she specialized in high-pressure polyethylene processes.
Educational Background
Cindy Dewitte holds a Master of Science in Chemical Engineering from KU Leuven, where she studied from 2000 to 2005. The program, known as Burgerlijk Scheikundig Ingenieur, provided her with a strong foundation in chemical engineering principles, equipping her with the technical skills and knowledge necessary for her extensive career at ExxonMobil.
Roles in Polymer Plants
Throughout her tenure at ExxonMobil, Cindy Dewitte has worked in various polymer plants, including the Antwerp Polymers Plant and the Meerhout Polymers Plant. She has held engineering roles focused on process improvement and operational support. These positions include APP Improve Engineer, MPP Improve Engineer, and AMPP Process Improve Engineer. Her contributions have been integral to optimizing plant processes and enhancing production efficiency.