Amani Ramli
About Amani Ramli
Amani Ramli is a Process Contact Engineer at ExxonMobil specializing in Sulfuric Acid Alkylation and Higher Olefins, with a background in chemical engineering from the University of Michigan.
Current Role at ExxonMobil
Amani Ramli has been serving as a Process Contact Engineer specializing in Sulfuric Acid Alkylation and Higher Olefins at ExxonMobil since 2019. Based in the Flemish Region of Belgium, Amani's role has included the coordination of design and execution plans for unit optimizations. Notably, she executed a fractionation tower water wash online within 1.5 months, resulting in an estimated annual savings of $500,000.
Previous Employment at Faurecia
In 2018, Amani Ramli worked as a Production Operations Co-Op at Faurecia in Ann Arbor, Michigan. Although her tenure at Faurecia was brief, lasting just one month, this position provided her with valuable experience in production operations and industry-standard practices.
Research Experience at University of Michigan
From 2016 to 2018, Amani Ramli worked as a Research Assistant at the University of Michigan College of Engineering. During this period, she engaged in various research projects, honing her skills in chemical engineering. Her experience in academic research contributed significantly to her expertise in the field.
Education Background
Amani Ramli completed her Bachelor's degree in Chemical Engineering from the University of Michigan College of Engineering, studying from 2015 to 2018. Before that, she attended INTEC Education College, focusing on the American Transfer Credit Program for one year from 2014 to 2015. Her educational background laid a strong foundation for her career in chemical engineering.
Technical Projects and Initiatives
Throughout her career, Amani Ramli has been involved in several technical projects and initiatives. She developed self-designed dashboards using SeeQ to improve unit optimization and routine task efficiency. Additionally, she created a prediction tool using JMP for Higher Olefins reboiler performance, which enhanced mechanical resource management. Her role also entailed leading a team to improve water management practices and assuming responsibilities as a Treat Gas/Fuel Gas engineer, performing simulations for refinery balances during shutdowns and startups.