Muhammad Asmizar
About Muhammad Asmizar
Muhammad Asmizar is an Instrumentation Engineer with experience at ExxonMobil, Transwater Metering Solutions, and Emerson Process Management. He holds a B.Eng (Hons) in Electrical Electronic Engineering from Universiti Teknologi PETRONAS.
Title
Muhammad Asmizar is an Instrumentation Engineer currently working at ExxonMobil.
Professional Experience
Muhammad Asmizar has extensive experience in instrumentation engineering. He is currently employed at ExxonMobil in Kuala Lumpur, Malaysia, where he began working in 2018. Prior to this, he worked at ExxonMobil in Singapore from 2018 to 2020. His tenure at Transwater Metering Solutions Sdn Bhd as a Project Engineer spanned 5 years, from 2013 to 2018. He also served as an Intern at Emerson Process Management in Subang Jaya, Selangor, for 7 months from 2010 to 2011.
Education and Expertise
Muhammad Asmizar completed his Bachelor of Engineering (Hons) in Electrical Electronic Engineering, specializing in Instrumentation and Control System, at Universiti Teknologi PETRONAS (UTP) from 2008 to 2012. He attended Sekolah Menengah Kebangsaan Anderson in Ipoh, Perak, from 2002 to 2006. His educational background equips him with a solid foundation in electrical and instrumentation engineering.
Notable Projects
During his tenure at ExxonMobil, Muhammad Asmizar developed an Equipment Strategy for both the Singapore and Fawley Refineries, focusing on long-term planning and spare part strategy for critical equipment instrumentation. He led a cost-optimization project for thermocouple sizing design at Antwerp Refinery. Additionally, he conducted a Risk Based Work Selection assessment for Fawley Refinery & Chemical Complex, identifying critical valves for Turn-Around activities. Other projects include preventive maintenance optimization at the FOS complex, implementing automated instrument fleet submission using PowerBI at the Singapore Complex, supporting wireless instrument applications for the Infineum Zhangjiagang Thermal Dispersant Project, and developing models to reduce unplanned capacity loss at the PJG-Gravechon and Sarnia Complexes.