Scott Dyson
About Scott Dyson
Scott Dyson is an Electrical Process Technician at ExxonMobil with extensive experience in switchgear operations and maintenance across various voltage systems.
Current Role at ExxonMobil
Scott Dyson has been serving as an Electrical Process Technician at ExxonMobil in Newport, United Kingdom, since 2016. His responsibilities include overseeing the maintenance and operational integrity of electrical systems in the refinery. His role involves extensive work in switchgear operations and maintenance across low voltage (LV), medium voltage (MV), and high voltage (HV) systems, ensuring smooth and safe plant operation.
Previous Experience at npower and Murco Petroleum Limited
Before his tenure at ExxonMobil, Scott Dyson worked at npower as an Electrical Craftsperson from 2015 to 2016. Prior to npower, he spent five years at Murco Petroleum Limited as an Electrical Technician from 2009 to 2014. In these roles, Scott gained valuable experience in AC/DC maintenance on both live and dead systems, contributing significantly to the commissioning activities and project completions in refining and power industries during shutdown and running plant periods.
Educational Background and Certifications
Scott Dyson's technical foundation is established through his comprehensive education at Pembrokeshire College, where he achieved multiple qualifications from 2007 to 2013. These include NVQ 3 in Maintaining Plant & Systems Engineering, CompEx certification, a Double Distinction in NC Electrical & Electronic Engineering, and an HNC in Power Systems. Additionally, he completed an Apprenticeship in Power & Electrical Systems at Murco Petroleum. He also holds OPITO-approved BOSIET, MIST, and CA-EBS certifications, ensuring his compliance with industry safety standards.
Expertise in Electrical Systems Maintenance
Scott Dyson's expertise in switchgear operations and maintenance is extensive, covering a range of low voltage (LV), medium voltage (MV), and high voltage (HV) systems. His skills include AC/DC maintenance on permitted live and dead systems, which are critical for ensuring operational efficiency and safety in both power and refinery industries. His practical experience is complemented by his theoretical knowledge acquired through various educational programs and certifications.