Aaron Greenberg
About Aaron Greenberg
Aaron Greenberg is a Project Engineer 2 at Booth & Associates, LLC, specializing in electric system studies for utilities and solar plants. He has expertise in various analyses, including Transient Overvoltage and System Impact Studies, and holds a Bachelor of Science in Electronics Engineering from Penn State Erie.
Work at Booth & Associates
Aaron Greenberg currently holds the position of Project Engineer 2 at Booth & Associates, LLC, a role he has occupied since 2019. In this capacity, he develops comprehensive electric system studies for utilities and solar plants. His work includes conducting AC & DC Arc Flash and Load Flow/Reactive Power Analysis. Prior to this role, he served as Project Engineer 1 at the same company from 2016 to 2018, where he gained foundational experience in electric system studies.
Education and Expertise
Aaron Greenberg earned a Bachelor of Science degree in Electronics Engineering from Penn State Erie, the Behrend College, completing his studies from 2012 to 2016. He also pursued studies in Computer Engineering during his time at the same institution. His educational background provides a strong foundation for his expertise in electric system performance optimization, including specialized studies such as Transient Overvoltage and System Impact Studies.
Background
Before joining Booth & Associates, Aaron Greenberg worked as a System Planning Intern at Smeco from 2014 to 2016. This internship provided him with practical experience in system planning, contributing to his understanding of electric systems. His career has been primarily based in Raleigh, North Carolina, where he has developed his skills in electric system studies and analysis.
Technical Skills and Studies
Aaron Greenberg specializes in various technical areas, including Ampacity and Impedance Calculations, Thermal Loading Analysis, and Protection and Coordination for electric cooperatives. He performs advanced studies such as Voltage Flicker, Harmonics, and Short Circuit Analysis, which are essential for enhancing electric system reliability and performance.