Gaby Bennett
About Gaby Bennett
Gaby Bennett is a Process Engineer with experience in the alumina and aluminium industries, currently working at Hatch in Brisbane, Australia. She holds a Master of Engineering and a Bachelor of Engineering from The University of Queensland and is dedicated to decarbonisation and reducing environmental impacts in her field.
Work at Hatch
Gaby Bennett has been employed at Hatch as a Process Engineer since 2021. In this role, she focuses on optimizing processes within the alumina and aluminium industries. Her work contributes to the company's objectives of enhancing efficiency and sustainability in engineering practices. Based in Brisbane, Queensland, Australia, she applies her expertise to support projects that align with the industry's shift towards low carbon solutions.
Education and Expertise
Gaby Bennett holds a Master of Engineering (MEng) in Chemical & Environmental Engineering from The University of Queensland, which she completed from 2018 to 2019. Prior to this, she earned a Bachelor of Engineering (BE) in the same field from 2015 to 2018. Her educational background equips her with a strong foundation in engineering principles, particularly in relation to environmental considerations and sustainable practices in the alumina and aluminium sectors.
Background
Gaby Bennett has accumulated diverse experience in the alumina and aluminium industries. She began her career as a Vacation Student at Rio Tinto in Yarwun, Queensland, where she worked for four months in 2017. Following this, she served as a Student Engineer at APA Group in Brisbane from 2018 to 2019. She then transitioned to Rio Tinto as a Graduate Process Engineer from 2020 to 2021, gaining valuable insights into operational processes before joining Hatch.
Passion for Decarbonisation
Gaby Bennett is dedicated to the decarbonisation of the alumina and aluminium industries. She emphasizes the importance of these materials as critical resources for a low carbon future. Her work and research focus on minimizing the environmental impact associated with their production and use, reflecting her commitment to sustainable engineering practices.