Master Thesis Opportunity at HIF GlobalLife Cycle Assessment (LCA) of eFuel Production PlantsAtHIF Global, we make possible the impossible: turning air, water, and renewable energy into carbon-neutral fuels that will decarbonize the world's most challenging sectors. As pioneers of e-Fuels, we are committed to building a cleaner and more sustainable future—today.We are offering aMaster Thesis projectfor students passionate about sustainability, renewable energy, and the science behind global transformation. This project will focus on performing acomprehensive Life Cycle Assessment (LCA)of e-Fuel production plants currently under development at HIF.Scope of the ThesisAs global demand for sustainable fuels accelerates, e-Fuels are becoming a vital solution to decarbonize hard-to-abate sectors such as aviation, shipping and transportation.Regulatory frameworks, especially in the EU, are setting strict certification standards for renewable fuels of non-biological origin.In this thesis, you will:Conduct life cycle assessments (LCA) of HIF's eFuel production projects.Develop models for different plant configurations (e.g., biomass, direct air capture).Analyze regulatory compliance and identify certification challenges .Recommend strategies to optimize LCA outcomes for certification and scalability.What You Will DoExplore cutting-edge regulatory requirements for eFuels.Build and validate LCA models for different scenarios.Provide actionable insights into how HIF can strengthen certification readiness.Contribute to a pioneering field at the intersection of technology, sustainability, and global energy transformation.Your ProfileWe are looking for a motivated student who brings curiosity, analytical rigor, and a passion for sustainability:Academic background in Environmental Engineering, Chemical Engineering, or a related field .Experience with LCA methodologies and software (advantage).Strong analytical and problem-solving skills.Fluent in English (German is a plus, not mandatory).Why HIF?At HIF, you'll be part of a team that is shaping the future of energy. This thesis gives you the chance to:Work on real, large-scale projects that will transform global mobility.Apply your knowledge to one of the fastest-growing areas of renewable energy.Gain exposure to a global, multicultural environment driven by innovation and purpose.