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Master Thesis in Life Cycle Assessment of HV Maritime Battery Systems(m/w/x)
Analyzing battery degradation impact on HV maritime systems, comparing to static LCA. Life Cycle Assessment competence, including Circularity and EOL, required. Remote work available, diverse projects with practical relevance.
Anforderungen
- Master's program enrollment in mechanical engineering, materials science, environmental science, or related field
- Life Cycle Assessment competence including Circularity and EOL
- Knowledge of battery technology and degradation
- Interest in energy systems
- Knowledge of Maritime systems and operations (plus)
Aufgaben
- Analyze battery degradation mechanisms' impact on HV maritime batteries
- Compare degradation mechanisms to static LCA approaches
- Assess environmental benefits of second-life HV battery applications
- Account for real degradation and failure uncertainties in second-life analysis
- Identify key environmental hotspots in HV maritime battery systems
- Determine operational drivers influencing lifetime impacts
- Optimize system design to reduce lifetime impacts
Ausbildung
- Laufendes Studium
Sprachen
- Englisch – verhandlungssicher
Benefits
Flexibles Arbeiten
- Remote work available upon agreement
Abwechslungsreiche Aufgaben
- Diverse projects with practical relevance
Lockere Unternehmenskultur
- Collaborative work environment
- Supportive team
- Creative environment
Karriere- und Weiterentwicklung
- Pathway to research career
Sinnstiftende Arbeit
- Responsible roles for skill expansion
Moderne Technikausstattung
- State-of-the-art technology
Mentoring & Coaching
- Academic guidance for thesis
Sonstige Vorteile
- Practical insights for thesis
- Diversity and inclusion promotion
- Support for applicants with disabilities
Master Thesis in Life Cycle Assessment of HV Maritime Battery Systems(m/w/x)
Analyzing battery degradation impact on HV maritime systems, comparing to static LCA. Life Cycle Assessment competence, including Circularity and EOL, required. Remote work available, diverse projects with practical relevance.
Anforderungen
- Master's program enrollment in mechanical engineering, materials science, environmental science, or related field
- Life Cycle Assessment competence including Circularity and EOL
- Knowledge of battery technology and degradation
- Interest in energy systems
- Knowledge of Maritime systems and operations (plus)
Aufgaben
- Analyze battery degradation mechanisms' impact on HV maritime batteries
- Compare degradation mechanisms to static LCA approaches
- Assess environmental benefits of second-life HV battery applications
- Account for real degradation and failure uncertainties in second-life analysis
- Identify key environmental hotspots in HV maritime battery systems
- Determine operational drivers influencing lifetime impacts
- Optimize system design to reduce lifetime impacts
Ausbildung
- Laufendes Studium
Sprachen
- Englisch – verhandlungssicher
Benefits
Flexibles Arbeiten
- Remote work available upon agreement
Abwechslungsreiche Aufgaben
- Diverse projects with practical relevance
Lockere Unternehmenskultur
- Collaborative work environment
- Supportive team
- Creative environment
Karriere- und Weiterentwicklung
- Pathway to research career
Sinnstiftende Arbeit
- Responsible roles for skill expansion
Moderne Technikausstattung
- State-of-the-art technology
Mentoring & Coaching
- Academic guidance for thesis
Sonstige Vorteile
- Practical insights for thesis
- Diversity and inclusion promotion
- Support for applicants with disabilities
Über das Unternehmen
Fraunhofer-Gesellschaft
Branche
Research
Beschreibung
Das Unternehmen ist eine der führenden Organisationen für anwendungsorientierte Forschung mit 76 Instituten in Deutschland.