Blockchain-Driven Transformation of the Green Hydrogen Supply Chain
Blockchain-Driven Transformation of the Green Hydrogen Supply Chain
The global push towards sustainable energy solutions has made green hydrogen a critical component of the clean energy landscape. The green hydrogen supply chain faces multifaceted challenges spanning production, distribution, and accountability. Traditional supply chain systems often struggle to meet the demands for transparency, security, and efficiency in this emerging industry. This thesis proposal seeks to investigate how blockchain technology can be leveraged to fundamentally transform the green hydrogen supply chain, addressing these challenges and advancing the adoption of green hydrogen as a viable energy carrier. This proposal research aims to explore how blockchain technology can enhance the green hydrogen supply chain in multiple facets. It seeks to establish a secure and transparent system for certification and traceability, empower stakeholders with real-time supply chain data to improve transparency, optimize grid integration for efficient distribution, automate processes through blockchain-based smart contracts, and investigate the potential for decentralized energy trading. These objectives will collectively contribute to a more efficient, secure, and sustainable green hydrogen supply chain.
Holder of a master's degree/engineering degree in artificial intelligence, applied mathematics, statistics, computer science. Motivated candidate with a strong background in programming languages such as Python and Java.
Application
Curriculum vitae, letter of motivation, final project proposal, diplomas, and transcripts.
Working conditions: The doctoral candidate will engage in full-time research at Euromed University.
Please send the application to n.rouky@ueuromed.org before Novembre 09, 2023.