Sun-to-Wheel Study Using the Hogen Electrolyzer and Heliocentris MHS (Metal Hydride Storage) Canister
Tiran Ghukasyan's MS Thesis, completed at Cal State LA, provides an in-depth exploration of the Sun-to-Wheel study. The study makes use of the Hogen Electrolyzer in conjunction with Heliocentris MHS (Metal Hydride Storage) Canisters to efficiently store and utilize hydrogen fuel for renewable energy applications. This work contributes significantly to the advancement of sustainable energy systems and technologies.
Key Areas of Research
- Hogen Electrolyzer: Central to the study is the Hogen Electrolyzer, which generates hydrogen through electrolysis, using solar energy.
- Metal Hydride Storage (MHS) Canister: The use of the Heliocentris MHS canister allows for safe and efficient storage of hydrogen, crucial for renewable energy solutions.
Research Goals and Findings
The thesis aims to analyze the efficiency of hydrogen production, storage, and utilization in an integrated Sun-to-Wheel system. The research outcomes include:
- Efficient Energy Conversion: Demonstrating the conversion of solar energy into usable hydrogen fuel, ensuring low energy loss during the process.
- Sustainable Storage Solutions: MHS Canisters provide a reliable solution for storing hydrogen with minimal environmental impact.
Conclusion
The Sun-to-Wheel study presented by Tiran Ghukasyan emphasizes the importance of integrating renewable energy production with sustainable storage solutions. By leveraging hydrogen fuel, this research contributes to the ongoing effort to create cleaner, greener energy infrastructures.