Microscale Enhancement of Heat and Mass Transfer for Hydrogen Energy Storage | Zendy

Kevin J. Drost | Zendy; Goran Jovanović | Zendy; Brian K. Paul | Zendy

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Microscale Enhancement of Heat and Mass Transfer for Hydrogen Energy Storage

Author(s) -

Kevin J. Drost,

Goran Jovanović,

Brian K. Paul

Publication year - 2015

Language(s) - English

Resource type - Reports

DOI - 10.2172/1225296

Subject(s) - microscale chemistry , hydrogen storage , microchannel , thermal energy storage , modular design , materials science , heat exchanger , process engineering , mass storage , heat transfer , mass transfer , hydrogen , environmental science , nanotechnology , mechanical engineering , chemistry , computer science , engineering , thermodynamics , physics , mathematics education , mathematics , organic chemistry , operating system

The document summarized the technical progress associated with OSU’s involvement in the Hydrogen Storage Engineering Center of Excellence. OSU focused on the development of microscale enhancement technologies for improving heat and mass transfer in automotive hydrogen storage systems. OSU’s key contributions included the development of an extremely compact microchannel combustion system for discharging hydrogen storage systems and a thermal management system for adsorption based hydrogen storage using microchannel cooling (the Modular Adsorption Tank Insert or MATI).

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