Hydrogen Adsorbents with High Volumetric Density: New Materials and System Projections | Zendy

Donald J. Siegel | Zendy; Alauddin Ahmed | Zendy; Yiyang Liu | Zendy; Adam J. Matzger | Zendy; Justin Purewal | Zendy; Antek G. WongFoy | Zendy; Mike Veenstra | Zendy; Saona Seth | Zendy

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Hydrogen Adsorbents with High Volumetric Density: New Materials and System Projections

Author(s) -

Donald J. Siegel,

Alauddin Ahmed,

Yiyang Liu,

Adam J. Matzger,

Justin Purewal,

Antek G. WongFoy,

Mike Veenstra,

Saona Seth

Publication year - 2019

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Reports

DOI - 10.2172/1502953

Subject(s) - gravimetric analysis , hydrogen storage , adsorption , process engineering , commercialization , materials science , hydrogen , throughput , fuel cells , chemical engineering , nanotechnology , computer science , chemistry , organic chemistry , engineering , telecommunications , political science , law , wireless

The outcomes of this project contribute to the optimization and assessment of hydrogen storage materials, and also provide input to models that project the performance of these materials at the system level. Insights gained from this study can be applied towards the development of materials that attempt to meet the DOE 2020 and ultimate hydrogen storage targets, which are summarized in Table 1. The ultimate success of this project rests upon developing MOFs that out-perform the baseline MOF-5 adsorbent. Therefore, Table 1 also summarizes the materials-level hydrogen capacity of single-crystal MOF-5 and compares against the best adsorbent identified by this project to-date, isoreticular metal organic framework (IRMOF)-20.

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