Low Cost Hydrogen Storage at 875 Bar Using Steel Liners and Steel Wire Wraps | Zendy

Ashok Saxena | Zendy; Amit Prakash | Zendy; George Sharp | Zendy; W. H. Thomson | Zendy; T Hoelzer David | Zendy; Forrest Harless | Zendy; John Vain | Zendy; Ian Miller | Zendy; Vinod K. Nagpal | Zendy; Dan Peters | Zendy; Chris Tipple | Zendy; Jeffery Milligan | Zendy; Kevin A. Nibur | Zendy; Glen Romanoski | Zendy

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Low Cost Hydrogen Storage at 875 Bar Using Steel Liners and Steel Wire Wraps

Author(s) -

Ashok Saxena,

Amit Prakash,

George Sharp,

W. H. Thomson,

T Hoelzer David,

Forrest Harless,

John Vain,

Ian Miller,

Vinod K. Nagpal,

Dan Peters,

Chris Tipple,

Jeffery Milligan,

Kevin A. Nibur,

Glen Romanoski

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 - 10.2172/1494286

Subject(s) - pressure vessel , engineering , bar (unit) , boiler (water heating) , mechanical engineering , hydrogen storage , structural engineering , hydrogen , high pressure , materials science , composite material , waste management , chemistry , engineering physics , physics , organic chemistry , alloy , meteorology

The goal of this project is to develop a pressure vessel to safely store hydrogen at 875 bar with a safety factor of 3 or higher that also meets the DOE storage tank cost target of <$1,000/kg hydrogen (H2). The objectives are: • To wire wrap a standard American Society of Mechanical Engineers (ASME) approved, 406-mm diameter and 9.14-m long cylinder with a capacity of 765 liters rated at a pressure of 460 bar to boost its pressure capacity to 875 bar while maintaining a safety factor of 3 on the burst pressure.

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