1. Solid air hydrogen liquefaction, the missing link of the hydrogen economy.
- Author
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Hunt, Julian David, Montanari, Pedro Marin, Hummes, Diego Nieto, Taghavi, Masoud, Zakeri, Behanm, Romero, Oldrich Joel, Zhou, Wenji, Freitas, Marcos Aurélio Vasconcelos de, José de Castro, Nivalde, Schneider, Paulo Smith, and Wada, Yoshihide
- Subjects
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HYDROGEN economy , *HYDROGEN as fuel , *LIQUID hydrogen , *HYDROGEN , *SUSTAINABLE development , *FUEL cell vehicles - Abstract
The most challenging aspect of developing a green hydrogen economy is long-distance oceanic transportation. Hydrogen liquefaction is a transportation alternative. However, the cost and energy consumption for liquefaction is currently prohibitively high, creating a major barrier to hydrogen supply chains. This paper proposes using solid nitrogen or oxygen as a medium for recycling cold energy across the hydrogen liquefaction supply chain. When a liquid hydrogen (LH2) carrier reaches its destination, the regasification process of the hydrogen produces solid nitrogen or oxygen. The solid nitrogen or oxygen is then transported in the LH2 carrier back to the hydrogen liquefaction facility and used to reduce the energy consumption cooling gaseous hydrogen. As a result, the energy required to liquefy hydrogen can be reduced by 25.4% using N 2 and 27.3% using O 2. Solid air hydrogen liquefaction (SAHL) can be the missing link for implementing a global hydrogen economy. • The energy required to liquefy hydrogen reduces by 25.4% with N 2 and 27.3% with O 2. • Solid O 2 is a better hydrogen liquefaction energy carrier than solid N 2. • Solid N 2 is selected as the energy carrier due to the risk explosion using O 2. • The solid N 2 occupies 44.5% of the liquid H 2 tank volume. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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