Hydrogen Storage in Small Size Hollow Microspheres

Zhang, Zhan Wen; Chen, Su Fen; Liu, Yi Yang; Lin, Shan; Liu, Mei-Fang; Qi, Xiao bo; Li, Bo

doi:10.4028/www.scientific.net/amr.512-515.1395

Cited by 2 publications

(1 citation statement)

References 2 publications

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“…The hydrogen storage micromechanism of HGM can be precisely managed through the above formula. − Therefore, several essential parameters significantly impact the hydrogen storage performance of HGMs. These include the ratio of radius to wall thickness of the glass microspheres, permeability, porosity, , the number of nanopores, , and the distribution of different components .…”

Section: Development Of Glass Microspheresmentioning

confidence: 99%

Advancements in Solid-State Hydrogen Storage: A Review on the Glass Microspheres

Zhang,

Zhou,

et al. 2024

Langmuir

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Glass microspheres, with their unique internal structure and chemical stability, offer a promising solution for the challenges of hydrogen storage and transmission, potentially advancing the utility of hydrogen as a safe and efficient energy source. In this review, we systematically evaluate various treatment and modification strategies, including fusion, sol−gel, and chemical vapor deposition (CVD), and compare the performance of different types of glass microspheres. Our synthesis of current research findings reveals that specific low-cost and environmentally friendly modification techniques can significantly enhance the hydrogen storage efficiency of glass microspheres, with some methods increasing storage capacity by up to 32% under certain conditions. Through a detailed life-cycle and cost-benefit assessment, our study highlights the economic and sustainability advantages of using modified glass microspheres. For example, selected alternative materials used in lightweight vehicles have been shown to reduce density by approximately 10% while reducing costs. This review not only underscores the contributions of modified glass microspheres to overcoming the limitations of current hydrogen storage technologies but also provides a systematic framework for improving their performance in hydrogen storage applications. Our research suggests that modified glass microspheres could help to make hydrogen energy more commercially viable and environmentally friendly.

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Section: Development Of Glass Microspheresmentioning

confidence: 99%

Advancements in Solid-State Hydrogen Storage: A Review on the Glass Microspheres

Zhang,

Zhou,

et al. 2024

Langmuir

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Cyclic Dehydrogenation–(Re)Hydrogenation with Hydrogen‐Storage Materials: An Overview

2015

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Hydrogen‐storage materials (HSMs) have especially revolutionized the field of “hydrogen storage” by offering a relatively safe storage alternative and high gravimetric hydrogen density. However, a critical challenge is storage reversibility. This is the central tenet of the present article, which discusses ways to close the hydrogen cycle with solid‐ and liquid‐phase HSMs. A distinction between the different HSMs is made on the basis of the approach under which they can be rehydrogenated; this led to the proposition of distribution in three categories: one, materials allowing reversible storage of H2; two, hydrogen carriers for which the byproducts must be recycled; three, sustainable hydrogen carriers with which the hydrogen cycle is considered as being byproduct free. From our analysis, supported by many examples, it seems that the hydrogen cycle can be closed with all of the HSMs discussed herein and that the dehydrogenation/rehydrogenation paths depend on their nature.

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Hydrogen Storage in Small Size Hollow Microspheres

Cited by 2 publications

References 2 publications

Advancements in Solid-State Hydrogen Storage: A Review on the Glass Microspheres

Advancements in Solid-State Hydrogen Storage: A Review on the Glass Microspheres

Cyclic Dehydrogenation–(Re)Hydrogenation with Hydrogen‐Storage Materials: An Overview

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