Curtin University Homepage
  • Library
  • Help
    • Admin

    espace - Curtin’s institutional repository

    JavaScript is disabled for your browser. Some features of this site may not work without it.
    View Item 
    • espace Home
    • espace
    • Curtin Research Publications
    • View Item
    • espace Home
    • espace
    • Curtin Research Publications
    • View Item

    Application of multiphase heat transfer for efficient hydrogen storage and recovery

    Access Status
    Fulltext not available
    In process
    Authors
    Nadim, Nima
    Chandratilleke, Tilak T
    Mathew, Arun
    Date
    2024
    Type
    Book Chapter
    
    Metadata
    Show full item record
    Source Title
    Hydrogen energy conversion and management
    DOI
    10.1016/B978-0-443-15329-7.00011-9
    ISBN
    978-0-443-15329-7
    Faculty
    Faculty of Science and Engineering
    School
    School of Civil and Mechanical Engineering
    WASM: Minerals, Energy and Chemical Engineering
    URI
    http://hdl.handle.net/20.500.11937/96862
    Collection
    • Curtin Research Publications
    Abstract

    This book chapter provides a technical review of the current practice in hydrogen storage and recovery using metal hydride (MH) reactor beds at various operating temperatures. Thermo-chemical processes involved are carefully examined and appraised while identifying practical challenges and performance limitations. Potential enhancements to the current MHs-based hydrogen storage and recovery practice are illustrated through comparative studies of heat transfer media undergoing melting/solidification coupled with low temperature bed reaction and those of heat transfer media subjected to boiling/condensation with high temperature bed reaction. These outcomes identify the merits of multiphase mechanisms for effective thermal management and enhanced performance of hydrogen storage/recovery systems with MH reactor beds.

    Related items

    Showing items related by title, author, creator and subject.

    • Storage of Hydrogen at 303 K in Graphite Slitlike Pores from Grand Canonical Monte Carlo Simulation
      Kowalczyk, Poitr; Tanaka, H.; Holyst, R.; Kaneko, K.; Ohmori, T.; Miyamoto, J. (2005)
      Grand canonical Monte Carlo (GCMC) simulations were used for the modeling of the hydrogen adsorption in idealized graphite slitlike pores. In all simulations, quantum effects were included through the Feynman and Hibbs ...
    • Hydrogen storage studies of mesoporous and titanium based materials
      Sheppard, Drew A (2008)
      Concerns over green house gas emissions and their climate change effects have lead to a concerted effort into environmental friendly technologies. One such emphasis has been on the implementation of the hydrogen economy. ...
    • Application of hydrides in hydrogen storage and compression: Achievements, outlook and perspectives
      Bellosta von Colbe, J.; Ares, J.R.; Barale, J.; Baricco, M.; Buckley, Craig ; Capurso, G.; Gallandat, N.; Grant, D.M.; Guzik, M.N.; Jacob, I.; Jensen, E.H.; Jensen, T.; Jepsen, J.; Klassen, T.; Lototskyy, M.V.; Manickam, K.; Montone, A.; Puszkiel, J.; Sartori, S.; Sheppard, Drew ; Stuart, A.; Walker, G.; Webb, C.J.; Yang, H.; Yartys, V.; Züttel, A.; Dornheim, M. (2019)
      Metal hydrides are known as a potential efficient, low-risk option for high-density hydrogen storage since the late 1970s. In this paper, the present status and the future perspectives of the use of metal hydrides for ...
    Advanced search

    Browse

    Communities & CollectionsIssue DateAuthorTitleSubjectDocument TypeThis CollectionIssue DateAuthorTitleSubjectDocument Type

    My Account

    Admin

    Statistics

    Most Popular ItemsStatistics by CountryMost Popular Authors

    Follow Curtin

    • 
    • 
    • 
    • 
    • 

    CRICOS Provider Code: 00301JABN: 99 143 842 569TEQSA: PRV12158

    Copyright | Disclaimer | Privacy statement | Accessibility

    Curtin would like to pay respect to the Aboriginal and Torres Strait Islander members of our community by acknowledging the traditional owners of the land on which the Perth campus is located, the Whadjuk people of the Nyungar Nation; and on our Kalgoorlie campus, the Wongutha people of the North-Eastern Goldfields.