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Работы, на которые ссылается эта работа

Работ: 48

Работа: Towards standardized safety protocols for iron-based energy carriers: International alignment through round robin testing on safety characteristics

  1. Recent advancements in chemical looping water splitting for the production of hydrogen

    Gernot Voitic, Viktor Hacker

    Статья2016Цитирований: 3
    ABI

  2. Measuring the violence of dust explosions with the “20l sphere” and with the standard “ISO 1m3 vessel”

    Christophe Proust, Antoinette Accorsi, Laurent Dupont

    Статья2007Цитирований: 2
    ABI

  3. Direct combustion of recyclable metal fuels for zero-carbon heat and power

    Jeffrey M. Bergthorson, Samuel Goroshin, Michael Soo +4

    Статья2015Цитирований: 2
    ABI

  4. Dust explosion risk in metal workings

    Enrico Danzi, Luca Marmo

    Статья2019Цитирований: 2
    ABI

  5. The explosion of non-nano iron dust suspension in the 20-l spherical bomb

    Enrico Danzi, Gianmaria Pio, Luca Marmo +1

    Статья2021Цитирований: 2
    ABI

  6. Effects of moisture content on explosion characteristics of incense dust in incense factory

    Shun‐Chieh Chang, Yu‐Chi Cheng, Xinhai Zhang +1

    Статья2021Цитирований: 2
    ABI

  7. Analysis of Wood Chip Characteristics for Energy Production in Lithuania

    Nerijus Pedišius, Marius Praspaliauskas, Justinas Pedišius +1

    Статья2021Цитирований: 2
    ABI

  8. Influences of a square and circular vent on gasoline vapor explosions and its propagation: Comparative experimental study

    Chuanyu Pan, Xishi Wang, Guochun Li +2

    Статья2021Цитирований: 2
    ABI

  9. A comparison of particle size distribution and morphology data acquired using lab-based and commercially available techniques: Application to stainless steel powder

    Justin Whiting, Edward J. Garboczi, Vipin N. Tondare +3

    Статья2021Цитирований: 2
    ABI

  10. Iron dust explosion characteristics with small amount of nano-sized Fe2O3 and Fe3O4 particles

    Yongzheng Guo, Kaiyue Ren, Aizhu Wei +4

    Статья2022Цитирований: 2
    ABI

  11. Natural iron ores for large-scale thermochemical hydrogen and energy storage

    Sebastian Bock, Magdalena Pauritsch, Susanne Lux +1

    Статья2022Цитирований: 2
    ABI

  12. Phase transformations and microstructure evolution during combustion of iron powder

    Laurine Choisez, Niek E. van Rooij, C.J.M. Hessels +6

    Статья2022Цитирований: 2
    ABI

  13. Characterization of the explosiveness of wood dust

    Alba Santamaría-Herrera, F. Javier Hoyuelos, Carlos Casado-Marcos

    Статья2022Цитирований: 2
    ABI

  14. Effect of particle size on the minimum ignition energy of aluminum powders

    Wookyung Kim, Rinrin Saeki, Yasuko Ueno +3

    Статья2022Цитирований: 2
    ABI

  15. Techno-economic assessment of long-distance supply chains of energy carriers: Comparing hydrogen and iron for carbon-free electricity generation

    Jannik Neumann, Rodolfo C. Rocha, Paulo Debiagi +4

    Статья2023Цитирований: 2
    ABI

  16. Combustion behavior of single iron particles, Part II: A theoretical analysis based on a zero-dimensional model

    Aki Fujinawa, Leon C. Thijs, Joel Jean-Philyppe +6

    Статья2023Цитирований: 2
    ABI

  17. Investigation of marginally explosible dusts

    Albert Addo, Maria Portarapillo, Almerinda Di Benedetto +5

    Статья2024Цитирований: 2
    ABI

  18. Aluminium as an efficient energy storage substance for the catalysed generation of hydrogen from water

    F. D. Manilevich, Yuriy Pirskyy, Andrii Kutsyi +2

    Статья2024Цитирований: 2
    ABI

  19. Numerical studies on the propagation of iron dust flames in confinement

    Aki Fujinawa, XiaoCheng Mi

    Статья2024Цитирований: 2
    ABI

  20. Influence of impurities on the use of Fe-based powder as sustainable fuel

    Laurine Choisez, Marie‐Aline Van Ende, Zakarie Bruyr +2

    Статья2024Цитирований: 2
    ABI

  21. Investigations on different distribution systems for dusts inside the 20L-sphere

    Stefan H. Spitzer, Adrián Pandal, M. Rodriguez +4

    Статья2024Цитирований: 2
    ABI

  22. Simplifying standards, opening restrictions part II: The significance of the ignition source on the safety characteristics of dusts in the 20 L-sphere

    Břetislav Janovský, Stefan H. Spitzer, Jan Karl +1

    Статья2024Цитирований: 2
    ABI

  23. A first step towards a standardized iron fuel: Safety characteristics of several pure iron powders

    Stefan H. Spitzer, Nicole C. Stevens, Arne Krietsch +5

    Статья2025Цитирований: 2
    ABI

  24. Metal fuels for renewable energy storage and circular economy

    Alberto Boretti, Stefania Castelletto

    Статья2025Цитирований: 2
    ABI

  25. Без названия

    ДругоеЦитирований: 1
    ABI