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      KCI등재 SCIE SCOPUS

      Fe2O3, MnO, and VCl3-added Mg composites by reactioninvolving grinding processing for hydrogen storage

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      https://www.riss.kr/link?id=A106052070

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      다국어 초록 (Multilingual Abstract)

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      Oxide-added samples, 90 wt% Mg + 10 wt% Fe2O3 (named Mg-10Fe2O3) and 90 wt% Mg + 10 wt% MnO (named Mg-10MnO), a halide-added sample, 90 wt% Mg + 10 wt% VCl3 (named Mg-10VCl3), and a pure Mg sample (named Mg) wereprepared by reaction-involving grinding (grinding in hydrogen). The hydriding and dehydriding properties of the preparedsamples were examined and compared. For the halide-added sample, Mg-10VCl3, the initial hydriding rate was much higherand the quantity of hydrogen absorbed for 60 min was significantly larger than those of the oxide-added samples and Mg.
      After activation, Mg-10VCl3 had much higher initial hydriding and dehydriding rates, and much larger quantities of hydrogenabsorbed and released for 60 min, than Mg-10Fe2O3, Mg-10MnO, and Mg. The activated Mg-10Fe2O3 and Mg-10MnOabsorbed 5.16 and 3.95 wt% H, respectively, at 593 K in 12 bar H2 for 60 min. The activation of Mg-10VCl3 was completedafter two hydriding-dehydriding cycles. Mg-10VCl3 had an effective hydrogen-storage capacity (the quantity of hydrogenabsorbed for 60 min) of 5.71 wt% at the second cycle (n = 2). At n = 2, the sample absorbed 4.58 wt% H for 5 min and5.71 wt% H for 60 min at 593 K in 12 bar H2. At n = 3, the sample released 1.32 wt% H for 10 min and 5.42 wt% H for 60 minat 593 K in 1.0 bar H2. The hydrogen release equilibrium hydrogen pressure-composition-temperature (PCT) curve at 593 Kshowed an equilibrium plateau pressure at 2.56 bar.
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      Oxide-added samples, 90 wt% Mg + 10 wt% Fe2O3 (named Mg-10Fe2O3) and 90 wt% Mg + 10 wt% MnO (named Mg-10MnO), a halide-added sample, 90 wt% Mg + 10 wt% VCl3 (named Mg-10VCl3), and a pure Mg sample (named Mg) wereprepared by reaction-involving grinding...

      Oxide-added samples, 90 wt% Mg + 10 wt% Fe2O3 (named Mg-10Fe2O3) and 90 wt% Mg + 10 wt% MnO (named Mg-10MnO), a halide-added sample, 90 wt% Mg + 10 wt% VCl3 (named Mg-10VCl3), and a pure Mg sample (named Mg) wereprepared by reaction-involving grinding (grinding in hydrogen). The hydriding and dehydriding properties of the preparedsamples were examined and compared. For the halide-added sample, Mg-10VCl3, the initial hydriding rate was much higherand the quantity of hydrogen absorbed for 60 min was significantly larger than those of the oxide-added samples and Mg.
      After activation, Mg-10VCl3 had much higher initial hydriding and dehydriding rates, and much larger quantities of hydrogenabsorbed and released for 60 min, than Mg-10Fe2O3, Mg-10MnO, and Mg. The activated Mg-10Fe2O3 and Mg-10MnOabsorbed 5.16 and 3.95 wt% H, respectively, at 593 K in 12 bar H2 for 60 min. The activation of Mg-10VCl3 was completedafter two hydriding-dehydriding cycles. Mg-10VCl3 had an effective hydrogen-storage capacity (the quantity of hydrogenabsorbed for 60 min) of 5.71 wt% at the second cycle (n = 2). At n = 2, the sample absorbed 4.58 wt% H for 5 min and5.71 wt% H for 60 min at 593 K in 12 bar H2. At n = 3, the sample released 1.32 wt% H for 10 min and 5.42 wt% H for 60 minat 593 K in 1.0 bar H2. The hydrogen release equilibrium hydrogen pressure-composition-temperature (PCT) curve at 593 Kshowed an equilibrium plateau pressure at 2.56 bar.

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      참고문헌 (Reference)

      1 M.O.T. da Conceicao, 586 (586): S101-S104, 2014

      2 O. Friedrichs, 54 (54): 105-110, 2006

      3 M.Y. Song, 415 : 266-270, 2006

      4 M.Y. Song, 37 (37): 831-835, 2014

      5 M.Y. Song, 35 : 10366-10372, 2010

      6 I.E. Malka, 35 : 1706-1712, 2010

      7 M.Y. Song, 30 : 1343-1351, 1995

      8 J.J. Reilly, 7 (7): 2254-2256, 1968

      9 J.M. Boulet, 89 : 151-161, 1983

      10 W. Oelerich, 322 : L5-L9, 2001

      1 M.O.T. da Conceicao, 586 (586): S101-S104, 2014

      2 O. Friedrichs, 54 (54): 105-110, 2006

      3 M.Y. Song, 415 : 266-270, 2006

      4 M.Y. Song, 37 (37): 831-835, 2014

      5 M.Y. Song, 35 : 10366-10372, 2010

      6 I.E. Malka, 35 : 1706-1712, 2010

      7 M.Y. Song, 30 : 1343-1351, 1995

      8 J.J. Reilly, 7 (7): 2254-2256, 1968

      9 J.M. Boulet, 89 : 151-161, 1983

      10 W. Oelerich, 322 : L5-L9, 2001

      11 Z. Dehouche, 347 : 319-323, 2002

      12 G. Barkhordarian, 49 : 213-217, 2003

      13 G. Barkhordarian, 407 (407): 249-255, 2006

      14 O. Friedrichs, 54 (54): 1293-1297, 2006

      15 M.Y. Song,

      16 K.F. Aguey-Zinsou, 41 (41): 1118-1126, 2006

      17 M.Y. Song, 340 : 256-262, 2002

      18 S. Long, 580 (580): S167-S170, 2013

      19 S. Long, 615 (615): S684-S688, 2014

      20 ZG. Huang, 422 (422): 299-304, 2006

      21 "https://en.wikipedia.org/wiki/Manganese(II)_oxide"

      22 "https://en.wikipedia.org/wiki/Hematite"

      23 홍성현, "Study on the Reactivity with Hydrogen of Planetary Ball Milled 90 wt% Mg+10 wt% MgH2: Analyses of Reaction Rates with Hydrogen and Microstructure" 대한금속·재료학회 54 (54): 358-363, 2016

      24 Seong-Hyeon Hong, "Preparation of Mg-MgH2 Flakes by Planetary Ball Milling With Stearic Acid and Their Hydrogen Storage Properties" 대한금속·재료학회 22 (22): 544-549, 2016

      25 박혜령, "Increase in the Hydrogen-Sorption Rates and the Hydrogen-Storage Capacity of MgH2 by Adding a Small Proportion of Zn(BH4)2" 대한금속·재료학회 55 (55): 657-663, 2017

      26 권성남, "Hydrogen Storage and Release Properties of Transition Metal-Added Magnesium Hydride Alloy Fabricated by Grinding in a Hydrogen Atmosphere" 대한금속·재료학회 54 (54): 510-518, 2016

      27 송명엽, "Hydrogen Storage Characteristics of Metal Hydro-Borate and Transition Element-Added Magnesium Hydride" 대한금속·재료학회 54 (54): 503-509, 2016

      28 홍성현, "Hydrogen Storage Characteristics of Melt Spun Mg-23.5Ni-xCu Alloys and Mg-23.5Ni-2.5Cu Alloy Mixed with Nb_2O_5 and NbF_5" 대한금속·재료학회 49 (49): 298-303, 2011

      29 송명엽, "Formation of a High Pressure Form of Magnesium Hydride γ-MgH2 by Mechanical Grinding under Low Hydrogen Pressure" 대한금속·재료학회 51 (51): 119-123, 2013

      30 이성호, "Enhancement of the Hydriding and Dehydriding Rates of Mg by Adding TiCl3 and Reactive Mechanical Grinding" 대한금속·재료학회 53 (53): 187-191, 2015

      31 송명엽, "Comparison of the Hydrogen Release Properties of Zn(BH4)2-Added MgH2 Alloy and Zn(BH4)2 and Ni-Added MgH2 Alloy" 대한금속·재료학회 56 (56): 244-251, 2018

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