• Title/Summary/Keyword: Mg hydrides

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Dehydriding Kinetics of the Mg2NiHx by Isothermal Thermogravimetry Analysis (등온 열중량 분석에 의한 Mg2NiHx 탈수소화 반응속도 연구)

  • Hong, Tae Whan;Kim, Young Jig
    • Journal of Hydrogen and New Energy
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    • v.11 no.1
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    • pp.11-18
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    • 2000
  • In order to investigate the dehydriding properties of the $Mg_2NiH_x$ formed by hydrogen induced mechanical alloying, we performed isothermal thermogravimetry analysis at 453, 463, 473, 483, 493, 503 and 513K for 1 hours. Dehydrogenation kinetics were dependant strongly on the MA conditions which determine the In other words, kinds of synthesized hydrides phases and the crystal microstructures. The MA condition, 66:1 BCR(balls to chips mass ratio), especially 96h milling time, revealed the hydride phases of nano-/ amorphous state and the dehydriding activation energy of $43.4{\pm}3.6kJ/mole$.

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Fragmentation of Particles in Hydriding and Dehydriding (Hydriding과 Dehydriding에서 입자 미세화)

  • Nam, In-Tak
    • Journal of Industrial Technology
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    • v.3
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    • pp.47-51
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    • 1983
  • The fragmentation of Mg and Mg-25(w/o) Al alloy particles in hydriding-dehydriding was studied. The formation of hydride was made in autoclave, and formed hydrides were $MgH_2$ in both pure Mg and Mg-25(w/o) Al alloy particles. Pure Mg was more fractured than Mg-25(w/o) Al alloy in hydriding. The addition of Al exhibited fragmentation in hydriding, but displayed the same fragmentation as Mg in dehydriding.

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Material Life Cycle Assessments on Mg2NiHx-CaO Composites (Mg2NiHx-CaO 수소 저장 복합물질의 물질 전과정 평가)

  • HWANG, JUNE-HYEON;SHIN, HYO-WON;HONG, TAE-WHAN
    • Journal of Hydrogen and New Energy
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    • v.33 no.1
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    • pp.8-18
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    • 2022
  • With rapid industrialization and population growth, fossil fuel use has increased, which has a significant impact on the environment. Hydrogen does not cause contamination in the energy production process, so it seems to be a solution, but it is essential to find an appropriate storage method due to its low efficiency. In this study, Mg-based alloys capable of ensuring safety and high volume and hydrogen storage density per weight was studied, and Mg2NiHx synthesized with Ni capable of improving hydrogenation kinetics. In addition, in order to improve thermal stability, a hydrogen storage composite material synthesized with CaO was synthesized to analyze the change in hydrogenation reaction. In order to analyze the changes in the metallurgical properties of the materials through the process, XRD, SEM, BET, etc. were conducted, and hydrogenation behavior was confirmed by TGA and hydrogenation kinetics analysis. In addition, in order to evaluate the impact of the process on the environment, the environmental impact was evaluated through "Material Life Cycle Assessments" based on CML 2001 and EI99' methodologies, and compared and analyzed with previous studies. As a result, the synthesis of CaO caused additional power consumption, which had a significant impact on global warming, and further research is required to improve this.

Hydrogen Generation through the Reaction with Water of MgO, MgCl2 or Ni+Nb2O5 - Added Magnesium Hydrides

  • Hong, Seong-Hyeon;Kim, Hyun-Jin;Song, Myoung Youp
    • Korean Journal of Metals and Materials
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    • v.50 no.2
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    • pp.183-190
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    • 2012
  • Hydrogen was generated by the reaction of metal hydride with water. The variation of hydrogen generation with the kind of powders (milled $MgH_2$, and $MgH_2$ milled with various contents of MgO, $MgCl_2$ or $Ni+Nb_2O_5$) was investigated. $MgH_2$ powder with a hydrogen content of 6.05 wt% from Aldrich Company was used. Hydrogen is generated by the reaction of Mg as well as $MgH_2$ with water, resulting in the formation of byproduct $Mg(OH)_2$. For about 5 min of reaction time, milled $95%MgH_2+5%MgO$ has the highest hydrogen generation rate among milled $MgH_2+x%MgO$ (x=0, 5, 10, 15 and 20) samples. Milled $90%MgH_2+10%MgCl_2$ has the highest hydrogen generation rate among all the samples.

Evaluations of Hydrogen Properties of MgHx-Nb2O5 Oxide Composite by Hydrogen Induced Mechanical Alloying (수소 가압형 기계적 합금화법으로 제조한 MgHx-Nb2O5 산화물 복합 재료의 수소화 특성 평가)

  • Lee, Nari;Lee, Soosun;Hong, Taewhan
    • Journal of Hydrogen and New Energy
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    • v.23 no.5
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    • pp.429-436
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    • 2012
  • Mg and Mg-based alloys are regarded as strong candidate hydrogen storage materials since their hydrogen capacity exceeds that of known metal hydrides. One of the approaches to improve kinetic is addition of metal oxide. In this paper, we tried to improve the hydrogenation properties of Mg-based hydrogen storage composites. The effect of transition metal oxides, such as $Nb_2O_5$ on the kinetics of the Magnesium hydrogen absorption kinetics was investigated. $MgH_x$-5wt.% $Nb_2O_5$ composites have been synthesized by hydrogen induced mechanical alloying. The powder fabricated was characterized by X-ray diffraction (XRD), Field Emission-Scanning Electron Microscopy (Fe-SEM), Energy Dispersive X-ray (EDX), BET and simultaneous Thermo Gravimetric Analysis / Differential Scanning Calorimetry (TG/DSC) analysis. The Absorption / desorption kinetics of $MgH_x$-5wt.% $Nb_2O_5$ (type I and II) are determined at 423, 473, 523, 573 and 623 K.

Hydriding Behavior of an Mg-xNi Alloys Prepared in Hydriding Combustion Synthesis (수소화 연소합성법을 이용한 Mg-xNi 금속수소화물의 수소저장특성에 관한 연구)

  • Kim, Ji-Ho;Choi, Duck-Kyun;Hwang, Kwang-Taek;Han, Jeong-Sub;Kim, Jin-Ho
    • Journal of Hydrogen and New Energy
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    • v.21 no.2
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    • pp.123-128
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    • 2010
  • Hydriding combustion synthesis (HCS) can produce full hydrides of alloys and in a short time. The conventional process based on ingot metallurgy cannot produce Mg-based alloy easily with the desired composition and the cast product needs a ling activation process for the practical use of hydrogen storage. In this study, the hydriding properties of Mg-xNi (x=5, 13.5, 54.7wt.%) alloys prepared by hydriding combustion synthesis were evaluated. The hydrogen storage capacity and kinetics of HCS Mg-xNi alloys were strongly dependent on the content of Ni. The HCS Mg-13.5wt.%Ni alloy shows the hydriding behavior to reach the maximum capacity within 30 min. and the reversible $H_2$ storage of 5.3wt.% at 623 K.

Evaluation of Hydrogenation Behavior of MgHx-Graphene Composites by Mechanical Alloying (기계적 합금화법으로 제조한 MgHx-Graphene 복합재료의 수소화 거동 특성)

  • Lee, Soo-Sun;Lee, Na-Ri;Kim, Kyeong-Il;Hong, Tae-Whan
    • Journal of Hydrogen and New Energy
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    • v.22 no.6
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    • pp.780-786
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    • 2011
  • Mg hydride had high hydrogen capacity (7.6%), lightweight and low cost materials and it was promising hydrogen storage material at high temperature. However, commercial applications of the Mg hydride are currently hindered by its high absorption/desorption temperature, and very slow reaction kinetics. one of the approaches to improve the kinetic is $MgH_x$ intermixed with carbon. And it shows that carbon and carbon allotropes have a beneficial effect on hydrogen sorption in Mg. The graphene is a kind of carbon allotropes which is easily desorbed reaction at low temperatures because its reaction is exothermic. In this work, the effect of graphene concentration on the kinetics of Mg hydrogen absorption reaction was investigated. The $MgH_x$-Graphene composites has been prepared by hydrogen induced mechanical alloy (HIMA). The synthesized powder was characterized by XRD and simultaneous TG, DSC analysis. The hydrogenation behaviors were evaluated by using a sievert's type automatic PCT apparatus. In this research, results of kinetic profiles exhibit hydrogen absorption rate of $MgH_x$-5wt.% and 10wt.% graphene composite, as 1.25wt.%/ms, 10.33wt.%/ms against 0.88wt.%/ms for $MgH_x$ alone at 473K.

MicrostructuraL Characteristics During Hydrogen Desorption of Mechanical Milled TiH2 (기계적 합금화된 TiH2의 수소방출에 따른 미세조직 특성)

  • Jung S.;Jung Hyun-Sung;Ahn Jae-Pyoung;Park Jong-Ku
    • Journal of Powder Materials
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    • v.13 no.3 s.56
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    • pp.199-204
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    • 2006
  • We manufactured the metal hydrides of $(Ti_{0.88}Mg_{0.12})H_2$ using a very easy and cheap way that Ti-12%Mg blending powder was mechanically milled with liquid milling media such as isopropyl alcohol ($C_3H_8O$, containing oxygen) and hexane ($C_6H_{14}$, no oxygen) as hydrogen source. The $(Ti_{0.88}Mg_{0.12})H_2$ synthesized in isopropyl alcohol contained the high oxygen of 11.2%, while one in hexane had the low oxygen content of 0.7%. Such a difference of oxygen content affected the dehydriding behavior, phase transformation, and microstructural evolution at high temperature, which was investigated through X-ray diffraction and DSC measurements, and electron microscope observations.

Formation of Mo(NAr)(PMe₃)₂Cl₃and Mo₂(PMe₃)₄Cl₄from Reduction of Mo(NAr)₂Cl₂(DME) with Mg in the Presence of PMe₃[Ar=2,6-diisopropylphenyl]

  • 정건수;박병규;Lee, Soon W.
    • Bulletin of the Korean Chemical Society
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    • v.18 no.2
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    • pp.213-217
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    • 1997
  • Magnesium reduction of Mo(N-C6H3-2,6-i-Pr2)2Cl2(DME) in the presence of trimethylphosphine led to a mixture of Mo(N-C6H3-2,6-i-Pr2)(PMe3)2Cl3, 1, and Mo2(PMe3)4Cl4, 2. In solution 1 is slowly air-oxidized to Mo(N-2,6-i-Pr2-C6H3)(OPMe3)(PMe3)Cl3, 3. 1 is chemically inert to carbon nucleophiles (ZnMe2, ZnEt2, AlMe3, AlEt3, LiCp, NaCp, TlCp, NaCp*, MeMgBr, EtMgBr), oxygen nucleophiles (LiOEt, LiO-i-Pr, LiOPh, LiOSPh), and hydrides (LiBEt3H, LiBEt3D). Crystal data for 1: orthorhombic space group P212121, a=11.312(3) Å, b=11.908(3) Å, c=19.381(6) Å, Z=4, R(wR2)=0.0463 (0.1067). Crystal data for 2: monoclinic space group Cc, a=18.384(3) Å, b=9.181(2) Å, c=19.118(3) Å, b=124.98(1)°, Z=4, R(wR2)=0.0228 (0.0568). Crystal data for 3: orthorhombic space group P212121, a=11.464(1) Å, b=14.081(2) Å, c=16.614(3) Å, Z=4, R(wR2)=0.0394 (0.0923).

Material Life Cycle Assessment of Mg-CaO-10 wt.% MWCNT Hydrogen Storage Composites (수소저장용 Mg-CaO-10 wt.% MWCNT 복합체의 물질 전과정 평가)

  • HAN, JEONG-HEUM;LEE, YOUNG-HWAN;YU, JAE-SEON;HONG, TAE-WHAN
    • Journal of Hydrogen and New Energy
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    • v.30 no.3
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    • pp.220-226
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    • 2019
  • Magnesium hydride has a high hydrogen storage capacity (7.6 wt.%), and is cheap and lightweight, thus advantageous as a hydrogen storage alloy. However, Mg-based hydrides undergo hydrogenation/dehydrogenation at high temperature and pressure due to their thermodynamic stability and high oxidation reactivity. MWCNTs exhibit prominent catalytic effect on the hydrogen storage properties of $MgH_2$, weakening the interaction between Mg and H atoms and reducing the activation energy for nucleation of the metal phase by co-milling Mg with carbon nanotubes. Therefore, it is suggested that combining transition metals with carbon nanotubes as mixed dopants has a significant catalytic effect on the hydrogen storage properties of $MgH_2$. In this study, Material life cycle evaluation was performed to analyze the environmental impact characteristics of Mg-CaO-10 wt.% MWCNTs composites manufacturing process. The software of material life cycle assessment (MLCA) was Gabi 6. Through this, environmental impact assessment was performed for each process.