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Recent progress in thermodynamic and kinetics modification of magnesium hydride hydrogen storage materials 被引量:1
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作者 Yafei Liu Yusang Guo +3 位作者 Yaru Jiang Lizhuang Feng Yu Sun Yijing Wang 《Materials Reports(Energy)》 EI 2024年第1期3-22,共20页
Hydrogen energy has emerged as a pivotal solution to address the global energy crisis and pave the way for a cleaner,low-carbon,secure,and efficient modern energy system.A key imperative in the utilization of hydrogen... Hydrogen energy has emerged as a pivotal solution to address the global energy crisis and pave the way for a cleaner,low-carbon,secure,and efficient modern energy system.A key imperative in the utilization of hydrogen energy lies in the development of high-performance hydrogen storage materials.Magnesium-based hydrogen storage materials exhibit remarkable advantages,including high hydrogen storage density,cost-effectiveness,and abundant magnesium resources,making them highly promising for the hydrogen energy sector.Nonetheless,practical applications of magnesium hydride for hydrogen storage face significant challenges,primarily due to their slow kinetics and stable thermodynamic properties.Herein,we briefly summarize the thermodynamic and kinetic properties of MgH2,encompassing strategies such as alloying,nanoscaling,catalyst doping,and composite system construction to enhance its hydrogen storage performance.Notably,nanoscaling and catalyst doping have emerged as more effective modification strategies.The discussion focuses on the thermodynamic changes induced by nanoscaling and the kinetic enhancements resulting from catalyst doping.Particular emphasis lies in the synergistic improvement strategy of incorporating nanocatalysts with confinement materials,and we revisit typical works on the multi-strategy optimization of MgH2.In conclusion,we conduct an analysis of outstanding challenges and issues,followed by presenting future research and development prospects for MgH2 as hydrogen storage materials. 展开更多
关键词 magnesium hydride Thermodynamics and kinetics catalyst doping NANOSTRUCTURES Hydrogenation and dehydrogenation
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Improved hydrogen storage kinetics of MgH_(2) using TiFe_(0.92)Mn_(0.04)Co_(0.04) with in-situ generated α-Fe as catalyst
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作者 Zefeng Li Yangfan Lu +3 位作者 Jingfeng Wang Yu'an Chen Qian Li Fushen Pan 《Materials Reports(Energy)》 EI 2024年第1期95-103,共9页
While TiFe alloy has recently attracted attention as the efficient catalyst to enhance de/hydrogenation rates of Mg/MgH_(2),the difficulty of its activation characteristics has hindered further improvement of reaction... While TiFe alloy has recently attracted attention as the efficient catalyst to enhance de/hydrogenation rates of Mg/MgH_(2),the difficulty of its activation characteristics has hindered further improvement of reaction kinetics.Herein,we report that the TiFe_(0.92)Mn_(0.04)Co_(0.04) catalyst can overcome the abovementioned challenges.The synthesized MgH_(2)-30 wt% TiFe_(0.92)Mn_(0.04)Co_(0.04) can release 4.5 wt%of hydrogen in 16 min at 250℃,three times as fast as MgH_(2).The activation energy of dehydrogenation was as low as 84.6 kJ mol^(-1),which is 46.8%reduced from pure MgH_(2).No clear degradation of reaction rates and hydrogen storage capacity was observed for at least 30 cycles.Structural studies reveal that TiFe_(0.92)Mn_(0.04)Co_(0.04) partially decomposes to in-situ generatedα-Fe particles dispersed on TiFe_(0.92)Mn_(0.04)Co_(0.04).The presence ofα-Fe reduces the formation of an oxide layer on TiFe_(0.92)Mn_(0.04)Co_(0.04),enabling the activation processes.At the same time,the hydrogen incorporation capabilities of TiFe_(0.92)Mn_(0.04)Co_(0.04) can provide more hydrogen diffusion paths,which promote hydrogen dissociation and diffusion.These discoveries demonstrate the advanced nature and importance of combining the in-situ generatedα-Fe with TiFe_(0.92)Mn_(0.04)Co_(0.04).It provides a new strategy for designing highly efficient and stable catalysts for Mg-based hydrogen storage materials. 展开更多
关键词 Hydrogen storage materials magnesium De/hydrogenation kinetics catalyst
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Research on Catalytic Cracking Performance Improvement of Waste FCC Catalyst by Magnesium Modification 被引量:3
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作者 Yuan Chengyuan Tan Zhengguo +2 位作者 Pan Zhishuang Zhang Haitao Gao Xionghou 《China Petroleum Processing & Petrochemical Technology》 SCIE CAS 2018年第2期48-55,共8页
In this study,the deactivation mechanism caused by high accessibility of strong acid sites for the waste FCC catalyst was proposed and verified for the first time.Based on the proposed deactivation mechanism,magnesium... In this study,the deactivation mechanism caused by high accessibility of strong acid sites for the waste FCC catalyst was proposed and verified for the first time.Based on the proposed deactivation mechanism,magnesium modification through magnesium chloride impregnation was employed for the regeneration of waste FCC catalyst.The regenerated waste FCC catalyst was characterized,with its heavy oil catalytic cracking performance tested.The characterization results indicated that,in comparison with the unmodified waste FCC catalyst,the acid sites strength of the regenerated waste FCC catalyst was weakened,with no prominent alterations of the total acid sites quantity and textural properties.The heavy oil catalytic cracking results suggested that the catalytic cracking performance of the regenerated waste FCC catalyst was greatly improved due to the suitable surface acidity of the sample.In contrast with the unmodified waste FCC catalyst,the gasoline yield over the regenerated waste FCC catalyst significantly increased by 3.04 percentage points,meanwhile the yield of dry gas,LPG,coke and bottoms obviously decreased by 0.36,0.81,1.28 and 0.87 percentage points,respectively,making the regenerated waste FCC catalyst serve as a partial substitute for the fresh FCC catalyst.Finally,the acid property change mechanism was discussed. 展开更多
关键词 waste FCC catalyst REGENERATION magnesium modifcation catalytic cracking ACIDITY
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Mssbauer study of function of magnesium in iron oxide catalysts
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作者 YangJie-Xin MaoLian-Sheng 《Nuclear Science and Techniques》 SCIE CAS CSCD 1997年第4期225-228,共4页
M¨osbauerstudyoffunctionofmagnesiuminironoxidecatalystsTheProjectSupportedbyNationalClimbingPlanManuscript... M¨osbauerstudyoffunctionofmagnesiuminironoxidecatalystsTheProjectSupportedbyNationalClimbingPlanManuscriptreceiveddate:1997... 展开更多
关键词 氧化铁 催化剂 穆斯鲍尔效应
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Air Electrode Supported Manganese Electrocatalysts for Neutral Electrolyte Magnesium Air Cell
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作者 韩斌 梁广川 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2009年第1期53-56,共4页
X The catalysts of air electrode were prepared by sintering the active carbon loaded with manganese nitrate and potassium permanganate at 360 ℃ . The air electrode was made up of a catalyst layer, a waterproof and ga... X The catalysts of air electrode were prepared by sintering the active carbon loaded with manganese nitrate and potassium permanganate at 360 ℃ . The air electrode was made up of a catalyst layer, a waterproof and gas-permeable layer, a current collecting substrate and a second wa-terproof and gas-permeable layer. The cell was assembled by the air electrode, pure magnesium anode and 10% NaCl solution used as electrolyte. The microstructures of air electrodes before and after discharging were characterized by SEM. The electrochemical behaviors of the air electrodes were determined by means of polarization curves, volt-ampere curves and constant current discharge curves. The polarization voltage of air electrode is-173 mV (vs SCE) at the current density of 50 mA/cm2. The air electrodes exhibits good activity and stability in neutral electrolyte. The magnesium-air cell could work at 5 W for more than 7 h. 展开更多
关键词 magnesium-air cell air electrode catalyst neutral electrolyte cell performance
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镁基固态储氢材料的研究进展 被引量:3
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作者 梁宸曦 王振斌 +2 位作者 张明锦 马存花 梁宁 《储能科学与技术》 CAS CSCD 北大核心 2024年第3期788-824,共37页
氢能有望成为脱碳时代的“理想燃料”。高性能储氢材料的发现、开发和改性是未来发展固态储氢和氢能源利用的关键。而氢化镁(MgH2)具有储氢能力强、自然储量丰富、环境友好等特点,在固态储氢材料领域备受关注。但是氢化镁较高的热力学... 氢能有望成为脱碳时代的“理想燃料”。高性能储氢材料的发现、开发和改性是未来发展固态储氢和氢能源利用的关键。而氢化镁(MgH2)具有储氢能力强、自然储量丰富、环境友好等特点,在固态储氢材料领域备受关注。但是氢化镁较高的热力学稳定性、缓慢的动力学性能,以及循环过程中不可避免的团聚和粗化等问题在一定程度上限制了镁基固态储氢材料的大规模投产和实际应用。近年来,大量研究工作聚焦于镁基储氢材料的热/动力学改性,目前已经取得了大量的成果。本文通过回顾国内外相关文献,综述了改善镁基固态储氢材料储氢性能的最新研究进展,着重介绍了合金化、纳米化、引入催化剂等改性策略,阐述了不同策略具体的改性机理。最后对未来的发展方向进行了展望,旨在为高性能镁基储氢材料的研发提供借鉴与指导。 展开更多
关键词 固态储氢材料 氢化镁 合金化 纳米化 催化剂
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烷氧基镁载体及其负载聚丙烯催化剂研究进展
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作者 郭晏君 周奇龙 +1 位作者 徐秀东 张锐 《石油化工》 CAS CSCD 北大核心 2024年第7期1044-1051,共8页
烷氧基镁为载体制备的Ziegler-Natta催化剂具有制备工艺简单、催化活性高、形貌易调控的特点,广泛应用于聚丙烯生产装置中。综述了烷氧基镁载体及其制备的聚丙烯催化剂的研究进展,分析了现有工艺中影响载体、催化剂性能的因素,总结了目... 烷氧基镁为载体制备的Ziegler-Natta催化剂具有制备工艺简单、催化活性高、形貌易调控的特点,广泛应用于聚丙烯生产装置中。综述了烷氧基镁载体及其制备的聚丙烯催化剂的研究进展,分析了现有工艺中影响载体、催化剂性能的因素,总结了目前工业技术中应用于烷氧基镁聚丙烯催化剂的内外给电子体,展望了烷氧基镁载体及其催化剂的研究方向和方法。 展开更多
关键词 烷氧基镁 聚丙烯 ZIEGLER-NATTA催化剂
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醇镁加合物载体在Ziegler-Natta催化剂中的应用进展
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作者 唐剑 梁迎迎 +1 位作者 马永华 李秉毅 《石油化工》 CAS CSCD 北大核心 2024年第2期227-234,共8页
基于醇镁加合物载体(简称醇镁载体)的Ziegler-Natta(Z-N)催化剂具有颗粒形貌优良、活性高等特点,醇镁载体的特性对催化剂和聚合物的综合性能有显著影响,是目前聚烯烃领域中的研究热点。介绍了氯化镁载体的发展历程以及醇镁载体的制备方... 基于醇镁加合物载体(简称醇镁载体)的Ziegler-Natta(Z-N)催化剂具有颗粒形貌优良、活性高等特点,醇镁载体的特性对催化剂和聚合物的综合性能有显著影响,是目前聚烯烃领域中的研究热点。介绍了氯化镁载体的发展历程以及醇镁载体的制备方法,分析了不同醇镁比、醇种类对醇镁载体结构的影响,综述了醇镁载体在Z-N催化剂中的应用,并对烯烃聚合用醇镁载体的开发提出了展望。 展开更多
关键词 醇镁载体 ZIEGLER-NATTA催化剂 聚烯烃
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制备条件对Ziegler-Natta催化剂性能的影响
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作者 高金龙 张建纲 +1 位作者 张眉 李婧 《能源化工》 CAS 2024年第1期21-25,共5页
介绍了聚烯烃技术的核心关键是催化剂,其中催化剂的制备条件对催化剂的性能有较大的影响;主要考察了母液转移时间、TiCl4与MgCl2物质的量比、内给电子体(ID)与MgCl2物质的量比、陈化反应温度等对Ziegler-Natta(Z-N)聚烯烃催化剂性能的... 介绍了聚烯烃技术的核心关键是催化剂,其中催化剂的制备条件对催化剂的性能有较大的影响;主要考察了母液转移时间、TiCl4与MgCl2物质的量比、内给电子体(ID)与MgCl2物质的量比、陈化反应温度等对Ziegler-Natta(Z-N)聚烯烃催化剂性能的影响。结果表明,母液转移时间、载钛过程搅拌转速、TiCl4与MgCl2物质的量比对催化剂平均粒径影响较大;ID与MgCl2物质的量比对催化剂的颗粒形貌及催化活性影响较大;陈化反应温度对催化剂的钛含量及催化活性影响较大。 展开更多
关键词 钛镁系 Z-N催化剂 聚烯烃 粒度 催化剂性能
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不同催化剂对镁基合金吸放氢动力学影响的研究进展
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作者 熊茫茫 马兆霞 +1 位作者 姜雯雯 舒扬 《湖南有色金属》 CAS 2024年第3期58-61,共4页
文章主要综述了不同催化剂对镁基合金吸放氢速率的影响,通过研究发现,金属复合催化剂催化效率最佳,比如MoNi合金纳米粒子表现出色的催化效果,甚至比大多数先进的Ti基催化剂效果更好,并且在简短时间内释放出高达6.7%的氢。复合材料催化... 文章主要综述了不同催化剂对镁基合金吸放氢速率的影响,通过研究发现,金属复合催化剂催化效率最佳,比如MoNi合金纳米粒子表现出色的催化效果,甚至比大多数先进的Ti基催化剂效果更好,并且在简短时间内释放出高达6.7%的氢。复合材料催化剂的效果也相当显著,不仅可以缩短脱氢时间,同时降低反应活化能。 展开更多
关键词 镁基 催化剂 动力学
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三维工艺1,4-丁炔二醇催化剂的开发
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作者 姬学刚 宋锋 《辽宁化工》 CAS 2024年第1期147-150,共4页
三维1,4-丁二醇(BDO)生产工艺中1,4-丁炔二醇合成催化剂采用硅酸镁负载氧化铜铋催化剂,使用过程存在催化剂容易粉化、反应体催化剂颗粒度细、过滤性差等问题。开发了硅酸镁负载铜铋催化剂,采用了改良的硅酸镁为载体,配合多次浸渍工艺制... 三维1,4-丁二醇(BDO)生产工艺中1,4-丁炔二醇合成催化剂采用硅酸镁负载氧化铜铋催化剂,使用过程存在催化剂容易粉化、反应体催化剂颗粒度细、过滤性差等问题。开发了硅酸镁负载铜铋催化剂,采用了改良的硅酸镁为载体,配合多次浸渍工艺制备了蛋壳型硅酸镁负载铜铋催化剂,经过公斤级催化剂评价达到了工业应用的需要,催化剂的活性、选择性与目前铜铋催化剂性能相当,颗粒度耐磨性能明显提高,在同样的评价条件下,本项目开发的催化剂较现有工业催化剂的颗粒度大1倍以上,过滤性能明显提高,中试评价催化剂连续使用100天以上,过滤器未见堵塞现象,该催化剂完全可替代目前工业催化剂用于三维BDO工艺当中,提高装置的操作效率。 展开更多
关键词 丁炔二醇催化剂 硅镁载体 耐磨性 蛋壳型
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镍基镁渣催化剂对生物质焦油模化物催化重整特性实验研究
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作者 晁鹤元 俞海淼 《能源研究与信息》 CAS 2024年第1期45-50,共6页
采用湿浸渍法制备Ni/γ-Al_(2)O_(3)和Ni/MS(magnesium slag)催化剂,选择糠醛、甲苯、萘、芘作为生物质焦油的模化物,研究不同镍基催化剂对四类焦油模化物在固定床反应器内进行催化重整的重整特性。结果表明,Ni/MS催化剂在催化所有模化... 采用湿浸渍法制备Ni/γ-Al_(2)O_(3)和Ni/MS(magnesium slag)催化剂,选择糠醛、甲苯、萘、芘作为生物质焦油的模化物,研究不同镍基催化剂对四类焦油模化物在固定床反应器内进行催化重整的重整特性。结果表明,Ni/MS催化剂在催化所有模化物的重整反应时,气相碳转化率和气体产率均明显高于Ni/γ-Al_(2)O_(3)催化剂。当水分子物质的量与碳原子物质的量之比为1.5时,糠醛的气相碳转化率达到最高值86.54%。X射线衍射(XRD)结果表明,Ni/MS催化剂上存在的多种固溶体(NiO-Fe_(2)O_(3)、NiO-MgO)形成了多种活性位点。 展开更多
关键词 镁渣 镍基催化剂 生物质焦油 模化物 蒸汽重整
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甲烷干重整反应镁铝尖晶石镍基催化剂的研究进展
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作者 苏海兰 张丹 豆高锋 《工业催化》 CAS 2024年第6期30-35,共6页
甲烷重整反应所用的镍基催化剂在高温下易烧结而失活,催化剂稳定性一直是研究的重点。镁铝尖晶石材料具有较好的耐高温稳定性,高温下不易烧结,因此具有良好的工业化应用前景。综述了镁铝尖晶石结构镍基催化剂的制备方法(包括分步浸渍法... 甲烷重整反应所用的镍基催化剂在高温下易烧结而失活,催化剂稳定性一直是研究的重点。镁铝尖晶石材料具有较好的耐高温稳定性,高温下不易烧结,因此具有良好的工业化应用前景。综述了镁铝尖晶石结构镍基催化剂的制备方法(包括分步浸渍法、共沉淀法、溶剂蒸发自组装法、溶胶-凝胶法、水热合成法和火焰喷射裂解法)及其对催化剂结构和性能的影响,介绍了镁铝尖晶石催化剂对甲烷重整反应的稳定性研究进展以及镁铝尖晶石材料与限域功能材料结合对催化剂结构及性能的影响,并对其应用前景进行了展望。 展开更多
关键词 催化剂工程 甲烷重整 烧结 镁铝尖晶石 强金属载体间相互作用
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优化聚丙烯催化剂浆液中镁含量的测定方法研究
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作者 王玲玲 冯园丽 +1 位作者 李颖 杜玉栋 《石油化工应用》 CAS 2024年第6期104-107,共4页
聚丙烯催化剂主要作用是催化聚合反应,降低聚合过程中的反应能量,加速聚合反应的速度,从而使聚合反应更加快速和高效。聚丙烯装置催化剂含量过高可能出现爆聚,形成塑化结块,严重时使聚合釜超压,发生爆炸。通过分析催化剂浆液中镁含量可... 聚丙烯催化剂主要作用是催化聚合反应,降低聚合过程中的反应能量,加速聚合反应的速度,从而使聚合反应更加快速和高效。聚丙烯装置催化剂含量过高可能出现爆聚,形成塑化结块,严重时使聚合釜超压,发生爆炸。通过分析催化剂浆液中镁含量可控制催化剂加入量,从而确保反应过程顺利进行。目前,此项目分析样品时间较长,分析过程易受到环境温度、操作条件、人为失误等影响。本文通过优化分析过程,确定最佳操作条件,节省分析时间,提高工作效率。 展开更多
关键词 塑化结块 催化剂浆液 镁含量 操作条件
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超高分子量聚乙烯催化剂JC的中试应用
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作者 王俊荣 邢卫东 +2 位作者 黄荣福 于连荣 李彦钧 《炼油与化工》 CAS 2024年第5期40-43,共4页
以乙氧基镁为载体,添加第3组分,制备出JC催化剂。文中介绍了催化剂的制备及基本性能指标,JC催化剂制备工艺简单,颗粒形态好,活性较高,粒径分布窄。JC催化剂应用于淤浆法间歇中试聚合生产超高分子量聚乙烯,装置运行平稳,各批次产品分子... 以乙氧基镁为载体,添加第3组分,制备出JC催化剂。文中介绍了催化剂的制备及基本性能指标,JC催化剂制备工艺简单,颗粒形态好,活性较高,粒径分布窄。JC催化剂应用于淤浆法间歇中试聚合生产超高分子量聚乙烯,装置运行平稳,各批次产品分子量控制稳定,生产的超高分子量聚乙烯粒径分布集中,堆密度高于0.42 g/cm^(3),细粉含量少,具有很好的物理力学性能,中试产品加工性能良好,加工的管材制品内外表面光滑,管材制品物理力学性能优于对比UHMWPE,表明JC催化剂可用于生产超高分子量聚乙烯。 展开更多
关键词 乙氧基镁载体 乙烯聚合 ZIEGLER-NATTA催化剂
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低缠结超高相对分子质量聚乙烯的制备及表征
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作者 花紫阳 郭建双 +3 位作者 李建龙 赖春波 李雪坤 王原 《精细化工》 EI CAS CSCD 北大核心 2024年第6期1262-1269,共8页
为解决传统Ziegler-Natta催化剂(简称Z-N催化剂)制备的超高相对分子质量聚乙烯(UHMWPE)缠结程度较高、加工困难等问题,以MgCl_(2)、TiCl_(4)、异辛醇、正硅酸四乙酯(或邻苯二甲酸二己酯)为主要原料,采用化学反应法制备了氯化镁负载型Z-... 为解决传统Ziegler-Natta催化剂(简称Z-N催化剂)制备的超高相对分子质量聚乙烯(UHMWPE)缠结程度较高、加工困难等问题,以MgCl_(2)、TiCl_(4)、异辛醇、正硅酸四乙酯(或邻苯二甲酸二己酯)为主要原料,采用化学反应法制备了氯化镁负载型Z-N催化剂cat1(或cat2)。分别以cat1、cat2为主催化剂、三乙基铝为助催化剂,采用淤浆聚合工艺制备了低缠结UHMWPE,测定了cat1、cat2的粒径分布和金属元素质量分数,考察了聚合温度、时间对催化剂催化活性和UHMWPE的黏均相对分子质量(M_(v))的影响,并使用流变分析法和DSC热力学退火法对UHMWPE的缠结程度进行了表征。结果表明,制备的cat1、cat2与设计相符,在聚合反应温度分别为65和70℃、反应5 h时,cat1、cat2催化活性分别达到27700、37700 g PE/g cat,制备的UHMWPE的Mv分别为6.01×10^(6)、5.03×10^(6),起始储能模量分别为0.21、0.13 MPa,缠结程度低于商品化UHMWPE。 展开更多
关键词 氯化镁负载型Z-N催化剂 低缠结 超高相对分子质量聚乙烯 淤浆聚合工艺 缠结度 功能材料
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CO_2 reforming of methane over nickel catalysts supported on nanocrystalline MgAl_2O_4 with high surface area 被引量:7
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作者 Narges Hadian Mehran Rezaei +1 位作者 Zeinab Mosayebi Fereshteh Meshkani 《Journal of Natural Gas Chemistry》 EI CAS CSCD 2012年第2期200-206,共7页
In this paper dry reforming of methane (DRM) was carried out over nanocrystalline MgAl2O4-supported Ni catalysts with various Ni loadings. Nanocrystalline MgAl2O4 spinel with high specific surface area was synthesiz... In this paper dry reforming of methane (DRM) was carried out over nanocrystalline MgAl2O4-supported Ni catalysts with various Ni loadings. Nanocrystalline MgAl2O4 spinel with high specific surface area was synthesized by a co-precipitation method with the addition of pluronic P123 triblock copolymer as surfactant, and employed as catalyst support. The prepared samples were characterized by X-ray diffraction (XRD), N2 adsorption, H2 chemisorption, temperature-programmed reduction (TPR), temperature-programmed oxidation (TPO), temperature- programmed desorption (TPD) and transmission and scanning electron microscopies (TEM, SEM) techniques. The obtained results showed that the catalyst support has a nanocrystalline structure (crystal size: about 5 nm) with a high specific surface area (175 m2 g-1) and a mesoporous structure. Increasing in nickel content decreased the specific surface area and nickel dispersion. The prepared catalysts showed high catalytic activity and stability during the reaction. SEM analysis revealed that whisker type carbon deposited over the spent catalysts and increasing in nickel loading increased the amount of deposited carbon. The nickel catalyst with 7 wt% of nickel showed the highest catalytic activity. 展开更多
关键词 dry reforming nickel catalysts magnesium aluminate
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Stabilization of low-valence transition metal towards advanced catalytic effects on the hydrogen storage performance of magnesium hydride 被引量:11
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作者 Jian Zhang Shuai Yan +5 位作者 Guanglin Xia Xiaojie Zhou Xianzheng Lu Linping Yu Xuebin Yu Ping Peng 《Journal of Magnesium and Alloys》 SCIE EI CAS CSCD 2021年第2期647-657,共11页
Magnesium hydride(MgH_(2))has been widely regarded as a potential hydrogen storage material owing to its high gravimetric and volumetric capacity.Its sluggish kinetics and high activation energy barrier,however,severe... Magnesium hydride(MgH_(2))has been widely regarded as a potential hydrogen storage material owing to its high gravimetric and volumetric capacity.Its sluggish kinetics and high activation energy barrier,however,severely limit its practical application.Transition metal oxides(TMOs)have been extensively used as catalysts to improve the hydrogen storage performance of MgH_(2),but the low-valence transition metal(TM)ions,resulting from the reduction of TMOs accompanied by the formation of inactive Mg O,have been demonstrated to be the most effective components.Herein,we theoretically and experimentally confirm that the doping of low-valence TMs into Mg O could effectively weaken the Mg-H bonds and decrease the energy required for hydrogen desorption from MgH_(2),leading to superior catalytic activity compared to both TMOs and Mg O.In particular,the apparent activation energy for the dehydrogenation of Mg(Nb)O-catalyzed MgH_(2)could be reduced to only 84.1 kJ mol^(-1),and the reversible capacity could reach around 7 wt.%after 5 cycles with a capacity retention of 96%.Detailed theoretical calculations confirm that the remarkable orbital hybridization between Mg(Nb)O and MgH_(2)promotes charge transfer from MgO to the MgH_(2)monomer,resulting in significantly weakened stability of MgH_(2),which could effectively enhance its hydrogen storage performance. 展开更多
关键词 magnesium hydride Hydrogen storage DEHYDROGENATION catalystS First-principles calculations SOLID-SOLUTION
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Nickel catalysts supported on MgO with different specific surface area for carbon dioxide reforming of methane 被引量:4
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作者 Luming Zhang Lin Li +2 位作者 Yuhua Zhang Yanxi Zhao Jinlin Li 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2014年第1期66-72,共7页
In this paper, three kinds of MgO with different specific surface area were prepared, and their effects on the catalytic performance of nickel catalysts for the carbon dioxide reforming of methane were investigated. T... In this paper, three kinds of MgO with different specific surface area were prepared, and their effects on the catalytic performance of nickel catalysts for the carbon dioxide reforming of methane were investigated. The results showed that MgO support with the higher specific surface area led to the higher dispersion of the active metal, which resulted in the higher initial activity. On the other hand, the specific surface area of MgO materials might not be the dominant factor for the basicity of support to chemisorb and activate CO2, which was another important factor for the performance of catalysts. Herein, Ni/MgO(CA) catalyst with proper specific surface area and strong ability to activate CO2exhibited stable catalytic property and the carbon species deposited on the Ni/MgO(CA) catalyst after 10 h of reaction at 650 ?C were mainly activated carbon species. 展开更多
关键词 carbon dioxide reforming of methane magnesium oxide nickel catalysts specific surface area
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Facile synthesis of a Ni_(3)S_(2)@C composite using cation exchange resin as an efficient catalyst to improve the kinetic properties of MgH_(2) 被引量:5
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作者 Liang Zeng Zhiqiang Lan +7 位作者 Baobao Li Huiren Liang Xiaobin Wen Xiantun Huang Jun Tan Haizhen Liu Wenzheng Zhou Jin Guo 《Journal of Magnesium and Alloys》 SCIE EI CAS CSCD 2022年第12期3628-3640,共13页
Carbon materials have excellent catalytic effects on the hydrogen storage performance of MgH2. Here, carbon-supported Ni3S2(denoted as Ni3S2@C) was synthesized by a facile chemical route using ion exchange resin and n... Carbon materials have excellent catalytic effects on the hydrogen storage performance of MgH2. Here, carbon-supported Ni3S2(denoted as Ni3S2@C) was synthesized by a facile chemical route using ion exchange resin and nickel acetate tetrahydrate as raw materials and then introduced to improve the hydrogen storage properties of MgH2. The results indicated the addition of 10 wt.% Ni3S2@C prepared by macroporous ion exchange resin can effectively improve the hydrogenation/dehydrogenation kinetic properties of MgH2. At 100 ℃,the dehydrogenated MgH2-Ni3S2@C-4 composite could absorb 5.68 wt.% H2. Additionally, the rehydrogenated MgH2-Ni3S2@C-4 sample could release 6.35 wt.% H2at 275 ℃. The dehydrogenation/hydrogenation enthalpy changes of MgH2-Ni3S2@C-4 were calculated to be 78.5 k J mol-1/-74.7 k J mol-1, i.e., 11.0 k J mol-1/7.3 k J mol-1lower than those of MgH2. The improvement in the kinetic properties of MgH2was ascribed to the multi-phase catalytic action of C, Mg2Ni, and Mg S, which were formed by the reaction between Ni3S2contained in the Ni3S2@C catalyst and Mg during the first hydrogen absorption–desorption process. 展开更多
关键词 magnesium Hydrogen storage performance Catalytic effect Carbon-based catalyst
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