贮氢电极是一种关键的能源转换和储存技术,是用于储存和释放氢气的重要组件。它在氢能源领域发挥着重要作用,具有广阔的应用前景。相关的英语短句和例句可帮助人们更好地了解和应用本技术。英语短句可以简要描述贮氢电极的原理和功能,例句则可以展示贮氢电极在实际应用中的效果和意义。这些短句和例句有助于促进贮氢电极技术的推广和应用,同时也有利于加强国际交流与合作。通过深入理解和积累相关英语短句和例句,能进一步推动贮氢电极技术的发展和创新。
贮氢电极,hydrogen storage electrode
1)hydrogen storage electrode贮氢电极
1.Study of performances ofhydrogen storage electrode modified with CoO;CoO掺杂对贮氢电极性能影响的研究
2.Study of temperature propertes ofhydrogen storage electrodes;贮氢电极温度特性的研究
3.Analyses of degradable causes ofhydrogen storage electrodes;贮氢电极失效原因的分析
英文短句/例句
1.ON PROPERTIES OF La RICH AND Ce RICH MISCHMETAL HYDROGEN STORAGE ELECTRODES富镧和富铈混合稀土贮氢电极的性能
2.A Study on Amorphous Ce-Mg Hydrogen Storage Electrode Alloys;非晶态Ce-Mg系贮氢电极合金研究
3.Study of LPC Hydrogen Storage Alloy with Technique of Quenching and Annealing;快淬及热处理LPC贮氢电极材料的研究
4.An Investigation on the Structural and Electrochemical Properties of the TiV-Based Hydrogen Storage Electrode Alloys;钛钒基贮氢电极合金结构和电化学性能研究
5.Effects of pH value of surface electroplating Ni to the La-Mg-Ni hydrogen storage electrode表面电镀镍pH值对La-Mg-Ni系贮氢电极的影响
6.An Investigation on the La-Ni-Sn-based AB_(5+x) Type Co-free Hydrogen Storage Electrode Alloys;La-Ni-Sn系AB_(5+x)型无Co贮氢电极合金的研究
7.A Study on the Novel V-Ti-Ni-Zr Based Dual-phase Hydrogen Storage Electrode Alloys;新型V-Ti-Ni-Zr基双相贮氢电极合金研究
8.The Electrochemical Properties Studies on Microencapsulated La-Mg-Ni-based A_2B_7-type Hydrogen Storage Electrode Alloys;表面包覆La-Mg-Ni系A_2B_7型贮氢电极合金的电化学性能研究
9.An Investigation on the Phase Struture and Electrochemical Properties of the La-Mg-Ni-based A_2B_7-type Hydrogen Storage Electrode Alloys;La-Mg-Ni系A_2B_7型贮氢电极合金的相结构与电化学性能研究
10.The Phase Structures and Electrochemical Properties of La-Mg-Ni-Co Based AB_3-type Hydrogen Storage Alloys;La-Mg-Ni-Co系AB_3型贮氢电极合金的相结构与电化学性能
11.The Phase Structures and Electrochemical Properties of Melt-spun Low-Co and Co-free AB_5-type Hydrogen Storage Alloys;快速凝固AB_5型低Co及无Co贮氢电极合金的相结构与电化学性能
12.Effects of Substitution of Zr or Ti for La on the Structure and Electrochemical Properties of La-Mg-Ni-Co-based Hydrogen Storage Electrode Alloys;Zr、Ti替代La对La-Mg-Ni-Co系贮氢电极合金结构及电化学性能的影响
13.The Phase Structure and Electrochemical Properties of La-Mg-Ni-Co Based Hydrogen Storage Electrode Alloys;La-Mg-Ni-Co系贮氢电极合金的相结构与电化学性能
14.Phase Structures and Electrochemical Properties of Ti-V-Ni V-based Solid Solution Type Alloys;Ti-V-Ni系钒基固溶体型贮氢电极合金的相结构与电化学性能
15.The Phase Structures and Electrochemical Properties of Low-Co and Co-free AB_5-type Hydrogen Storage Alloys;AB_5型低Co与无Co贮氢电极合金的相结构与电化学性能
16.The Research on Electrochemical Performance of Zr-Cr-Ni AB_2 Laves Phase Hydrogen Storage Alloys;Zr-Cr-Ni系AB_2型Laves相贮氢电极合金的电化学特性研究
17.The Effects of Chemical Composition and Rapid Quenching on the Phase Structure and Electrochemical Properties of Hydrogen Storage Electrode Alloys;合金成分及快凝处理对贮氢电极合金相结构和电化学性能的影响
18.Microstructure and Electrochemical Properties of V-Ti-Ni-Zr Based Hydrogen Storage Electrode Alloys;V-Ti-Ni-Zr基贮氢电极合金的微结构及电化学性能
相关短句/例句
MH electrode贮氢电极
1.Kinetics performance ofMH electrode was investigated.采用电化学沉积镍的方法对贮氢合金电极进行了表面修饰,并对贮氢电极动力学性能进行研究。
2.The results showed that charge rate has obvious influence on charge electrode potentials and charge efficiency and discharge rate has obvious effect on discharge performance;electrochemical reaction impedance of theMH electrode decreased with the increase of depth of discharge,and increased when the DOD was above 8.结果表明:在实验选择的充放制度下,充电倍率对贮氢电极的充电电位、充电效率及放电倍率对放电性能有明显的影响;在放电过程中,贮氢电极表面电化学反应阻抗随放电深度增加而减小,当放电深度大于80%时电化学反应阻抗又增大。
3.The experiment showed that the discharge rapacity of theMH electrode increased a little when 3% silver was added, but the amount of the gas escaped from the simulated cell was obviously reduced.实验表明,在贮氢电极中添加3%的银添加剂,电极容量略为增加,但明显降低了模拟电池气体的析出量。
3)MgNiCu hydrogen storage electrodesMgNiCu贮氢电极
4)hydrogen storage electrode alloys贮氢电极合金
1.Effects of substitution of Nd for La on properties of La-Mg-Ni system A_2B_7-typehydrogen storage electrode alloys;Nd替代La对La-Mg-Ni系A_2B_7型贮氢电极合金性能的影响
2.4hydrogen storage electrode alloys were prepared by cold crucible melting under argon gas atmosphere.4贮氢电极合金,采用XRD、三电极体系及SEM研究相结构、电化学性能及电极的表面状态。
3.6)hydrogen storage electrode alloys were prepared by cold crucible levitation melting under argon gas atmosphere.6)贮氢电极合金,采用FESEM,EDS,XRD,p-c-t测试及三电极电化学性能测试研究合金的相成分、相结构、p-c-t曲线和电化学性能。
5)hydrogen storage alloy electrode贮氢合金电极
1.Effects of heat treatment on the performance ofhydrogen storage alloy electrode;热处理对贮氢合金电极性能的影响
2.The effects of silver additive to La-rich AB5-typehydrogen storage alloy electrodes were investigated using the constant current charge/discharge and pulse-discharge test.用恒电流充放电和脉冲放电方法研究了含银添加剂对富镧AB5型贮氢合金电极电化学性能的影响。
3.The surface treatment ofhydrogen storage alloy electrode is an effective method to improve its electrochemical performances.贮氢合金电极的表面处理是改善其电化学性能的有效方法。
6)hydrogen storage electrode alloy贮氢电极合金
1.New type TiV-basedhydrogen storage electrode alloy;新型钛钒系贮氢电极合金
2.6hydrogen storage electrode alloys prepared by both conventional casting and melt-spinning processes at different solidification rate were studied comparatively.研究了单辊快淬快速凝固处理对无Co贮氢电极合金MlNi4。
3.Six series ofhydrogen storage electrode alloy RE (NiCoMnTi)5 with a general formula of AαA1-αB5 were prepared where AαA1-α is binary rare earth metal mixture among La, Ce, Pr, Nd, and B is nickel partially substituted by Co, Mn and Ti.制备了6个系列通式为A_αA_(1-α)B_5的RE(NiCoMnTi)_5贮氢电极合金(其中,A_αA_(1-α)为La,Ce,Pr,Nd 4个元素中任意2个的组合),测定了它们在100次循环中的最大放电容量C_(max)及部分合金的晶胞体积V_(cell),结果表明:C_(max)主要由V_(cell)决定,C_(max)先随V_(cell)的增大而增加,在V_(cell)≈85。
延伸阅读
混合稀土金属-镍系贮氢材料分子式:MmNi5±XCAS号:性质:是用低镁高铈的混合稀土金属、镍和其,他合金元素制备而成,性能略低于LaNi5±X和M1Ni5±X,但价格低廉。