为了提高氢化态Mg-Mn复合物的水反应性能,采用改变反应水溶液pH值和在水溶液中加入不同助剂的方法,通过测量反应过程中不同时刻产生的氢气量对助剂在水反应中的作用进行表征,利用SEM和XRD等测试手段对反应产物进行表征和测试,对反应机理进行分析。结果表明:改变反应溶液的pH值对反应程度及放氢速率的影响不大,且pH值越大,越不利于反应的进行;在溶液中添加助剂焦磷酸钾、六偏磷酸钠、羟基乙叉二膦酸(HEDP)对提高氢化态Mg-Mn复合物的放氢速率有显著促进作用;相比之下,应采用添加磷酸盐助剂的方法来改善氢化态Mg-Mn复合物水反应性能。
In order to improve the water reaction performance of hydrogenated Mg-Mn composites, the pH value of the hydrolysis solution was changed and different additives were added in the solution. The amount of hydrogen produced by different kinds of samples was used to characterize the hydrolysis reactivity. SEM, XRD and other testing methods were used to characterize and test the hydrolysis products. The reaction mechanism was analyzed. The results show that changing the pH value of the reaction solution has a little influence on the hydrolysis rate and the reaction degree, and the higher the pH value, the more disadvantageous the reaction. The addition of additives of the potassium pyrophosphate, sodium hexametaphosphate and HEDP plays a significant role in promoting the hydrogen desorption rate. In contrast, the method of adding phosphate additives should be used to improve the water-reactive properties of the hydrogenated Mg-Mn composites.
参考文献
| [1] | Hydrogen storage in coiled carbon nanotubes[J].International journal of hydrogen energy,2010(3):1313. |
| [2] | H_2 storage on single- and multi-walled carbon nanotubes[J].International journal of hydrogen energy,2010(2):622. |
| [3] | Yi Wang;Weiqiao Deng;Xuewei liu;Xin Wang .Electrochemical Hydrogen Storage Properties Of Ball-milled Multi-wall Carbon Nanotubes[J].International journal of hydrogen energy,2009(3):1437-1443. |
| [4] | 陈霖新.中国氢能源利用现状及发展潜力[J].气体分离,2005(02):13-16. |
| [5] | 张祥春.水电解制氢概况[J].气体分离,2009(03):9-11. |
| [6] | 徐钟平,周敏莉,虞利强,潘相敏.燃料电池汽车及氢能源的发展现状与安全对策[J].消防科学与技术,2010(11):1019-1021. |
| [7] | 张翔,孙奎斌,周俊波.硼氢化钠水解制氢技术研究进展[J].无机盐工业,2010(01):9-12. |
| [8] | 徐东彦,张华民,叶威.硼氢化钠水解制氢[J].化学进展,2007(10):1598-1605. |
| [9] | KOJIMA Y;SUZUK I;KAWAI Y .Hydrogen generation by hydrolysis reaction of magnesium hydride[J].Journal of Materials Science,2004,39:2227-2229. |
| [10] | HUOT J;LIANG G;SCHULZ R .Magnesium-based nanocomposites chemical hydrides[J].Journal of Alloys and Compounds,2003,353(1/2):12-15. |
| [11] | R. V. LukasheV;N. A. Yakovlev;S. N. Klyamkin .Effect of Mechanical Activation on the Reaction of Magnesium Hydride with Water[J].Russian Journal of Inorganic Chemistry,2008(3):343-349. |
| [12] | M.-H. Grosjean;M. Zidoune;L. Roue;J.-Y. Huot .Hydrogen production via hydrolysis reaction from ball-milled Mg-based materials[J].International journal of hydrogen energy,2006(1):109-119. |
| [13] | HU Lian-xi,WANG Er-de.Hydrogen generation via hydrolysis of nanocrystalline MgH2 and MgH2-based composites[J].中国有色金属学会会刊(英文版),2005(05):965-970. |
| [14] | 刘冠鹏,郭效德,段红珍,姜炜,李凤生.Mg粉的新型包覆处理及其水反应特性[J].中国有色金属学报,2007(12):1999-2004. |
| [15] | 南群智 .氢化态Mg-Mn复合物水反应行为研究[D].哈尔滨工业大学,2011. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%