Oxygen adsorption/desorption behavior of YBaCo4O7+δ and its application to oxygen removal from nitrogen

A new medium-temperature (200-400 °C) adsorbent material for oxygen removal and air separation, YBaCo4O7+δ, was prepared by the solid-state reaction method. This new adsorbent could adsorb a large quantity of oxygen in the temperature range of 200-370 °C. Adsorbed oxygen could be released by raising temperature over 400 °C or by switching the atmosphere from oxygen to nitrogen. This oxygen adsorption and desorption process had good reproducibility. Taking advantage of this unique oxygen intake/release behavior, a nitrogen purification process was investigated. The results showed that YBaCo4O7+δ material was a promising candidate for the oxygen sorption process and could be used to produce high-purity nitrogen or to remove trace oxygen from other gases.

YBaCo4O7+δ的制备及其氧吸附/脱附性能研究

采用溶胶凝胶法和固态反应法制备了不同比表面积的YBaCo4O7＋δ吸附材料,采用X射线衍射仪、电子扫描显微镜对不同比表面积粒径的YBaCo4O7＋δ料的结构、形貌进行了表征,测试结果表明：溶胶凝胶法和固态反应法制备的YBaCo4O7＋δ料均为六方密排晶体结构（空间群为P63mc（186））,与固态反应法相比,溶胶凝胶法制备的YBaCo4O7＋δ吸附材料粒径较小,且分布较为集中,并研究了粒径对YBaCo4O7＋δ料氧吸附/脱附性能的影响,从室温到1000℃,不同粒径的YBaCo4O7＋δ吸附材料均经历两次氧吸附过程,而溶胶凝胶法制备的YBaCo4O7＋δ 料氧吸附性能明显高于固态反应法制备的YBaCo4O7＋δ料的氧吸附性能,这是因为溶胶凝胶法制备的YBaCo4O7＋δ料具有较小的尺寸,较大的比表面积的缘故。

Al掺杂对YBaCo_4O_7氧吸附和电输运性能的影响

用固态反应法制备了YBaCo4-xAlxO7（x=0.0,0.1,0.2）样品,研究了从室温-900 ℃范围内Al掺杂对氧吸附/脱附和样品电输运性能的影响.Al掺杂降低了样品在低温区（200-400 ℃）的氧吸附量,提高了样品在高温区（700-900 ℃）的相稳定性.此外,Al掺杂减小了样品的空穴浓度和迁移率,提高了样品的电阻率、塞贝克系数和电导活化能.氧吸附/脱附行为和YBaCo4-xAlxO7 样品的电输运性能密切相关.氧吸附增加了空穴浓度,使电阻率和塞贝克系数同时减小.

Gd,Bi掺杂的YBaCo_4O_(7+δ)材料微结构和氧吸附性质

采用固相反应法制备出了Y0.9Gd0.1BaCo4O7+δ和Y0.9Bi0.1BaCo4O7+δ2种吸氧材料,研究吸氧材料的微结构和氧吸附性能.Rietveld全谱拟合XRD结果显示:Y0.9Gd0.1BaCo4O7+δ样品具有单一的YBaCo4O7+δ的晶体结构(空间群为P63mc),而Y0.9Bi0.1BaCo4O7+δ除了具有YBaCo4O7+δ的主相外,还出现了YBiBa2O6第二相材料.Gd,Bi元素的掺杂改变了YBa-Co4O7+δ材料的晶胞参数和Co-O键长键角,使(Co1)O4和(Co2)O4四面体发生了畸变.热重(TG)结果显示:在700～870℃高温区,Y0.9 Bi0.1 BaCo4O7+δ样品的氧吸附性能明显优于YBaCo4O7+δ材料,而Y0.9 Gd0.1 BaCo4O7+δ的氧吸附性能则差于YBaCo4O7+δ.

新型氧分离材料YBaCo_4O_7的氧行为与应用

YBaCo4O7是一种具有奇特氧吸附行为的材料,它在300℃左右的较低温度时就可以吸附其自身质量3%的氧,并且所吸附的氧在400℃可以快速脱附,同时具有稳定的循环特性,是一种非常有潜力的氧分离材料。介绍了YBaCo4O7的晶体结构及在外界温度变化时所产生的独特氧吸附/脱附特性;综述了晶格中不同位置的元素掺杂替代对其氧特性的影响;并对此类材料在透氧膜、脱氧纯化剂等方面的潜在应用进行了初步探索,最后总结了当前存在的一些问题并展望了可能的解决途径。

YBaCo_4O_7及YBaCo_4O_(8.5)中六角超结构的电子衍射分析

制备了氧化学剂量样品YBaCo4O7,通过电子衍射谱分析确定为六角结构,晶格常数a=0.629(5)nm,c=1.023(5)nm;制备的氧非化学剂量样品YBaCo4O8.5中,过量的氧是以超结构的方式存在.通过电子衍射方法确定了其中一种六角超结构相,其晶格参数as=bs=1.090(4)nm,cs=1.002(6)nm.

YBaCo_4O_(7-x)的透氧性研究

采用固相反应合成了YBaCo_4O_(7-x)致密透氧膜材料,并对其进行了XRD分析和热重-差式扫描量热分析。用稳态法测量了在400℃以下的透氧率,在得到YBaCo_4O_(7-x)的透氧率随厚度变化的曲线后发现,在实验的膜厚范围内,透氧率受体相扩散所控制。最后测量了它在较高温度下的透氧率,结果表明在900℃时远远高于400℃左右的透氧率,接近于它们的5～8倍。

Clarification of the oxygen adsorption properties of YBaCo_4O_7 at high temperature by thermogravimetry

The oxygen adsorption/desorption properties of YBaCo4O7 at high temperature were investigated by thermogravimetry(TG) method,in which two types of oxygen adsorption were combined.The first type adsorbed oxygen at about 700 °C and released the adsorbed oxygen at 880 °C.After the first type oxygen desorption,even the temperature and oxygen flow were kept the same,a second type oxygen adsorption at about 880 °C occurred and the adsorbed oxygen were released at above 980 °C.The combination of these two types of...

Ce元素掺杂对YBaCo_4O_(7+δ)氧吸附/脱附性能的影响

本研究采用固态反应法制备了Ce掺杂的YBaCo_4O_(7+δ)氧吸附材料,对其进行了X射线衍射(XRD)分析和热重分析测试,研究了Ce掺杂对其氧吸附/脱附性能的影响。XRD分析结果表明:在x=0.10,0.15,0.20掺杂比例范围内,Ce很好地进入了YBaCo_4O_(7+δ)的晶格,具有单一的YBaCo_4O_(7+δ)的晶体结构,没有出现第二相。热重分析结果表明:从室温到1000℃,所有样品都经历了两次氧吸附过程,Ce掺杂的YBaCo_4O_(7+δ)样品最大氧吸附量明显高于YBaCo_4O_(7+δ)的最大氧吸附量。