摘要
[目的]研究pH值对纳米羟基磷灰石吸附水体中稀土离子的影响。[方法]用热分解法合成羟基磷灰石(HAP),并研究合成样品的组成、粒径和形状,进行HAP的溶解和修复试验。[结果]结果表明,样品为纯相HAP,形状为球形,粒径为60~8013/11。当溶液pH≤3时,HAP可迅速溶解,且在60min内将REEs^3+全部转化为沉淀;当溶液pH≥4时,HAP的溶解速度和REEs的去除率均明显下降。HAP修复受到稀土离子污染水体的产物主要是稀土磷酸盐,溶液pH值为4、P/REEs为15/5是最佳修复条件。[结论]HAP对水溶液中稀土离子的去除受诸多因素影响。
[ Objective] The aim of this paper was to study the effect of pH value on nano- hydroxyapatitev adsorption rare-earth ions in poiluted water. [ Method] Hydroxyapatite (HAP) was prepared by the pyrolysis method. The fourier transform infrared spectroscopy (FFIR), X- ray diffractometry (XRD) and transmission electron microscopy (TEM) was used to confirm the compostion and shape of syntheticed HAP. The experiment of dissolution and rehab of HAP was carried on. [ Result] The results indicated that the HAP abtained was purity-phased and the diameters was about 60 - 80 nm with a spherical shape. The HAP remediation of contaminated waters by REEs experiments showed under pH-constant system at 3 and below, the dissolution rate of HAP was rapid, and complete conversion of REEs^3+ to precipitation within 60 min. The dissolution rate of HAP decreased with increasing pH value, and the transformation was incomplete at pH value of 4 and above. In the constant pH systems XRD analysis indicated that rareearthapatite was the primary reaction product, the optimal conditions of rehab was pH value of 4 and P/REEs of 15/5. [ Conclusion] HAP to the removal of rare-earth ions in water solution is affected by many factors.
出处
《安徽农业科学》
CAS
北大核心
2008年第23期10164-10167,10196,共5页
Journal of Anhui Agricultural Sciences
基金
南京农业大学优秀青年教师人才引进资金
关键词
稀土离子
羟基磷灰石
稀土磷酸盐
吸附
Rare-earth ions
Hydroxyapatite
Rareearthapatite
Adsorption
