以硅藻土为原料制备铯吸附剂及其吸附性能初探
收稿日期: 2020-09-25
网络出版日期: 2021-07-08
基金资助
青海省科技厅应用基础研究项目(2017-Zj-726);中科院项目(IAGM-2019-A04);中科院项目(KFJ-HGZX-008)
Preparation of cesium adsorbent from diatomite and its adsorption properties
Received date: 2020-09-25
Online published: 2021-07-08
铯是一种极为重要的稀有碱金属资源,在光纤通信、催化、医疗以及能源等领域有着广泛的应用。中国青海、西藏等地的盐湖卤水中蕴藏着储量可观的铯资源有待开发,因此开展溶液中铯离子分离提取技术的研究意义重大。以无毒且价廉的硅藻土为硅源,以三嵌段聚合物P-123为模板剂,采用一步法合成了磷钼酸铵负载量为27%(质量分数)的磷钼酸铵/二氧化硅(AMP/SiO2)复合吸附材料用于吸附铯离子(Cs+)。通过扫描电镜(SEM)、X射线衍射(XRD)、傅里叶变换红外光谱仪(ICP-OES)等对合成的AMP/SiO2进行了表征,并初步考察了AMP/SiO2对水溶液中Cs+的吸附性能。研究结果表明,AMP较为均匀地分散在介孔二氧化硅的结构和孔道中,并且该复合材料有较大的比表面积(451.2 m2/g)和孔体积(0.95 cm3/g)。此外,该吸附剂对Cs+的吸附过程符合拟二级动力学模型和Freundlich等温吸附模型,Cs+平衡吸附容量可达63.45 mg/g。
董超超 , 邓小川 , 王斌 , 樊发英 , 朱朝梁 , 樊洁 , 卿彬菊 . 以硅藻土为原料制备铯吸附剂及其吸附性能初探[J]. 无机盐工业, 2021 , 53(6) : 134 -139 . DOI: 10.19964/j.issn.1006-4990.2020-0436
Cesium is an extremely important rare alkali metal resource,which is widely used in the fields of optical fiber communication,catalysis,medical treatment and energy.There are considerable reserves of cesium in the salt lake brine in Qinghai,Tibet and other places to be developed.Therefore,it is of great significance to carry out research on the separation and extraction technology of cesium ions in solution.Non-toxic and inexpensive diatomite was used as the silicon source,triblock polymer P-123 was used as a template agent,and the one step synthesis method was used to synthesize AMP/SiO2 composite adsorbent with ammonium molybdophosphate(AMP) loading of 27% used to adsorb cesium ion(Cs+).The AMP/SiO2 was characterized by scanning electron microscope(SEM),X-ray diffraction(XRD),fourier transform infrared spectro-meter(FT-IR) and other analytical instruments,and the adsorption properties of AMP/SiO2 for Cs+ in aqueous solution were preliminary investigated.The results showed that AMP was uniformly dispersed in the structure and pores of mesoporous silica,and the composite had a large specific surface area(451.2 m2/g) and pore volume(0.95 cm3/g).In addition,the adsorp-tion process of adsorbent for Cs+ was in accord with the pseudo-second-order kinetic model and Freundlich isotherm adsorp-tion model,and the equilibrium adsorption capacity was up to 63.45 mg/g.
Key words: diatomite; ammonium molybdophosphate; silica; cesium; adsorption
| [1] | Hamlyn R, Mahapatra M, Orozco I, et al. Morphology and chemical behavior of model CsOx/Cu2O/Cu(111) nanocatalysts for methanol synjournal:Reaction with CO2 and H2[J]. Journal of Chemical Phy-sics, 2020,152(4):1-7. |
| [2] | Parida B, Yoon S, Jeong S M, et al. Recent progress on cesium lead/ tin halide-based inorganic perovskites for stable and efficient solar cells:A review[J]. Solar Energy Materials and Solar Cells, 2020,204:1-29. |
| [3] | Saleem M I, Yang S Y, Sulaman M, et al. All-solution-processed UV-IR broadband trilayer photodetectors with CsPbBr3 colloidal nanocrystals as carriers-extracting layer[J]. Nanotechnology, 2020,31(16):1-9. |
| [4] | 宝阿敏, 钱志强, 郑红, 等. 铷、铯的分离提取方法及其研究进展[J]. 应用化工, 2017,46(7):1377-1382. |
| [5] | 张晶晶, 周蕾, 刘萌, 等. 放射性废水中铯的去除方法研究进展[J]. 化学通报, 2019,82(1):12-17. |
| [6] | 刘泽宇, 王斌, 杨晋生, 等. t-BAMBP/磺化煤油体系萃取溶液中微量铯[J]. 盐湖研究, 2019,27(3):75-80. |
| [7] | 黄建成, 丁冬, 李玉婷, 等. 生物质碳气凝胶/MnO2复合电极对Rb+、Cs+的电吸附行为[J]. 无机盐工业, 2019,51(10):72-76. |
| [8] | 陈侠, 李颖. 离子交换法富集铷、铯研究进展[J]. 无机盐工业, 2019,51(4):6-9. |
| [9] | 李颖, 陈侠, 苗淑兰, 等. 磷钨酸铵复合材料对铷铯吸附性能的研究[J]. 无机盐工业, 2019,51(6):34-37. |
| [10] | Heo Y S, Ryu J M, Park S M, et al. Structural basis for inhibition of protein tyrosine phosphatases by Keggin compounds phosphomoly-bdate and phosphotungstate[J]. Experimental and Molecular Me-dicine, 2002,34(3):211-223. |
| [11] | Smit J, Van R. Ammonium salts of the heteropolyacids as cation ex-changers[J]. Nature, 1958,181(4622):1530-1531. |
| [12] | Wang J L, Zhuang S T. Removal of cesium ions from aqueous solu-tions using various separation technologies[J]. Reviews in Enviro-nmental Science and Bio-Technology, 2019,18(2):231-269. |
| [13] | Ye X S, Wu Z J, Li W, et al. Rubidium and cesium ion adsorption by an ammonium molybdophosphate-calcium alginate composite adsorbent[J]. Colloids and Surfaces A-Physicochemical and En-gineering Aspects, 2009,342(1/2/3):76-83. |
| [14] | Chen S Q, Hu J Y, Shi J, et al. Composite hydrogel particles enca-psulated ammonium molybdophosphate for efficiently cesium sele-ctive removal and enrichment from wastewater[J]. Journal of Ha-zardous Materials, 2019,371:694-704. |
| [15] | Deng H, Li Y X, Huang Y, et al. An efficient composite ion exchan-ger of silica matrix impregnated with ammonium molybdophosphate for cesium uptake from aqueous solution[J]. Chemical Engineering Journal, 2016,286:25-35. |
| [16] | 邵艳秋, 张宇婷, 姜振双, 等. 水解剂氟化铵对Fe-SBA-15结构及催化性能的影响[J]. 无机盐工业, 2019,51(9):97-101. |
| [17] | 王冬华. 氧化锌/SBA-15复合材料制备及其光致发光性质[J]. 无机盐工业, 2018,50(4):27-29,42. |
| [18] | Selim A Q, Mohamed E A, Mobarak M, et al. Cr(Ⅵ) uptake by a composite of processed diatomite with MCM-41:Isotherm,kinetic and thermodynamic studies[J]. Microporous and Mesoporous Ma-terials, 2018,260:84-92. |
| [19] | Sun C Y, Zhang F, Li S F, et al. Synjournal of SBA-15 encapsulated ammonium molybdophosphate using Qaidam natural clay and its use in cesium ion adsorption[J]. RSC Advances, 2015,5(45):35453-35460. |
| [20] | Park Y, Shin W S, Choi S J. Ammonium salt of heteropoly acid im-mobilized on mesoporous silica(SBA-15):An efficient ion exch-anger for cesium ion[J]. Chemical Engineering Journal, 2013,220:204-213. |
| [21] | Dan H, Xian Q, Chen L, et al. One-step direct synjournal of mesopo-rous AMP/SBA-15 using PMA as acid media and its use in cesium ion removal[J]. Journal of Nuclear Materials, 2019,527:1-8. |
| [22] | 刘澜. 改性稻秆吸附剂表征及处理亚甲基蓝溶液的吸附性能研究[D]. 重庆:重庆大学, 2011. |
| [23] | Murthy G S, Sivaiah M V, Kumar S S, et al. Adsorption of cesium on a composite inorganic exchanger zirconium phosphate-ammoni-um molybdophosphate[J]. Journal of Radioanalytical and Nuclear Chemistry, 2004,260:109-114. |
| [24] | Park Y, Lee Y C, Shin W S, et al. Removal of cobalt,strontium and cesium from radioactive laundry wastewater by ammonium molyb-dophosphate-polyacrylonitrile(AMP-PAN)[J]. Chemical Engin-eering Journal, 2010,162:685-695. |
| [25] | Chakravarty R, Ram R, Pillai K T, et al. Ammonium molybdophos-phate impregnated alumina microspheres as a new generation sor-bent for chromatographic137Cs/137mBa generator[J]. Journal of Ch-romatography A, 2012,1220:82-91. |
| [26] | Dan H, Xian Q, Chen L. Fabrication of AMP/SBA-15 with various morphologies for cesium removal from aqueous solution[J]. Jour-nal of Sol-Gel Science and Technology, 2019,91:165-177. |
/
| 〈 |
|
〉 |
