Kinetics and mechanisms on the removal of aqueous lead ion by carbonate hydroxyapatite (CHap) are investigated in the present work. Experimental results show that, in the whole pH range, the lead removal percentage increases with decreasing pH values and reaches a maximum at pH=2-3. Under some conditions,the lead residual concentration is below national integrated wastewater discharge standard, even drinking water standard. The removal behavior is a complicated non-homogeneous solid/liquid reaction, which can be described by two stages from kinetic point of view. At the earlier stage, reaction rate is so fast that its kinetic course is intricate, which requires further study. At the latter stage, the rate of reaction becomes slow and the process of reaction accords with one order reaction kinetic equation. Experimental results show that the relationship between reaction rate constant k1 and temperature T accords to Arrhenius Equation, and the activation energy of sorption (Ea) is 11.93 k J/mol and frequency factor (A) is 2.51 s-1. X-ray diffraction (XRD), scanning electron microscopy with an energy dispersive X-ray fluoresence spectrometer (SEM-EDS) and toxicity characteristic leaching procedure (TCLP) test were conducted in this work. It is indicated that the main mechanism is dissolution-precipitation, accompanying with superficial sorption.
参考文献
| [1] | NEPC.Final Impact Statement:National Environment Protection Measure for Ambient Afl Quality[M].Canberra:pub National Environment Protection Council,1998:35. |
| [2] | Anthony L Morrison .[J].Science of the Total Environment,2003,303:125. |
| [3] | G B Freeman;J A Dill;J D Johnson;P J Kurtz,F Parham and H B Matthews .[J].Fundamental and Applied Toxicology,1996,33:109. |
| [4] | A Chlopecka;D C Adriano .[J].Science of The Total Environment,1997,207:195. |
| [5] | P Trivedi;L Axe .[J].Journal of Colloid and Interface Science,2001,244:221. |
| [6] | S L S Stipp;M Hansen;R Kristensen;M F Hochella Jr L Bennedsen,K Dideriksen,T BalicZunic,D Leonard and H J Mathieu .[J].Chemical Geology,2002,190:321. |
| [7] | M Alkan;M Dogan .[J].Journal of Colloid and Interface Science,2001,243:280. |
| [8] | W Admassu;T Breese .[J].Journal of Hazardous Materials,1999,B69:187. |
| [9] | X B Chen;V J Wright;L J Conca;L M Peurrung .[J].Environmental Science and Technology,1997,31(03):624. |
| [10] | M Elena;M R Alexandre;M C Andéa;A C P Carlos,C M Josino and S Marcelo .[J].Environmental Science and Technology,2002,36(07):1625. |
| [11] | M Fuerstenau;K Zhong;W Hu;Y Liu .[J].Minerals Engineering,1997,10(11):1245. |
| [12] | J Jeanjean;M Fedoroff;F Faverjon;U Vincent and J Corset .[J].Journal of Materials Science,1996,31:6156. |
| [13] | M Manecki;P A Maurice;S J Traina .[J].American Mineralogist,2000,85:932. |
| [14] | M Miyake;K Watanabe;Y Nagayama;H Nagasawa and T Suzuki .[J].Journal of The Chemical Society-faraday Transactions,1990,86(12):2303. |
| [15] | M Elena;C C Nilce;C M Josino;M R Alexandre,M C Andéa,C M Josino and S Marcelo .[J].Mater Chara,2004,53:71. |
| [16] | X B Chen;V J Wright;L J Conca;L M Peurrung .[J].Water Air and Soil Pollution,1997,98:57. |
| [17] | Yu LIU;Kangnian ZHONG;Wenyun HU .[J].J Wuhan Ins Chem Technol,1998,20(01):39. |
| [18] | Shuzhen SUN;Jiaheng LEI;Jiangxin WU.[J].Inorg Salt Ind,1992(03):24. |
| [19] | Y Liu;P Comodi .[J].Mineralogical Magazine,1993,57:709. |
| [20] | Huanyan XU .[D].中山大学,2004. |
| [21] | I D Smiciklas;S K Milonjic;P Pfendt;S Raicevic .[J].Separation and Purification Technology,2000,18:185. |
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