X射线荧光方法在矿区环境地球化学研究中的应用

庹先国; 滕彦国; 徐争启; 倪师军; 张成江

Volume 28 Issue 6

Nov. 2003

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Article Navigation > Earth Science > 2003 > 28(6): 702-706

TUO Xian-guo, TENG Yan-guo, XU Zheng-qi, NI Shi-jun, ZHANG Cheng-jiang, 2003. Application XRF to Study Environmental Geochemistry in Mining Area. Earth Science, 28(6): 702-706.

Citation:

TUO Xian-guo, TENG Yan-guo, XU Zheng-qi, NI Shi-jun, ZHANG Cheng-jiang, 2003. Application XRF to Study Environmental Geochemistry in Mining Area. Earth Science, 28(6): 702-706.

TUO Xian-guo, TENG Yan-guo, XU Zheng-qi, NI Shi-jun, ZHANG Cheng-jiang, 2003. Application XRF to Study Environmental Geochemistry in Mining Area. Earth Science, 28(6): 702-706.

Citation:

TUO Xian-guo, TENG Yan-guo, XU Zheng-qi, NI Shi-jun, ZHANG Cheng-jiang, 2003. Application XRF to Study Environmental Geochemistry in Mining Area. Earth Science, 28(6): 702-706.

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Application XRF to Study Environmental Geochemistry in Mining Area

1.
Faculty of Earth Science and Mineral Resources, China University of Geosciences, Beijing 100083, China
2.
Chengdu University of Technology, Chengdu 610059, China
3.
Institute of Environmental Sciences, Beijing Normal University, Beijing 100875, China

Received Date: 2003-06-23
Publish Date: 2003-11-25

Abstract

Abstract

The study objective is to investigate the feasibility of using XRF technique to research mining environmental geochemistry and to reveal the pattern of trace elements in mining environment. A high sensitive EDXRF analyzer was adopted to study environmental geochemistry in Panzhihua region. An EDXRF analyzer is made up of a double exciting apparatus with low energy X ray tube and isotope source and electricity cooled Sin PIN detector. The analyzer is characterized of high energy resolution and low detection limit. Some trace metal concentration was analyzed by above EDXRF analyzer in stream sediments in study area. The result shows that XRF can analyze concentrations of chemical elements in stream sediments and study the characteristics of environmental geochemistry.
- XRF,
- mining activities,
- stream sediment,
- environmental geochemistry

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References(23)

References

[1]	Teng Y, Tuo X, Ni S, et al. Environmental geochemistry of mining activities in Panzhihua region, southwestern China[J]. Journal of China University of Geosciences, 2001, 12(4) : 296-300.
[2]	Boni M, Costabile S, De Vivo B, et al. Potential environmental hazard in the mining district of southern Iglesiente (SW Sardinia, Italy)[J]. Journal of Geochemical Exploration, 1999, 67 : 417-430. doi: 10.1016/S0375-6742(99)00078-3
[3]	Ripley E A, Redmann D E, Crowder A A, et al. Environmental effects of mining[M]. 1st ed. Florida: Lucie Press, 1996.1-356.
[4]	Thornton I. Impacts of mining on the environment: Some local, regional and global issues[J]. Applied Geochemistry, 1996, 11 : 355-361. doi: 10.1016/0883-2927(95)00064-X
[5]	倪师军, 张成江, 滕彦国, 等. 矿业环境影响的地球化学研究[J]. 矿物岩石, 2001, 21 (3): 190-193. NI S J, ZHANG C J, TENG Y G, et al. Geochemistry in the mining environmental impact[J]. Journal of Mineralogy and Petrology, 2001, 21(3) : 190-193.
[6]	Allan R. Introduction : Mining and metals in the environment[J]. Journal of Geochemical Exploration, 1997, 58: 95-100. doi: 10.1016/S0375-6742(97)00004-6
[7]	Dinelli E F, Tateo. Factors controlling heavy-metal dispersion in mining areas: The case of Vigonzano (Northern Italy), a Fe-Cu sulfide deposit associated with ophiolitic rocks[J]. Environmental Geology, 2001, 40: 1138-1150. doi: 10.1007/s002540100316
[8]	Gonzalez H, Ramirez M, Torres I. Impact of nickel mining and metallurgical activities on the distribution of heavy metals in sediments of Levisa, Cabonico and Nipe Bay s, Cuba[J]. Environmental Geochemistry and Health, 1997, 19: 57-62. doi: 10.1023/A:1018490103105
[9]	Kramar U. Advances in energy-dispersive X-ray fluorescence[J]. Journal of Geochemical Exploration, 1997, 58: 73-80. doi: 10.1016/S0375-6742(96)00053-2
[10]	滕彦国, 庹先国, 倪师军, 等. EDXRF方法在土壤重金属污染评价中的应用[J]. 核技术, 2003, 26 (6): 440-443. doi: 10.3321/j.issn:0253-3219.2003.06.009 TENG Y G, TUO X G, NI S J, et al. Application of EDXRF in assessing heavy metal pollution in soil[J]. Nuclear Techniques, 2003, 26(6) : 440-443 doi: 10.3321/j.issn:0253-3219.2003.06.009
[11]	Boyle J F. Isotope-source, energy-dispersive XRF analysis of geological materials using gas-filled proportional counters: Signal deconvolution using simulated peak shapes[J]. X-Ray Spectrometry, 1999, 28(3) : 178-182. doi: 10.1002/(SICI)1097-4539(199905/06)28:3<178::AID-XRS334>3.0.CO;2-A
[12]	Bradeley D A, Farquharson M J. XRF and the in vivo evaluation of toxicological metals[J]. X-Ray Spectrometry, 1999, 28(4) : 270-274. doi: 10.1002/(SICI)1097-4539(199907/08)28:4<270::AID-XRS350>3.0.CO;2-U
[13]	Sbarato V M, Sanchez H J. Analysis of arsenic pollution in groundwater aquifers by X-ray fluorescence[J]. Applied Radiation and Isotopes, 2001, 54(5) : 737-740. doi: 10.1016/S0969-8043(00)00349-3
[14]	庹先国, 梁兴中, 郑建安. EDXRF中复杂基体效应的一种校正方法研究[J]. 核技术, 1998, 21 (8): 482-486. TUO X G, LIANG X Z, ZHENG J A. A method of correcting complex matrix effect in XRF[J]. Nuclear Techniques, 1998, 21(8) : 482-486.
[15]	庹先国, 周建斌, 童运福, 等. 特征参数分类法在XRF基体效应校正中的应用[J]. 金属矿山, 2000, 12: 40-42. TUO X G, ZHOU J B, TONG Y F, et al. The application of characteristics parameters classification in the correction of matrix effect[J]. Metal Mine, 2000, 12: 40-42.
[16]	庹先国. 高灵敏度EDXRF多元素分析系统仪器、方法及应用[D]. 成都理工大学, 2001.1-81. TUO X G. High sensitive EDXRF multi-element analysis system [D]. Chengdu University of Technology, 2001.1-81.
[17]	滕彦国. 攀枝花地区土壤环境地球化学基线研究[D]. 成都理工大学, 2001.1-95. TENG Y G. Study of soil environmental geochemical baseline in Panzhihua region [D]. Chengdu University of Technology, 2001.1-95.
[18]	Teng Y, Ni S, Tuo X, et al. Geochemical baseline and trace metal pollution of soil in Panzhihua mining area[J]. Chinese Journal of Geochemistry, 2002, 21(3) : 274-281. doi: 10.1007/BF02831093
[19]	Singh A K, Hasnain S I, Banerjee D K. Grain size and geochemical partitioning of heavy metals in sediments of the Damodar River—A tributary of the lower Ganga, India[J]. Environmental Geology, 1999, 39: 90 -98. doi: 10.1007/s002540050439
[20]	Kralik M. A rapid procedure for environmental sampling and evaluation of polluted sediments[J]. Applied Geochemistry, 14 : 807-816. doi: 10.1016/S0883-2927(98)00096-1
[21]	Mǜller G. Schwermetalle in den Sedimenten des Rheins-Vernderungen seit 1971[J]. Umsch Wiss Tech, 1979, 79: 778-783.
[22]	Föstner U, Mǜller G. Concentrations of trace metals and polycyclic aromatic hycarbons in river sediments: Geochemical background, man's influence and environmental impact[J]. Geojournal, 1981, 5 : 417-432.
[23]	Turekian K K, Wedepohl K H. Distribution of the elements in some major units of the earth's crust[J]. Bull Geol Soc Am, 1961, 72 : 175-192. doi: 10.1130/0016-7606(1961)72[175:DOTEIS]2.0.CO;2