Pore structure of ore granular media by computerized tomography image processing

被引:0
作者
吴爱祥 [1 ]
杨保华 [2 ]
习泳 [2 ]
江怀春 [2 ]
机构
[1] Civil and Environment Engineering School, University of Science and Technology Beijing
[2] School of Resources and Safety Engineering, Central South University
来源
Journal of Central South University of Technology | 2007年 / 02期
基金
中国国家自然科学基金;
关键词
ore granular media; pore structure; X-ray computerized tomography; image processing;
D O I
暂无
中图分类号
P575.5 [X射线分析];
学科分类号
070901 ;
摘要
The pore structure images of ore particles located at different heights of leaching column were scanned with X-ray computerized tomography (CT) scanner, the porosity and pore size distribution were calculated and the geometrical shape and connectivity of pores were analyzed based on image process method, and the three dimensional reconstruction of pore structure images was realized. The results show that the porosity of ore particles bed in leaching column is 42.92%, 41.72%, 39.34% at top, middle and bottom zone, respectively. Obviously it has spatial variability and decreases appreciably along the height of the column. The overall average porosity obtained by image processing is 41.33% while the porosity gotten from general measurement method in laboratory is 42.77% showing the results of both methods are consistent well. The pore structure of ore granular media is characterized as a dynamical space network composed of interconnected pore bodies and pore throats. The ratio of throats with equivalent diameter less than 1.91 mm to the total pores is 29.31%, and that of the large pores with equivalent diameter more than 5.73 mm is 2.90%.
引用
收藏
页码:220 / 224
页数:5
相关论文
共 14 条
  • [1] Solution Mining: Leaching and Fluid Recovery of Materials. BARTLETT R W. . 1998
  • [2] The Theory and Application of Granular Dynamics. WU Ai-xiang,SUN Ye-zhi,LIU Xiang-ping. . 2002
  • [3] Network analysis of filter cake pore structure by high resolution X-ray microtomography. LIN C L,MILLER J D. Chemical Engineering . 2000
  • [4] Model for heap leaching of gold ores by cyanidation. SANCHEZ-CHACON A E,LAPIDUS G T. Hydrometallurgy . 1997
  • [5] Using X-ray computed tomography in hydrology: systems, resolutions, and limitations. WILDENSCHILD D,HOPMANS J W,VAZ C M P,et al. Journal of Hydronautics . 2002
  • [6] The application of network model of porous media’s pore structure. CHEN Shu-rong,WANG Da-jian,ZHANG Xiong-wu. Computers and Mathematics With Applications . 2001
  • [7] The Base of Digital Image Processing. ZHU Hong. . 2005
  • [8] Study of pore evolvement model of one ore granular media in heap leaching technology. MA JUN-wei,WU AI-xiang,TANG Xiao-chao,et al. Hunan Nonferrous Metals . 2004
  • [9] Influences of pore geometry, porosity and permeability on initial water saturation: an empirical method for estimating initial water saturation by image analysis. COSKUN S B,WARDLAW N C. Petroleum Science and Engineering . 1995
  • [10] Ultimate recovery in heap leaching operations as established from mineral exposure analysis by X-ray microtomography. MILLER J D,LIN C L,GARCIA C,et al. Mineral Processing . 2003
12