Advertisement

Resource assessment of copper deposits in China

  • Zhang Qin-li Email author
  • Gu De-sheng 
  • T. Shoji
  • H. Kaneda
Geology, Mining And Civil Engineering

Abstract

Copper-bearing deposits of China are statistically analyzed in terms of ore grade, metal amount and ore tonnage. Each of grade and metal amount shows more or less a lognormal distribution. Analysis gives 10 copper metallogenic districts, each having specific densities of deposit numbers and copper reserves larger than 3. Based on the ratio of copper in ore value (RCu), Chinese copper deposits are classified into two groups: mainly copper-producing deposits (MC: RCu⩾0.5) and accessorily copper-producing deposits (AC: RCu<0.5). The grade-tonnage relation of MC deposits can be combined by two exponential functions approximating high grade (>3.0%) and low grade (<2.0%) parts. The critical copper grade, which is obtained from the low grade part of the relation, is 0.34%. Chinese copper resources are concluded to become pessimistic, because some mines are working with grades close to this critical value. Taking account of the fact that many copper deposits are actually polymetallic, Cu-equivalent grades, which are converted from ratios of metal prices to the copper price, are also introduced. The critical Cu-equivalent grade of MC deposits (0.43%) also suggests that Chinese copper resources are pessimistic.

Key words

copper resources critical grade assessment 

CLC number

P964 

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

References

  1. [1]
    Shoji T, Kaneda H. Ore value-tonnage diagrams for resource assessment [J]. Nonrenewable Resources, 1998, 7(1): 25–36.CrossRefGoogle Scholar
  2. [2]
    Zhang Qin-li, Shoji T, Kaneda H. Grade-tonnage models of copper deposits in China [J]. Journal of the Mining and Materials Processing Institute of Japan, 2004, 120(1): 19–24.Google Scholar
  3. [3]
    ZHU Xun, XIANG Ren-jie, HAN Xin-min. Mineral Situation of China, Volume 2, Metal Minerals [M]. Beijing: Science Press, 1999. (in Chinese)Google Scholar
  4. [4]
    HUANG Chong-ke, BAI Ye, ZHU Yu-sheng, et al. Copper Deposit of China [M]. Beijing: Geological Publishing House, 2001. (in Chinese)Google Scholar
  5. [5]
    CHENG Yu-qi, SHEN Yong-he, CAO Guo-quan. The Introduction of Regional Geology of China [M]. Beijing: Geological Publishing House, 1994. (in Chinese)Google Scholar
  6. [6]
    WANG Ping-an, Ishihara S. Metallogeny, minerogenic series, and gold mineralization of the Qinling orogen [J]. China International Geology Review, 2001, 43(6): 523–538.CrossRefGoogle Scholar
  7. [7]
    LIU Lian-sheng. Atlas of Ferrous and Nonferrous Metals Resources of China [M]. Beijing: Geological Publishing House, 1996. (in Chinese)Google Scholar
  8. [8]
    ZHANG Qin-li, Shoji T. Copper metallogenic districts and their geological characteristics in China [J]. Journal of the Mining and Materials Processing Institute of Japan, 2004, 120(2): 119–125.Google Scholar
  9. [9]
    Shoji T. Resources and the environment: Which does limit economic growth? [A]. MMIJ/IMM Joint Symposium [C]. Kyoto, Japan, 1989. 109–114.Google Scholar
  10. [10]
    Shoji T. Optimistic and pessimistic resource estimates [A]. 1st International Conference Processing Materials for Properties [C]. Honolulu, USA: Minerals Metals & Materials Society, 1993.Google Scholar

Copyright information

© Central South University 2005

Authors and Affiliations

  • Zhang Qin-li 
    • 1
    Email author
  • Gu De-sheng 
    • 1
  • T. Shoji
    • 2
  • H. Kaneda
    • 3
  1. 1.School of Resources and Safety EngineeringCentral South UniversityChangshaChina
  2. 2.Department of Environment SystemSchool of Frontier Sciences, the University of TokyoTokyoJapan
  3. 3.Department of Life Area Environmental ScienceFaculty of Science, the Toho UniversityTibaJapan

Personalised recommendations