Pass System Ore Storage Capacity Analysis Based on Logistics Theory

Xiao Yan Chen; Ke Ping Zhou

doi:10.4028/www.scientific.net/AMR.838-841.1836

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 838-841Pass System Ore Storage Capacity Analysis Based on...

Pass System Ore Storage Capacity Analysis Based on Logistics Theory

Abstract:

Based on logistics theory and borrowed ideas from logistics model inventory management, an ore logistics model of underground mine was built, and an analytical method which could be used to determine pass system storage capacity was proposed. Simulating real ore transfer process in underground mine mining system, ore input and ore output function of pass system were built, and real-time ore quantity in pass system was graphed. Through comprehensively analyzing the figure of real-time ore quantity in pass system and practical mining production, rational pass system storage capacity was calculated. Combined the practical ore transfer process of panel under level 1470 in Yunnan Tin Company Laochang tin mine number 13-8 ore cluster, storage capacity of pass system in panel is calculated which provided reasonable basis for pass system design in underground mine, and improved the reliability of mine engineering design.

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Periodical:

Advanced Materials Research (Volumes 838-841)

Pages:

1836-1842

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.838-841.1836

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Online since:

November 2013

Authors:

Xiao Yan Chen, Ke Ping Zhou*

Keywords:

Input and output function, Ore Logistics Mode, Pass System, Storage Capacity

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* - Corresponding Author

References

[1] X.Q. Zhang. Introduction of Modern Logistics (Wuhan University of Technology Press, China 2005). (In Chinese).

Google Scholar

[2] Z.T. Wang. Modern Logistics (China Logistics Supply Publishing House, China 1995). (In Chinese).

Google Scholar

[3] M.K. He. Logistics system theory (China Economic Publishing House, China 2002). (In Chinese).

Google Scholar

[4] J.Y. Liu: Journal of Industrial Technological Economics, Vol. 25 (2006) No 1, p.12. (In Chinese).

Google Scholar

[5] F. Yan and Q.L. Dong: Journal of Beijing Jiaotong University, Vol. 8 (2009) No 1, p.28. (In Chinese).

Google Scholar

[6] Q.Q. Xu: The Study on Modern Regional Synergetic Logistics System (MS, Tianjin University, Tianjin 2003). (In Chinese).

Google Scholar

[7] Q.Q. Xu and L.X. Miu: Logistics Technology, (2009) No 1, p.1. (In Chinese).

Google Scholar

[8] Y.X. Li, X. P. Hu and Y. Xiong: Journal of System Simulation, Vol. 19 (2009) No 7, p.1411. (In Chinese).

Google Scholar

[9] Y.L. Zhang and M.X. Shao: Logistics Technology, (2005) No 12, p.62. (In Chinese).

Google Scholar

[10] X.Y. Ma, X.S. Qin and C. Cheng: Computer Engineering and Applications, Vol. 48 (2012) No 20, p.244. (In Chinese).

Google Scholar

[11] C. L Yang: Visual Simulation and Optimization of Transportation System in Large Seale Underground Mine (MS, Central South University, Changsha 2008). (In Chinese).

Google Scholar

[12] Berton, M. Jubinville, D. Hodouin, C.G. Prévost, and P. Navarra: Minerals Engineering, (2013) No 40, p.56.

DOI: 10.1016/j.mineng.2012.10.001

Google Scholar