Archives
 
Year 2020
 
Vol 61, Issue 5, [10 - 2020]

Research, design, manufacture leakage current protection device for 660V/1140V underground mine electrical networks

DOI:10.46326/JMES.2020.61(5).11

  • Affiliations:

    1 Faculty of Electro-Mechanical, Hanoi University of Mining and Geology

  • *Corresponding:
    This email address is being protected from spambots. You need JavaScript enabled to view it.
  • Received: 15th-Aug-2020
  • Revised: 23rd-Oct-2020
  • Accepted: 31st-Oct-2020
  • Online: 31st-Oct-2020
Pages: 96 - 103
Views: 1788
View onlineView online
Downloads: 868
Downdload PDF
Rating: 5.0, Total rating: 86
Yours rating

Cited by: 2

Abstract:

This paper presents the results of researching, designing and manufacturing leakage current protection device for 660 V/1140 V ungrounded three-phase electrical networks. The outstanding features of the device are: ability to create wide deformation characteristic; automatically detect and grounded the leakage phase. Device test results show that relay operation time ​​for symmetrical and asymmetric leak resistors are 30 kΩ/60 kΩ per phase and 20 kΩ /50 kΩ for 660 V/1.140 V networks respectively. The total operating time of the device when single phase leaking through a 1 kΩ resistor not exceed 105 ms. The circuit automatically detects and accurately grounded the leakage phase through 100 Ω resistance, the total detection and grounded the leakage phase time does not exceed 110 ms. This research result can be applied in the design and manufacture of high-quality and reliable leakage current protection devices used in underground mines, replacing imported products.

How to Cite
Nguyen, K.Thac, Kim, L.Ngoc, Nguyen, S.Tien and Nguyen, G.Truong 2020. Research, design, manufacture leakage current protection device for 660V/1140V underground mine electrical networks (in Vietnamese). Journal of Mining and Earth Sciences. 61, 5 (Oct, 2020), 96-103. DOI:https://doi.org/10.46326/JMES.2020.61(5).11.
References

Ensley BD, (2000). Rationale for use of Phytoremediation in Trace Elements in Terrestrial Plants, Eds. Raskin and Ensley. John Wiley and Sons, Inc, New York, 3-11.

IAEA, (2004). Remediation of sites with dispersed radioactive contamination. Technical Reports No. 424, Vienna, 125.

IAEA, (2006). Classification of soil systems on the basis of transfer factors of radionuclides from soil to reference plants. Technical Reports No. 424, Vienna, 257.

Lê Quốc Trung, Bùi Khánh Dư, Trịnh Xuân Bền, Nguyễn Quốc Hưng, (2005). Đề án thăm dò nâng cấp trữ lượng và thăm dò khai thác năm 2007 và 2008 trong giai đoạn sản xuất mỏ đồng Sin Quyền - Lào Cai tháng 04/2005. Công ty mỏ tuyển đồng Sin Quyền - Lào Cai, 185. 

N. Q. Huy, P. D. Hien, T. V. Luyen, D. V. Hoang, H. T. Hiep, N. H. Quang, N. Q. Long, D. D. Nhan, N. T. Binh, P. S. Hai, (2012). Natural radioactivity and external dose assessment of surface soil in Vietnam. Radiation Protection Dosimetry Vol. 151(3), 522-532.