Research on Hazard Identification and Assessment of Grade Cross Operations in Three Gorges Ship Lift

Jian Ping Wang; Ben Wu Nie; Feng Yu Zhang; Zhi Li

doi:10.4028/www.scientific.net/AMM.368-370.1990

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 368-370Research on Hazard Identification and Assessment...

Research on Hazard Identification and Assessment of Grade Cross Operations in Three Gorges Ship Lift

Abstract:

The Three Gorges Ship Lift project is characterized by a long construction period, an amount of construction tenders, a plenty of construction teams, a multiplex levels of practitioners, much overhead work, a broad range of construction equipment, risky interference among construction operations, and simultaneous construction at different levels and/or sides, which come into grade cross operations and bring a great deal of difficulties to safety management. As a starting point by grade cross operations in Three Gorges Ship Lift, this research is as follows: 1. Analysis of the processes in operating unit; 2. Risk identification to the Falling Accidents, Objects Strike and Collapse in according to the standards of accident classification; 3. Assessment to rank of hazard on the basis of the result that the risk identification; 4. Put forward the effective measures which reduce hazard in reference to appraise concrete clauses involved. Finally, this paper will give a example as embedded parts and make risk assessment more scientific through comparing with calculating.

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Periodical:

Applied Mechanics and Materials (Volumes 368-370)

Pages:

1990-1994

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https://doi.org/10.4028/www.scientific.net/AMM.368-370.1990

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August 2013

Authors:

Jian Ping Wang, Ben Wu Nie, Feng Yu Zhang, Zhi Li

Keywords:

Grade Cross Operations, Risk Assessment, Risk Identification, Three Gorges Ship Lift

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References

[1] N. Xinqiang, S. Weibang. Ship lock and ship lift. China WaterPower Press, (2007).

Google Scholar

[2] S. Ziping. Ship elevator in Three Gorges characteristics and analysis. design of hydro project, 2010, 3: 125-127.

Google Scholar

[3] W. Jianping, G. Ting, N. Benwu. Research on Ship elevator in Three Gorge Identification and control of major hazards. China three gorges university safety management research institute, 2011, 12: 7-9.

Google Scholar

[4] Y. Xiyin, L. Zhanze. Safety management and control of the ship lift the continued construction of early works. Gezhouba group science and technology, 2008, 12(4): 76-78.

Google Scholar

[5] G. Zuoie, Z. Quanping, X. Shifa. Characteristics of ship-lift foundation of three gorges project and deformation during construction . Hydropower Automation and Dam Monitoring, 2008, 8(27): 54-57.

Google Scholar

[6] W. Zongzhi, W. Lijun. The identification and monitoron the major hazard installations is the basis for the company's emergency management system. Journal of safety science and technology, 2005, 1(6) : 58-62.

Google Scholar

[7] P. Jianhua. Analysis on the dangerous source and accidents threat in construction. Journal of safety science and technology, 2008, 4(4): 126-128.

Google Scholar

[8] H. Fuyi. Dangerous source identification and risk assessment of Hydroelectric Construction. Water Resources and Hydropower Engineering, 2004, 5: 217-225.

Google Scholar

[9] D. Peibin, G. Hailin, L. Xiaolei. Safety Risk Analysis on Crossing Task in the Construction of Hydropower Station. Journal of Anhui Agricultural Sciences, 2009, 37(16): 76-78.

Google Scholar

[10] Z. Yuanyue, F. Xuehua and L. Kerong. Application of improved LEC method to hazard evaluation in hydroelectric project construction. Journal of safety science and technology, 2009, 8: 51-54.

Google Scholar

[11] Z. Xunkui, Y. aihua. LEC (Liquid Encapsulated Czochralski) method introduced with management reduction factor,. Journal of safety science and technology, 2009, 12(5): 205-208.

Google Scholar

[12] Y. Chunyan, M. Yuqin. The application of LEC method on dangerous source identification and assessment in the metal mine construction. Journal of safety science and technology, 2011, 8(7): 175-180.

Google Scholar