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| Cost Constitution and Parameter Analysis of Bridge Engineering Computation Period by Considering Concerns of Decision Makers |
| WANG Yu-qian1, CHEN Ai-rong2, BIAN Guo-yan3 |
1. Research Institute of Highway, Ministry of Transport, Beijing 100088, China;
2. Department of Bridge Engineering, Tongji University, Shanghai 200092, China;
3. Anhui Construction Quality Supervision Bureau of Traffic Engineering, Hefei Anhui 230051, China |
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Abstract This study discusses the objectives of state-level and enterprise-level positions of decision makers in bridge engineering decision problems and their hierarchical structures. Based on the aforementioned factors, cost classification method is established according to economic evaluation techniques, undertakers, and decision makers' objectives. Social, enterprise, and ecology discount rates are discussed for national economic evaluation, financial evaluation, and environmental cost calculation, respectively. Computation period of cost analysis is discussed for national economic evaluation and financial evaluation. Residual life value of people and compensation are analyzed in order to facilitate the cost calculation related to bridge defect-incurred accidents. Finally, cost and parameter analysis in national economic evaluation and financial evaluation for wind-shielding screen schemes of a particular project is used as an example to illustrate the proposed cost composition and parameter analysis.
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Received: 15 June 2012
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| Fund:Supported by the Technology Project of the Ministry of Transport of China (No.2011318223170);the Surface Project of Basic Research for the National Non-profit Fund of China (No.1206030212021);and the Projects of Communication Science and Technology Progress Plan of Anhui Province(No.2009-5) |
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Corresponding Authors:
WANG Yu-qian, starrybluewong@gmail.com
E-mail: starrybluewong@gmail.com
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[1] HAWK H. Bridge Life-cycle Cost Analysis, NCHRP Report 483[R]. Washington, D.C.:TRB, 2003.
[2] EHLEN, M A. BRIDGELCC2.0 Users Manual[M]. Gaithersburg, MD:National Institute of Standards and Technology, 2003.
[3] SHAO Xudong, PENG Jianxin, YAN Banfu. Framework Research on Design Method for Bridge Life Cycle[J]. Highway, 2006(1):44-49. (in Chinese)
[4] CHEN Airong. Design Processes of Bridges Based on Given Structural Life[M]. Beijing:China Communications Press, 2009. (in Chinese)
[5] CHANKONG V, HAIMES Y Y. Multiobjective Decision Making:Theory and Methodology[M]. New York:Elsevier Science publishing Co. Inc, 1983.
[6] National Development and Reform Commission, Ministry of Construction. Methodology of Economic Evaluation and Parameters for Construction Projects[M]. Beijing:China Planning Press, 2006. (in Chinese)
[7] THOFT-CHRISTENSEN P. User Costs in LCCB Analysis[C]//Optimal Bridge Maintenance Based on Risk and Reliability. Toluca, Mexico:[s.n.], 2008.
[8] National Bureau of Statistics of China. Bulletin of the Revised Historical GDP Data in China[EB/OL].[2006-01-09] http://www.stats.gov.cn/was40/gjtjj_detail.jsp?searchword=1979&presearchword=GDP&channelid=6697&record=251. (in Chinese)
[9] ZHOU Xiaohang, ZHU Chunchao, ZHOU Jian. Hurdle Cut-off Rate Measuring of Commercial Toll Highway Trade[J]. China Journal of Highway and Transport. 2008, 21(3):112-115. (in Chinese)
[10] GOLLIER C. Ecological Discounting[J]. Journal of Economic Theory, 2010, 145(2):812-829.
[11] KIRK S J, DELL'LSOLA A J. Life Cycle Costing for Design Professionals[M]. 2nd ed. New York:Kingsport Press,1995.
[12] WANG Liang. Empirical Study of the Value of Human Life[J]. China Safety Science Journal.2004,14(4):7-11. (in Chinese)
[13] China Legal Publishing House. Compensation of Personal Injury[M]. Beijing:China Legal Publishing House,2009. (in Chinese)
[14] Traffic Management Bureau of Public Security Ministry. Road Traffic Accident Statistics Compilation of P.R.C.[R]. Beijing:Traffic Management Bureau of Public Security Ministry, 2002. (in Chinese)
[15] WANG Yuqian, RUAN Xin, CHEN Airong. Application of Life-cycle Cost Analysis in Decision Making of Vehicle Driving Safety on Bridges under Crosswind[J]. Journal of Highway and Transportation Research and Development, 2008, 25(10):94-98. (in Chinese)
[16] Tongji University. Research Report on the Influence and Design Strategy of Wind on the Driving Safety of Sea-crossing Long-span Bridges[R].Shanghai:Bridge Engineering Department of Tongji University, 2010. (in Chinese)
[17] WANG Yuqian. Cost Analysis Based Decision-making Method and Process of Bridges under Given Structural Life[D]. Shanghai:Tongji University, 2011. (in Chinese) |
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2013, Vol. 7 
