|本期目录/Table of Contents|

[1]刘胜利,李勤荣,华昕培,等.基于IWRAP模型的跨海大桥建设通航风险研究[J].中国安全生产科学技术,2022,18(5):47-53.[doi:10.11731/j.issn.1673-193x.2022.05.007]
 LIU Shengli,LI Qinrong,HUA Xinpei,et al.Research on navigation risk of cross-sea bridge construction based on IWRAP model[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2022,18(5):47-53.[doi:10.11731/j.issn.1673-193x.2022.05.007]
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基于IWRAP模型的跨海大桥建设通航风险研究
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《中国安全生产科学技术》[ISSN:1673-193X/CN:11-5335/TB]

卷:
18
期数:
2022年5期
页码:
47-53
栏目:
学术论著
出版日期:
2022-05-31

文章信息/Info

Title:
Research on navigation risk of cross-sea bridge construction based on IWRAP model
文章编号:
1673-193X(2022)-05-0047-07
作者:
刘胜利李勤荣华昕培郑欣蕊董敏
(交通运输部规划研究院,北京 100028)
Author(s):
LIU Shengli LI Qinrong HUA Xinpei ZHENG Xinrui DONG Min
(Transport Planning and Research Institute Ministry of Transport,Beijing 100028,China)
关键词:
跨海大桥IWRAP通航风险桥区通航
Keywords:
cross-sea bridge IALA Waterway Risk Assessment Programme (IWRAP) navigation risk navigation in bridge area
分类号:
X951
DOI:
10.11731/j.issn.1673-193x.2022.05.007
文献标志码:
A
摘要:
为支撑跨海大桥建设决策,对拟建桥梁水域通航风险进行预测,采用IWRAP模型对通航风险进行量化,运用分布函数对观测桥梁水域航道/航路船舶流量进行拟合,构建风险分析模型,计算桥梁水域通航风险水平;根据设定桥梁通航标准,类比拟建桥梁水域内已建成桥梁桥区交通流分布情况,预测桥梁建成后船舶流量分布函数并计算通航风险水平,通过对比得出跨海大桥建设带来的通航风险变化。研究结果表明:运用IWRAP模型预测跨海大桥建设的通航风险较为合理。
Abstract:
In order to support the decision on the construction of cross-sea bridge,and predict the navigation risk in the water area of the bridge to be built,the navigation risk was quantified by the IALA Waterway Risk Assessment Programme (IWRAP) model.The ship flow of the waterway/route in the water area of observed bridge was fitted by the distribution function,and a risk analysis model was established to calculate the navigation risk level of the water area of bridge.According to the setting bridge navigation standards,the distribution function of ship flow after the completion of the bridge was predicted with the analogy on the traffic flow distribution of the built bridge area in the water area of the bridge to be built,then the navigation risk level was calculated,and the the change of navigation risk caused by the construction of cross-sea bridge was obtained through the comparion.The results showed that it was reasonable to predict the navigation risk of cross-sea bridge construction by using the IWRAP model.

参考文献/References:

[1]柯冉绚,胡栩祯,陈毅.基于IWRAP模型的船舶交通流数据拟合模型[J].中国航海,2018,41(4):77-82. KE Ranxuan,HU Xuzhen,CHEN Yi.Ship traffic flow data fitting model based on IWRAP model[J].Navigation of China,2018,41(4):77-82.
[2]甘浪雄,马全党,周瑞赛.基于IWRAP模型的交叉航路船舶碰撞概率计算分析[J].中国水运,2012(5):28-29. GAN Langxiong,MA Quandang,ZHOU Ruisai.Calculation and analysis of collision probability of cross route ships based on IWRAP model[J].China Water Transportation,2012(5):28-29.
[3]陈伟炯,卢忆宁,张善杰,等.跨海大桥船桥碰撞模糊Bow-tie风险评估方法[J].中国安全科学学报,2018,28(1):87-92. CHEN Weijiong,LU Yining,ZHANG Shanjie,et al.Fuzzy bow tie risk assessment method for ship bridge collision of sea crossing bridge[J].China Safety Sciences Journal,2018,28(1):87-92.
[4]高骁,赵宏元,姚浩桢.基于AASHTO规范的城市内河航道船桥碰撞风险分析[J].港工技术,2020,57(S1):116-119. GAO Xiao,ZHAO Hongyuan,YAO Haozhen.Collision risk analysis of ship bridge in urban inland waterway based on AASHTO specification [J].Port Engineering Technology,2020,57(S1):116-119.
[5]杨祥睿.基于贝叶斯网络的船撞桥风险评估研究[D].重庆:重庆交通大学,2015.
[6]耿波,尚军年,汪宏,等.基于风险的厦漳跨海大桥船撞设防标准研究[C]//第十九届全国桥梁学术会议,上海:2010.
[7]王群朋.复杂海上工程施工期的通航安全动态风险评价模型研究[D].武汉:武汉理工大学,2014.
[8]KIM D W,PARK J S,PARK Y S.Comparison analysis between the IWRAP and the ES Model in Ulsan Waterway[J].Journal of Navigation & Port Research,2011,35(4):11-13.
[9]吴建军,高生辉,万姚轶.上海港油轮通航风险与应急疏运路径研究[J].航海技术,2021(2):26-30. WU Jianjun,GAO Shenghui,WAN Yaoyi.Study on tanker navigation risk and emergency transportation route in Shanghai port[J].Navigation Technology,2021(2):26-30.
[10]陈兴伟,胡甚平,方诚,等.海上交通事故严重程度影响因素分析[J].武汉理工大学学报,2019(6):93-97. CHEN Xingwei,HU Shenping,FANG Cheng,et al.Analysis of factors affecting the severity of maritime traffic accidents[J].Journal of Wuhan University of Technology,2019(6):93-97.
[11]FERNANDEZ D E,CHANG P S,CA J R,et al.IWRAP:the imaging wind and rain airborne profiler for remote sensing of the ocean and the atmospheric boundary layer within tropical cyclones[C]// IEEE Aerospace Conference,2006.
[12]黄纯,陈国伟,柴田.IWRAP MK Ⅱ软件在长江口水域船舶碰撞和搁浅风险评估中的应用[J].中国航海,2017,40(1):5-10. HUANG Chun,CHEN Guowei,CHAI Tian.Application of iwrap MK Ⅱ software in ship collision and grounding risk assessment in the Yangtze River Estuary[J].Navigation of China,2017,40(1):5-10.
[13]DZIKOWSKI R,SLACZKA W.Analysis of IWRAP mk2 application for oil and gas operations in the area of the Baltic Sea in view of fishing vessel traffic[J].Scientific Journals of the Maritime University of Szczecin Zesz,2014(17):21-23.
[14]KITAZAWA F,SHOJI R,AKAISI S,et al.Marine traffic risk assessment of using IWRAP:about the effect of a virtual ms aid to navigation(asia navigation conference 2015)[J].Navigation,2016,195:43-45.

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备注/Memo

备注/Memo:
收稿日期: 2021-07-30
作者简介: 刘胜利,硕士,高级工程师,主要研究方向为水上交通安全规划和通航安全。
通信作者: 华昕培,硕士,助理工程师,主要研究方向为交通环境与安全保障。
更新日期/Last Update: 2022-06-15