原油接卸港区单线航道避让区选址与规模仿真研究

doi:10.16097/j.cnki.1009-6744.2023.03.027

交通运输系统工程与信息 ›› 2023, Vol. 23 ›› Issue (3): 253-264.DOI: 10.16097/j.cnki.1009-6744.2023.03.027

原油接卸港区单线航道避让区选址与规模仿真研究

封学军¹，王苏阳¹，许博^1,2，张艳¹，黄建梁¹，顾卫华^*3

1.河海大学，港航物流与绿色发展研究所，南京210024；2.江苏省工程咨询中心有限公司，南京210003；3.香港理工大学，电气工程学院，香港999077

收稿日期:2023-03-05 修回日期:2023-04-10 接受日期:2023-04-11 出版日期:2023-06-25 发布日期:2023-06-23
作者简介:封学军(1975-)，男，江苏滨海人，教授，博士
基金资助:
国家重点研发计划(2021YFB2600203)

Simulation and Study of Location and Size of One-way Channel Buffers for Large Marine Crude Oil Terminals

FENG Xue-jun¹, WANG Su-yang¹, XU Bo^1,2, ZHANG Yan¹, HUANG Jian-liang¹, GU Wei-hua^*3

1. Institute of Maritime Logistics and Green Development, Hohai University, Nanjing 210024, China; 2. Jiangsu Engineering Consulting Center, Nanjing 210003, China; 3. Department of Electrical Engineering, The Hong Kong Polytechnic University, Hong Kong 999077, China

Received:2023-03-05 Revised:2023-04-10 Accepted:2023-04-11 Online:2023-06-25 Published:2023-06-23
Supported by:
National Key Research and Development Program of China(2021YFB2600203)

摘要/Abstract

摘要： 影响我国原油接卸港区通过能力的瓶颈正从泊位数量不足向航道通过能力制约转移，尤以大型油轮需要乘潮进港的单线航道为甚。本文以尚未被深入讨论过的原油接卸港区长距离单线航道建设港湾式避让区的选址和规模为研究对象，在对避让区尺度表征的基础上，采用离散事件系统仿真方法，选择Python编程语言构建仿真平台；以日照实华原油接卸港区(Rizhao ShihuaOil Terminal,RSOT)为案例，精细化设计相关作业模块，特别是潮汐和白天作业等混合时间窗口约束，通过求解港区服务台的服务时间和条件，分析避让区的选址、规模以及海事规则对于航道通过能力及服务水平等的影响，以明晰航道避让区的作用机制及机理。结果表明：“价值优先”的海事调度规则相较于传统的“先到先得”规则在一定程度上能提升港区的通过能力，最大通过能力提升可达2.35%；港湾式避让区的规模和选址与港区的最大通过能力分别呈正相关和部分相关；受限于原油港区特殊的安全规则，案例中，港湾式避让区选址越靠近港池侧，港区通过能力的提升越显著，与锚地侧相比，最大通过能力提升可达7.56%，且规模为仅能容纳1艘油轮时，最大通过能力即可达到拓宽为双向航道时的91.54%，表现出良好的经济性。

关键词: 水路运输, 选址与规模, 离散事件系统仿真, 港湾式避让区, 单线航道, 原油接卸港区

Abstract: The critical bottleneck affecting a terminal's oil throughput capacity is shifting from the limited number of berths to the channel connecting the berths to the anchorage area. This is especially true for the terminals with a oneway channel where large oil tankers can navigate through the channel only at high tides. Buffers can be installed at those terminals to significantly improve the one-way channel's capacity. This paper examines the buffer's location and size choices for a crude oil terminal with a one-way channel. A discrete-event simulator in-house was developed using Python to explicitly and model the buffer's location and size choices. The simulator accounts for a sufficient level of realism, including the tidal time windows for large tankers and the daytime operation constraints. Taking the Rizhao Shihua Oil Terminal of the Rizhao Port as the case study, this paper used the simulator to analyze the effects of various buffer locations and sizes on the port capacity and service level under two priority rules. They are the conventional "first come, first served (FCFS)" rule and a value priority (VP) rule that prioritizes the tankers with higher holding values. The results show that the VP rule can improve the terminal's capacity by up to 2.35% compared to the FCFS rule. The capacity increases as the buffer moves from the anchorage side to the dockyard side of the channel. The resulting improvement is up to 7.56%. Moreover, a one-way channel accompanied with a dockyard-side buffer holding one tanker only can attain 91.54% of the capacity of a two-way channel, manifesting the great potential of buffers.

Key words: waterway transportation, location and size, discrete-event system simulation, channel buffer, one-way channel, crude oil terminals

中图分类号:

U6-9

封学军, 王苏阳, 许博, 张艳, 黄建梁, 顾卫华. 原油接卸港区单线航道避让区选址与规模仿真研究[J]. 交通运输系统工程与信息, 2023, 23(3): 253-264.

FENG Xue-jun, WANG Su-yang, XU Bo, ZHANG Yan, HUANG Jian-liang, GU Wei-hua. Simulation and Study of Location and Size of One-way Channel Buffers for Large Marine Crude Oil Terminals[J]. Journal of Transportation Systems Engineering and Information Technology, 2023, 23(3): 253-264.

导出引用管理器 EndNote|Ris|BibTeX

链接本文: http://www.tseit.org.cn/CN/10.16097/j.cnki.1009-6744.2023.03.027

http://www.tseit.org.cn/CN/Y2023/V23/I3/253

参考文献

[1] FENG X J, HU S G, GU W H, et al. A simulation-based approach for assessing seaside infrastructure improvement measures for large marine crude oil terminals[J]. Transportation Research Part E: Logistics and Transportation Review, 2020, 142: 102051.

[2] FITZPATRICK K, PERKINSON D, HALL K. Findings from a survey on bus stop design[J]. Journal of Public Transportation, 1997, 1(3).

[3] ZHANG J, LI Z, ZHANG F, et al. Evaluating the impacts of bus stop design and bus dwelling on operations of multitype road users[J]. Journal of Advanced Transportation, 2018, 2018: 1-10.

[4] 宋向群, 张颖超, 唐国磊, 等. 单线航道避让区对散货港区航道通过能力的影响[J]. 水运工程, 2012(11): 124-126+144. [ SONG X Q, ZHANG Y C, TANG G L, et al. Affection of turnout anchorage on throughput capacity of fairway in coastal bulk port [J]. Port & Waterway Engineering, 2012(11): 124-126+144.]

[5] 廖诗管, 翁金贤, 胡甚平. 液化天然气船通航模式下的航道通过能力评价方法[J]. 交通运输系统工程与信息, 2022, 22(2): 290-297.[LIAO SH G, WENG J X, HU SH P. A capacity estimation approach for waterway traffic under LNG carriers navigation mode[J]. Journal of Transportation Systems Engineering and Information Technology, 2022, 22(2): 290-297.]

[6] TANG G, GUO X, Yu X, et al. SPAC to improve port performance for seaports with very long one-way entrance channels[J]. Journal of Waterway, Port, Coastal, and Ocean Engineering, 2014, 140(4): 04014011.

[7] 金鑫, 封学军, 张艳, 等. 原油接卸港区通过能力提升研究[J]. 河海大学学报(自然科学版), 2017, 45(2): 182-188.[JIN X, FENG X J, ZHANG Y, et al. Capacity improvements of crude oil import terminals[J]. Journal of Hohai University( Natural Sciences), 2017, 45(2): 182-188.]

[8] IMAI A, NISHIMURA E, PAPADIMITRIOU S. The dynamic berth allocation problem for a container port[J]. Transportation Research Part B: Methodological, 2001, 35(4): 401-417.

[9] HAN X L, LU Z Q, XI L F. A proactive approach for simultaneous berth and quay crane scheduling problem with stochastic arrival and handling time[J]. European Journal of Operational Research, 2010, 207(3): 1327-1340.

[10] URSAVAS E. Priority control of berth allocation problem in container terminals[J]. Annals of Operations Research, 2022, 317(2): 805-824.

[11] 郑红星, 刘保利, 王泽浩, 等. 考虑潮汐的多港池港口船舶调度优化[J]. 系统工程理论与实践, 2018, 38(10): 2638-2651.[ZHENG H X, LIU B L, WANG Z H, et al. Ship scheduling optimization in multi-harbor basin port considering tidal influence[J]. System Engineering - Theory & Practice, 2018, 38(10): 2638-2651.]

[12] 徐国裕, 郭涂城, 吴兆麟. 单向水道船舶进出港最佳排序模式[J]. 大连海事大学学报, 2008, 34(4): 150-153+157. [SHU G Y, GUO T C, WU Z L, Optimum scheduling model for ship in/out bound harbor in one way traffic fairway[J]. Journal of Dalian Maritime University, 2008, 34(4): 150-153+157.]

[13] ZHONG H, LIN Y, YIP T L, et al. A novel oil port risk and efficiency performance measured by using AIS data and maritime open data: The case of Guangzhou, China[J]. Ocean Engineering, 2020, 216: 107859.

[1]	郑琰, 巴文婷, 肖玉杰. 考虑碳排放的长三角港口群动态效率测度[J]. 交通运输系统工程与信息, 2023, 23(4): 34-46.
[2]	杨华龙, 王豪, 邢玉伟. 考虑退订费的远洋集装箱班轮舱位分配优化[J]. 交通运输系统工程与信息, 2023, 23(3): 235-242.
[3]	赵旭, 陈家钦, 黄瑞. 不确定条件下考虑横纵联盟策略的船期协调研究[J]. 交通运输系统工程与信息, 2023, 23(3): 243-252.
[4]	高天航, 徐杏, 吴宏宇, 毕珊珊, 田佳. 考虑托运人行为决策的集装箱港口腹地划分模型[J]. 交通运输系统工程与信息, 2023, 23(1): 10-16.
[5]	李晓东, 匡海波, 何鸿宇. 政府环境规制下港航系统减排演化博弈研究[J]. 交通运输系统工程与信息, 2023, 23(1): 17-29.
[6]	梁晶, 张霖, 刘禹轩. 考虑碳排放政策的港航企业减排策略研究[J]. 交通运输系统工程与信息, 2023, 23(1): 39-47.
[7]	李志平, 赵楠, 殷明, 真虹. 基于生产泊位资源共享的港航物流信息系统构建[J]. 交通运输系统工程与信息, 2023, 23(1): 275-283.
[8]	陈德山, 范腾泽, 元海文, 严新平. 内河航运系统监管技术现状与展望[J]. 交通运输系统工程与信息, 2022, 22(6): 1-14.
[9]	刘畅, 张仕泽, 李倍莹, 李波. 考虑对地航速和航向的船舶典型轨迹提取方法[J]. 交通运输系统工程与信息, 2022, 22(6): 114-123.
[10]	张昊, 陶宁蓉, 杨男. 考虑时变特性的海上溢油事故应急物资调度[J]. 交通运输系统工程与信息, 2022, 22(6): 269-280.
[11]	高攀, 刘顺, 赵旭, 余浩. 绿色通航视域下过坝船舶预约调度双目标优化研究[J]. 交通运输系统工程与信息, 2022, 22(5): 293-299.
[12]	董岗, 管敏. “双碳”目标下我国船舶减排技术创新知识图谱分析[J]. 交通运输系统工程与信息, 2022, 22(4): 43-52.
[13]	杨华龙, 吴艳华, 孙奕伦. 多品种燃油海运库存路径问题鲁棒优化模型与算法[J]. 交通运输系统工程与信息, 2022, 22(3): 238-246.
[14]	吕靖, 齐海迪, 李宝德. 基于扩展置信规则库的海盗袭击事件风险预测[J]. 交通运输系统工程与信息, 2022, 22(3): 247-254.
[15]	廖诗管, 翁金贤, 胡甚平. 液化天然气船通航模式下的航道通过能力评价方法[J]. 交通运输系统工程与信息, 2022, 22(2): 290-297.

原油接卸港区单线航道避让区选址与规模仿真研究

Simulation and Study of Location and Size of One-way Channel Buffers for Large Marine Crude Oil Terminals

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics