Resource Sharing in the Logistics of the Offshore Wind Farm Installation Process based on a Simulation Study

Thies Beinke , Abderrahim Ait Alla , Michael Freitag
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引用次数: 29

Abstract

This present contribution examines by means of a discrete event and agent-based simulation the potential of a joint use of resources in the installation phase of offshore wind energy. To this end, wind farm projects to be installed simultaneously are being examined, the impact of weather restrictions on the processes of loading, transport and installation are also taken into consideration, and both the wind farm specific resource allocation and the approach of a resource pool or resource sharing, respectively, are being implemented. This study is motivated by the large number of wind farms that will be installed in the future and by the potential savings that might be realized through resource sharing. While, so far, the main driver of the resource sharing approach has been the end consumer market, it has been applied in more and more areas, even in relatively conservative industries such as logistics. After the presentation of the backgrounds and of the underlying methodology, and the description of the prior art in this context, the network of the offshore wind energy installation phase will be described. This is the basis for the subsequent determination of the savings potential of a shared resource utilization, which is determined by the performance indicators such as the total installation time and degree of utilization of the resources. The results of the simulation show that weather restrictions have a significant effect on the installation times and the usage times of the resources as well as on their degree of utilization. In addition, the resource sharing approach, has been identified to have significant savings potential for the offshore wind energy installation.

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基于仿真研究的海上风电场安装过程物流资源共享
本报告通过离散事件和基于代理的模拟,探讨了在海上风能安装阶段联合利用资源的潜力。为此目的,正在审查同时安装的风电场项目,还考虑到天气限制对装载、运输和安装过程的影响,并正在分别执行风电场特定资源分配和资源池或资源共享的方法。这项研究的动机是未来将安装大量的风力发电场,以及通过资源共享可能实现的潜在节约。虽然到目前为止,资源共享方式的主要驱动力是终端消费者市场,但它已经在越来越多的领域得到应用,甚至在物流等相对保守的行业也得到了应用。在介绍背景和基础方法以及在此背景下描述现有技术之后,将描述海上风能安装阶段的网络。这是随后确定共享资源利用的节省潜力的基础,这是由诸如总安装时间和资源利用程度等性能指标决定的。仿真结果表明,天气限制对资源的安装次数和使用次数及其利用程度有显著影响。此外,资源共享方法已被确定为海上风能装置具有显著的节约潜力。
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