Supply Chain Design Method for Introducing Floating Offshore Wind Turbines Using Network Optimization Model

Supply Chain Design Method for Introducing Floating Offshore Wind Turbines Using Network Optimization Model

This paper presents a method to model and optimize the supply chain processes for floating offshore wind turbines using a network model based on Generalized Multi-Commodity Network Flows (GMCNF). The proposed method represents production bases, base ports, installation sites, component transfer area...

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Bibliographic Details
Main Authors: Taiga Mitsuyuki, Takahiro Shimozawa, Itsuki Mizokami, Shinnosuke Wanaka
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Systems
Subjects:
network optimization
generalized multi-commodity network flows
supply chain design
installing floating offshore wind turbine
Online Access:https://www.mdpi.com/2079-8954/13/7/598
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Summary:This paper presents a method to model and optimize the supply chain processes for floating offshore wind turbines using a network model based on Generalized Multi-Commodity Network Flows (GMCNF). The proposed method represents production bases, base ports, installation sites, component transfer areas, and transportation routes as nodes and arcs within the network. The installation process is modeled using three transport concepts: assembling components at the base port, direct assembly and installation at the installation site, and transferring components to the installation vessel at a nearby port. These processes are expressed as a linear network model, with the objective function set to minimize total transportation and assembly costs. The optimal transportation network is derived by solving the network problem while incorporating constraints such as supply, demand, and transportation capacity. Case studies demonstrate the method’s effectiveness in optimizing the supply chain and evaluating potential new production site locations for floating foundations, considering overall supply chain optimization.
ISSN:2079-8954

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