A Human-Centric Framework for Integrating Social and Economic Dimensions in Offshore Energy Systems
洋上エネルギーシステムにおける社会的・経済的側面を統合する人間中心の枠組み (AI 翻訳)
Maryam Yaghoubirad, John Hall
🤖 gxceed AI 要約
日本語
洋上風力・波力・潮力などの洋上エネルギーシステムの開発・運用において、地域コミュニティの参加や経済的ダイナミクスを統合する人間中心の枠組みを提案。トランザクティブエネルギー概念を活用し、コミュニティの選好や行動モデルを反映したシナリオ分析を可能にし、技術的・経済的・社会的にバランスの取れた計画を支援する。
English
This paper proposes a human-centric framework for offshore energy systems (wind, wave, tidal) that integrates community engagement, social considerations, and economic dynamics through transactive energy concepts. It connects technical, economic, and social models to enable scenario-based analysis for planners and policymakers, aiming for technically sound, economically beneficial, and publicly accepted offshore energy deployment.
Unofficial AI-generated summary based on the public title and abstract. Not an official translation.
📝 gxceed 編集解説 — Why this matters
日本のGX文脈において
日本では洋上風力発電の導入拡大が進むが、地域との協調や経済波及効果の可視化が課題。本枠組みは、コミュニティ参加型のエネルギー市場設計や住民受容性の定量評価に応用可能であり、日本の洋上GX政策(例:再エネ海域利用法)とも親和性が高い。
In the global GX context
Globally, offshore energy development faces challenges of public acceptance and equitable economic benefits. This framework offers a structured approach to integrate social and economic dimensions into energy system planning, aligning with the goals of just transition and community-centered energy policy.
👥 読者別の含意
🔬研究者:Researchers can use this framework to model community engagement and energy trading in offshore systems, bridging technical and social science approaches.
🏢実務担当者:Offshore energy developers can apply the framework to assess project social feasibility and design community benefit schemes.
🏛政策担当者:Policymakers can leverage the framework to evaluate offshore energy strategies that balance technical efficiency with local economic development and public support.
📄 Abstract(原文)
Offshore energy systems, including wind, wave, and tidal technologies, are rapidly advancing as key contributors to future energy supply. While these systems offer large-scale generation potential and environmental benefits, their implementation introduces complex interactions with local communities, regional economies, and evolving energy markets. This work proposes a human-centric framework to support the development and operation of offshore energy systems by actively incorporating community engagement, social considerations, and economic dynamics—particularly through energy trading mechanisms. The framework integrates social participation, community engagement, and transactive energy concepts to align offshore energy projects with public needs and regional economic opportunities. Transactive energy systems enable decentralized energy exchange based on real-time pricing and demand signals, creating a dynamic environment where energy producers and consumers can interact more efficiently. In coastal regions, this opens the door for communities to participate in energy markets, fostering localized value creation through shared energy usage, community investment, and responsive demand-side behavior. A key feature of the framework is its human-centric design, which incorporates behavioral modeling and feedback from individuals, households, and local institutions into energy system simulations. This enables a responsive and adaptive planning process that accounts for public perception, community preferences, workforce participation, and acceptance of offshore infrastructure. The framework connects technical models of offshore generation and grid integration with economic models of energy trading and social models of user engagement. It supports scenario-based analysis to explore how different market structures and community engagement strategies influence performance, cost-effectiveness, and public acceptance of offshore energy systems. We demonstrate how the framework can be used by planners, developers, and policymakers to evaluate offshore energy strategies that are technically sound, economically beneficial, and supported through active community involvement. By integrating human considerations into energy system design and market interactions, this approach offers a comprehensive tool for shaping the future of offshore energy in a way that maximizes its technical and economic value while promoting stronger, more participatory connections between infrastructure and the people it serves. The framework supports efficient deployment and trading of offshore energy, with outcomes that reflect system-level optimization and meaningful community engagement.
🔗 Provenance — このレコードを発見したソース
- openalex https://doi.org/10.5281/zenodo.20545651first seen 2026-06-25 04:34:06 · last seen 2026-06-25 04:38:27
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