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Synergistic Coupling of Renewable Energy Processes

再生可能エネルギーシステムの相乗的結合 (AI 翻訳)

Dipankar Roy, Subhasis Roy

ジャーナル2026-05-28#再生可能エネルギー対象セクター: cross_sector
DOI: 10.1201/9781003602736-12
原典: https://doi.org/10.1201/9781003602736-12

🤖 gxceed AI 要約

日本語

この章では、再生可能エネルギー源のハイブリッド化(HRES)による持続可能なエネルギー供給と温室効果ガス削減を探求。AIベースの制御や蓄電技術の進展により、系統連携やオフグリッド地域への電力供給が可能となる。将来の技術動向や市場シナリオを概観。

English

This chapter explores the synergistic coupling of renewable energy sources through hybrid renewable energy systems (HRES) for sustainable energy supply and GHG reduction. AI-based control and energy storage advancements enable grid integration and support for remote areas. It reviews future trends, challenges, and market scenarios.

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

日本の再生可能エネルギー導入拡大と系統安定化の課題に対し、HRESとAI制御の融合は自立分散型システム構築の手がかりとなる。

In the global GX context

Globally, HRES with AI control is a key enabler for high-renewable grids and energy access in developing regions, offering a pathway to reduce emissions.

👥 読者別の含意

🔬研究者:Provides a broad overview of HRES technologies and AI control for renewable integration.

🏢実務担当者:Useful for understanding hybrid system design and grid integration options for renewable projects.

🏛政策担当者:Highlights potential of HRES in achieving renewable targets and energy access.

📄 Abstract(原文)

The maximum utilization of renewable energy as an alternative to fossil sources is the driving force behind a revolutionary global energy supply chain transition. Several efforts have been made to introduce innovation in the processing and storage of renewable energy. Breakthrough developments in energy storage systems have enabled a sustained energy supply for an extended period with a high load capacity. Since each renewable source is associated with some limitations, being utterly reliant upon it as a sole power supply is not feasible. Therefore, integrating different energy sources or hybridizing renewable energy systems (HRES) is a transformative approach to address these shortcomings and deliver a steady, reliable energy supply. Implementing innovative grid technology with energy management systems, AI-based logic control, and robotic enhancements has further leveraged its efficiency, making HRES easily adoptable across the residential, commercial, and industrial sectors. Hybridization has brought numerous benefits, generating power to support remote, underdeveloped, and off-grid areas, while also critically empowering hospitals, schools, and emergency service facilities. Simultaneously, the advent of on-grid mode has enabled users to become producers, which may mitigate the supply-demand gap. In this chapter, we have explored future trends and innovations, emerging technologies and their challenges, research directions, and market scenarios for hybridizing different types of renewable resources. This chapter highlights the technological transition in the renewable energy arena through the synergistic integration of renewable resources as a sustainable approach to reducing greenhouse gas emissions and, consequently, mitigating the global warming effect.

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