Biodiesel in the Era of Renewable Transition: Critical Advances, Limitations and Future Engineering Pathways
再生可能エネルギー移行期におけるバイオディーゼル:重要進展、制約及び今後の工学経路 (AI 翻訳)
Y. V. Contreras-Pacheco, A. Pérez-Larios
🤖 gxceed AI 要約
日本語
本展望論文は、バイオディーゼルが地球規模の脱炭素化において果たす役割を検討し、原料多様化や触媒技術の進展を紹介する一方、コスト競争力、持続可能性、スケーラビリティにおける継続的課題を指摘する。バイオディーゼルの将来は、バイオリファイナリーとの統合やデジタル化に依存し、橋渡し燃料から低炭素燃料システムの強靭な構成要素へと移行するための優先研究課題を示す。
English
This perspective article examines biodiesel's role in global decarbonization, highlighting progress in feedstock diversification and catalysis while addressing persistent challenges in cost, sustainability, and scalability. It proposes that biodiesel's future depends on engineering integration with biorefineries and digitalization, and outlines priority research directions for transitioning from a bridging fuel to a resilient low-carbon fuel.
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
本論文は気候開示フレームワークを直接扱わないが、エネルギー移行戦略において重要な再生可能燃料経路に関する技術的視点を提供する。Scope1排出削減のためのバイオ燃料オプションを評価する企業のサステナビリティチームや、再生可能エネルギー義務化を設計する政策立案者に示唆を与える。
In the global GX context
While not directly addressing climate disclosure frameworks, this paper offers a technological perspective on a key renewable fuel pathway relevant to energy transition strategies. It can inform corporate sustainability teams evaluating biofuel options for Scope 1 emission reductions and policymakers designing renewable energy mandates.
👥 読者別の含意
🔬研究者:Provides a comprehensive overview of current biodiesel technology limitations and future integration strategies, useful for identifying research gaps.
🏢実務担当者:Helps corporate sustainability teams evaluate biodiesel's role in decarbonization plans, highlighting scalability and cost issues.
🏛政策担当者:Informs policymakers on the technological and economic constraints of biodiesel as a renewable fuel, aiding in setting realistic targets.
📄 Abstract(原文)
Biodiesel has evolved from a niche alternative fuel into a strategic component of global decarbonization and energy diversification efforts. Its compatibility with existing engines, low sulfur content, and potential integration within circular bioeconomy frameworks position biodiesel as a relevant contributor to renewable energy transitions, particularly in regions with strong agricultural and agro-industrial sectors. Despite substantial progress in feedstock diversification, catalytic innovation, and process intensification, biodiesel production continues to face persistent challenges related to cost competitiveness, sustainability metrics, land use pressures, and scalability. This Perspective critically examines the current technological and systemic boundaries limiting biodiesel expansion and argues that its future relevance will depend on engineering integration rather than isolated process optimization. Emerging trends in catalysis, non-food feedstocks, digitalization, and artificial intelligence–driven process control are discussed alongside integration pathways with biorefineries and existing petroleum infrastructure. Remaining constraints—spanning feedstock economics, environmental trade-offs, and the water–energy–food nexus—are analyzed from a forward-looking engineering standpoint. Finally, this perspective outlines priority research directions and engineering strategies that could enable biodiesel to transition from a bridging fuel to a resilient component of low-carbon fuel systems over the coming decade.
🔗 Provenance — このレコードを発見したソース
- semanticscholar https://doi.org/10.62762/jcerf.2025.436781first seen 2026-05-15 20:14:41
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gxceed は公開メタデータに基づく研究支援データセットです。要約・翻訳・解説は AI 支援で生成されています。 最終的な解釈・検証は利用者が原典資料に基づいて行うことを前提とします。