Deterministic Architecture Frameworks for Scalable Energy Infrastructure Planning
スケーラブルなエネルギーインフラ計画のための決定論的アーキテクチャフレームワーク (AI 翻訳)
Arnab Sinha
🤖 gxceed AI 要約
日本語
本稿は、水素・CCUS・原子力などの低炭素エネルギーシステムのインフラ計画を標準化するための決定論的アーキテクチャフレームワーク群(HLAF, HOPT, NEIA, NRIA)を提案する。これらのフレームワークはモジュール化された構成要素とトポロジルールを定義し、国レベルの計画や技術評価に利用可能。
English
This paper introduces deterministic architecture frameworks (HLAF, HOPT, NEIA, NRIA) for standardizing infrastructure planning of low-carbon energy systems including hydrogen, CCUS, and nuclear. They define modular building blocks and topology rules, enabling consistent comparison and scalable development across technologies and stakeholders.
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
日本は水素・CCUS・原子力の再稼働・リプレースをGX政策の柱としており、本稿のフレームワークはそれらのインフラ整備を体系的に進める基盤として活用可能。特にHOPTやNEIA/NRIAは具体的なシステム設計の標準化に寄与する。
In the global GX context
As global energy transition accelerates, coordinated infrastructure planning across hydrogen, CCUS, and nuclear remains a challenge. These architecture frameworks provide a structured approach that can be adopted by national planners and international organizations to enable scalable and interoperable low-carbon energy systems.
👥 読者別の含意
🔬研究者:The modular architecture frameworks offer a novel method for comparing deployment pathways and designing scalable infrastructure systems.
🏢実務担当者:Utilities and infrastructure developers can apply these frameworks as templates for project planning and technology screening.
🏛政策担当者:National energy planners can use the frameworks to create consistent infrastructure standards and facilitate multi-technology coordination.
📄 Abstract(原文)
<p>The deployment of low-carbon energy systems is increasingly constrained by the absence of structured infrastructure architecture. Hydrogen networks, carbon capture and storage systems, nuclear energy integration, and coal-to-nuclear repowering are often developed through project-specific approaches, resulting in fragmented infrastructure, inconsistent interfaces, and limited scalability. A common architectural foundation is therefore required to enable coordinated planning across technologies and stakeholders.</p> <p>This paper introduces a set of deterministic architecture frameworks designed to support structured energy infrastructure planning: the Hydrogen Logistics Architecture Framework (HLAF), the Hub-Only Pipeline Topology Architecture Standard (HOPT), the Nuclear Engineering Interface Architecture (NEIA), and the Nuclear Repowering Interface Architecture (NRIA). Each framework defines modular building blocks, classification layers, and topology rules that standardize infrastructure structure without prescribing specific technologies or projects.</p> <p>Together, these frameworks form a modular architecture toolkit that can be applied to national planning, infrastructure development, technology screening, and early-stage system design. The frameworks are designed for flexible use by governments, infrastructure planners, utilities, investors, engineering organizations, and technology developers. By functioning as reusable architecture “building blocks,” the frameworks enable consistent comparison of deployment pathways and scalable infrastructure development across hydrogen, CCUS, and nuclear energy systems.</p> <p>The paper presents the four frameworks and outlines common modes of application, demonstrating how deterministic architecture structures can support coordinated energy transition infrastructure planning.</p>
🔗 Provenance — このレコードを発見したソース
- openaire https://doi.org/10.2139/ssrn.6483699first seen 2026-06-11 05:06:29 · last seen 2026-06-16 04:35:29
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