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INTEGRATION OF MASS TIMBER TECHNOLOGIES INTO NET ZERO STRATEGIES AND POST-WAR RECONSTRUCTION OF URBAN INFRASTRUCTURE IN UKRAINE (CASE STUDY OF KHARKIV)

ネットゼロ戦略とウクライナ戦後復興へのマスティンバー技術の統合(ハルキウ事例研究) (AI 翻訳)

N. V. Vnukova, V. S. Slobozhaniuk

Ukrainian hydrometeorological journal📚 査読済 / ジャーナル2026-07-14#CCUS経営インパクト: 資金調達対象セクター: construction
DOI: 10.32782/uhj.36.2026.11
原典: https://doi.org/10.32782/uhj.36.2026.11
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🤖 gxceed AI 要約

日本語

本研究は、CLTや集成材などのマスティンバー技術をウクライナの戦後復興とネットゼロ戦略に統合する可能性を評価。LCA手法により鉄筋コンクリートとの比較で、木材1m³当たり917kg CO₂の貯留効果、地域クラスター形成の可能性、炭素市場活用等を提言。

English

This study evaluates integrating mass timber technologies (CLT, Glulam) into Ukraine's post-war reconstruction and net-zero strategies. Using LCA, it shows wood stores 917 kg CO₂/m³, outperforming concrete in embodied carbon, and proposes regional cluster development and carbon market mechanisms.

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

日本では木造建築推進政策が進み、CLTの普及が課題。本論文のLCAデータや炭素貯留の定量評価は、日本の建築分野のGXロードマップ参照に有用。また、災害復興時の木造活用にも示唆。

In the global GX context

Globally, mass timber is gaining traction for low-carbon construction. This study provides LCA evidence and policy recommendations applicable to post-disaster reconstruction and voluntary carbon markets, relevant for ISSB-aligned reporting and net-zero building targets.

👥 読者別の含意

🔬研究者:LCA methodology and carbon storage quantification for mass timber are useful benchmarks.

🏢実務担当者:Consider mass timber for reducing embodied carbon in construction and leveraging carbon credits.

🏛政策担当者:Lessons for adapting building codes (Eurocode 5) and creating carbon market incentives for timber.

📄 Abstract(原文)

The study investigates the potential of integrating Mass Timber technologies, including Cross- Laminated Timber (CLT) and Glued Laminated Timber (Glulam), into building sector decarbonization strategies in accordance with the Net Zero concept and the requirements of postwar reconstruction in Ukraine. A comparative assessment of the technical, economic, and environmental performance of engineered timber systems and conventional reinforced concrete Н.В. Внукова , В.С. Слобожанюк structures was conducted. The carbon footprint of construction materials was evaluated using the Life Cycle Assessment (LCA) methodology in compliance with ISO 14040/14044 standards for the A1–A3 (Cradle-to-Gate) stages. The results demonstrate that Mass Timber technologies contribute to significant reductions in embodied carbon, accelerated construction processes, improved building energy efficiency, and the establishment of a positive carbon balance through long-term carbon sequestration in wood. Mathematical modelling showed that 1 m³ of structural timber can store approximately 917 kg of CO₂. The resource potential of North-Eastern Ukraine was analysed, confirming favourable conditions for the establishment of a regional Mass Timber cluster capable of supporting large-scale housing and infrastructure reconstruction. Practical recommendations are proposed regarding the localization of CLT production, adaptation of national regulations to Eurocode 5 requirements, implementation of pilot demonstration projects, and development of mechanisms for monetizing carbon benefits through voluntary carbon markets. The findings confirm that Mass Timber technologies can serve as one of the key instruments for sustainable post-war recovery and decarbonization of Ukraine’s construction sector.

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