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Analysis of the Lifecycle Carbon Reduction Effects of Public Daycare Centers through Green Remodeling

グリーンリフォームによる公立保育園のライフサイクル炭素削減効果の分析 (AI 翻訳)

Jun Kyu Kim, Se Hyeon Lim, Jin Chul Park

Springer Link (Chiba Institute of Technology)📚 査読済 / ジャーナル2026-06-09#省エネ経営インパクト: コスト削減対象セクター: construction回収年数ヒント: 24.1
DOI: 10.1051/e3sconf/202671611005/pdf
原典: https://doi.org/10.1051/e3sconf/202671611005/pdf

🤖 gxceed AI 要約

日本語

韓国で築30年以上の公立保育園を対象に、断熱・Low-Eガラス・気密ドアなどのパッシブ改修を行い、ライフサイクル全体(材料調達・施工・運用・解体)の炭素排出を分析。結果、改修による炭素排出量は32.078 tCO2eq、運用段階では10.6%削減(12.558→11.225 tCO2eq)し、炭素ペイバック期間24.1年、完全相殺には48.2年かかることが示された。エネルギー削減だけでなくライフサイクル視点の有効性を実証。

English

This study analyzes the lifecycle carbon reduction of green remodeling for a public daycare center over 30 years old in South Korea. Passive measures (insulation, low-e glazing, airtight doors) were applied. Embodied carbon of materials was 32.078 tCO2eq, and operational carbon decreased by 10.6% (from 12.558 to 11.225 tCO2eq). Carbon payback occurs at 24.1 years, full offset at 48.2 years, demonstrating lifecycle benefits.

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

日本でも既存建築物の断熱改修が進められており、SSBJのスコープ1・2対応やZEH/ZEB目標に関連。本論文はライフサイクル評価とペイバック期間の実証データを提供し、補助金政策や省エネ基準の根拠として有用。

In the global GX context

This paper contributes to global building decarbonization literature by providing lifecycle carbon assessment with explicit payback periods. Relevant to TCFD/ISSB's Scope 1,2 and embodied carbon reporting, as well as policies like the EU Energy Performance of Buildings Directive (EPBD) and US building retrofit programs.

👥 読者別の含意

🔬研究者:Provides a methodology for lifecycle carbon analysis of building retrofits with payback calculation, applicable to similar studies in other countries.

🏢実務担当者:Offers evidence for green remodeling decision-making, including material selection and expected payback periods for public buildings.

🏛政策担当者:Supports policy design for building retrofit subsidies and carbon neutrality roadmaps with quantitative lifecycle data.

📄 Abstract(原文)

In the Republic of Korea, 42.6% of buildings are 30 years old or older. Most were constructed before the strengthening of energy-saving design standards, making improvements in energy performance essential to meet carbon-neutrality targets. "Green remodeling" refers to environmentally friendly retrofits of aging buildings to improve energy performance and efficiency and enhance indoor comfort. Accordingly, the Korean government is promoting green remodeling for aged public buildings, prioritizing facilities for vulnerable groups such as children. In green remodeling, the before-and-after energy-saving effect is critical, and current policy in Korea recommends achieving at least 30% energy savings. However, achieving carbon neutrality requires whole-building life cycle assessment (LCA) of carbon emissions, whereas most domestic efforts still focus only on reducing operational energy use. Therefore, this study analyzes emission-reduction effects not only during operation but across the entire life cycle of a green-remodeled building. A public daycare center over 30 years old was selected, and passive measures, including thermal insulation, low-emissivity glazing, and airtight insulated doors, were applied. The embodied carbon of the materials used was calculated using the national LCI database, and life cycle assessment across production, transportation, construction, and demolition stages was performed in accordance with ISO 14040 and ISO 21930. The operational effects of the green remodeling were analyzed using the DesignBuilder program. According to the results, the carbon emissions generated by the green remodeling works for a public daycare center over 30 years old were 32.078 tCO2eq, and during the operational stage the emissions decreased from 12.558 tCO2eq to 11.225 tCO2eq, representing a reduction of approximately 10.6%. These results indicate that carbon payback begins 24.1 years after the green remodeling, and that full offset can be achieved at 48.2 years. Therefore, the findings suggest that energy savings are feasible for green-remodeled buildings not only during operation but also from a whole life-cycle perspective, and they are expected to serve as a basis for future carbon-reduction analyses and policy development.

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