From Expansion to Renewal: Material Metabolism and Secondary Resource Potential of Urban Buildings in China Western Central Cities
拡張から再生へ:中国西部中心都市の都市建物における物質代謝と二次資源ポテンシャル (AI 翻訳)
Ruizeng Cao, Guohao Zhang, Tingting Yang, Fufu Wang, Chunlei Du, Xinmin Zhang, Lu Sun
🤖 gxceed AI 要約
日本語
中国西部の西安と成都の建物素材ストックを動的マテリアルフロー分析で定量化。2040年頃にピークを迎え、建設廃棄物の80%回収で新規素材需要を相殺可能と示唆。低炭素都市計画や廃棄物管理に科学的根拠を提供。
English
This study applies dynamic material flow analysis to quantify material stocks of residential and non-residential buildings in Xi'an and Chengdu from 1950-2050. It finds stocks will peak around 2040, and an 80% material recovery rate can largely offset new demand, supporting low-carbon urban planning and construction waste management.
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
日本でも建築ストックの更新期を迎え、建設廃棄物管理と資源循環が課題。中国西部の事例は、日本の都市縮小時代における素材代謝研究やSSBJのスコープ3対応に示唆を与える。
In the global GX context
As global cities face building stock renewal, this study provides empirical evidence on secondary resource potential from construction waste. It is relevant to ISSB's circular economy disclosures and Scope 3 carbon accounting for the built environment.
👥 読者別の含意
🔬研究者:This paper provides a comprehensive material flow analysis framework for urban building stocks, useful for circular economy researchers.
🏢実務担当者:Construction companies and waste management firms can use the recovery rate scenarios to plan secondary material supply chains.
🏛政策担当者:Local governments can adopt the findings to set recycling targets and design low-carbon urban planning policies.
📄 Abstract(原文)
Amid China’s transition from rapid urbanization to high-quality development, quantifying urban building metabolism is crucial for building resilient resource management systems. However, current research predominantly focuses on eastern cities, largely overlooking non-residential buildings. Here, we apply dynamic material flow analysis (dMFA) to quantify the material stocks of residential and non-residential buildings in two major economic hubs in western China, Xi’an and Chengdu. The stock patterns from 1950 to 2050 and the underlying drivers are further clarified. Model projections suggest that material stocks in both cities will peak around 2040, reaching 2.2 billion tons in Chengdu and 1.08 billion tons in Xi’an, under the intensive scenario. Chengdu reaches stock saturation 2 to 3 years earlier than Xi’an, and the total stocks are approximately twice those of Xi’an. Reinforced concrete and steel structures dominate future building development and increase the accumulation of cement and steel. Sand and gravel still account for the majority of building materials. Demand for new construction materials shows a pronounced double-peak pattern, occurring in 2016 and 2026. Construction waste is projected to rise sharply by mid-century; scenario analysis indicates that an 80% material recovery rate has the potential to largely offset new material demand. Sensitivity analysis identifies building lifetime extension and construction technology improvement as the strategies with the greatest potential for mitigating future waste generation. This study expands the scope of urban building material metabolism research and provides a scientific basis for low-carbon urban planning and construction waste management in China.
🔗 Provenance — このレコードを発見したソース
- semanticscholar https://doi.org/10.3390/buildings16132481first seen 2026-06-29 07:22:13
🔔 こうした論文の新着を逃したくない方は キーワードアラート に登録(無料・3キーワードまで)。
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。