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Study on the Impact of Temperature and Humidity Variations in Climate Zones on the Life-Cycle Assessment of Wall Materials

by Wu, Yi , Wan, Linhui , Wang, Xinqi , Zhou, Xiling , Chen, Yuyang , Fu, Xiaohua

in Analysis / Buffers / Building design / Carbon / Carbon content / Case studies / Cement / Climate / Climate change / comprehensive assessment indicators / Construction / Cost analysis / Cost control / Demolition / Economics / Emissions / Emissions (Pollution) / Emissions control / Energy consumption / Energy efficiency / Environmental impact / Green buildings / Humidity / Insulation / Life cycle analysis / Life cycle assessment / Life cycle costs / life-cycle assessment indicators / Materials selection / Payback periods / Raw materials / Sustainability / Sustainable development / Temperate zones / Temperature effects / Thermal conductivity / Thermal properties / Thermodynamic properties / wall materials

2026

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Study on the Impact of Temperature and Humidity Variations in Climate Zones on the Life-Cycle Assessment of Wall Materials

by Wu, Yi , Wan, Linhui , Wang, Xinqi , Zhou, Xiling , Chen, Yuyang , Fu, Xiaohua

2026

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Study on the Impact of Temperature and Humidity Variations in Climate Zones on the Life-Cycle Assessment of Wall Materials

by Wu, Yi , Wan, Linhui , Wang, Xinqi , Zhou, Xiling , Chen, Yuyang , Fu, Xiaohua

2026

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Journal Article

Study on the Impact of Temperature and Humidity Variations in Climate Zones on the Life-Cycle Assessment of Wall Materials

Wu, Yi,

Wan, Linhui,

Wang, Xinqi,

Zhou, Xiling,

Chen, Yuyang,

Fu, Xiaohua

2026

Overview

Life-cycle assessment is crucial for evaluating materials’ environmental impact and guiding the development of low-carbon and sustainable buildings. However, conventional LCA methods often overlook critical impacts during the operation and maintenance stage. To address this gap, this study proposes an improved framework using four composite indicators to enable systematic evaluation of six wall materials across China’s five climate zones. Using a university teaching building in the Hot Summer and Cold Winter Zone as a case study, this study quantitatively analyzed the economic viability and carbon reduction potential of each material. Results indicate that lower thermal conductivity does not necessarily imply superior economic and carbon reduction performance. Factors including the material carbon emission factor, cost, and thermal properties, must be comprehensively considered. Buffering materials also exhibit climate dependency—WPM and BWPM (moisture-buffering plastering mortars) perform better in hot–humid zones than temperate zones. All five buffer materials reduce operational energy consumption; WPM and BWPM stand out with 15.7% and 16.7% life-cycle cost savings and 17.3% and 18.0% carbon emission reductions, respectively. This study addresses the limitations of traditional LCC/LCA and provides theoretical and practical support for scientific material selection and low-carbon building design.

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Publisher

MDPI AG

Subject

/ Buffers

/ Carbon

/ Cement