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All issues Volume 686 (2026) E3S Web Conf., 686 (2026) 01009 References
Open Access
Issue
E3S Web Conf.
Volume 686, 2026
7th International Symposium on Architecture Research Frontiers and Ecological Environment (ARFEE 2025)
Article Number 01009
Number of page(s) 4
Section Built Environment and Climate Resilience
DOI https://doi.org/10.1051/e3sconf/202668601009
Published online 19 January 2026
  1. China building energy consumption and carbon emissions research report (2023)[J].Construction and Architecture, 2024,(02):46-59. [Google Scholar]
  2. Ibn-Mohammed T, Greenough R, Taylor S, et al. Operational vs. embodied emissions in buildings— A review of current trends[J]. Energy & Buildings, 2013, 66232-245. [Google Scholar]
  3. Zhang Huiting, Shao Bilin, Zhao Wei, et al. Review on Energy Efficiency Optimization of Building Envelope Based on Citespace [J]. Journal of Building Energy Efficiency, 2025, 53(07): 158-166.DOI: [Google Scholar]
  4. Tomás E M, Teresa M, Christopher M .On the tradeoffs between embodied and operational carbon in building envelope design: The impact of local climates and energy grids[J].Energy & Buildings, 2023, 278 [Google Scholar]
  5. Limmeechokchai B, Winyuchakrit P, Pita P, et al. Climate Change 2022: Climate Change 2022 Mitigation of Climate Change: Buildings[J]. International Journal of Building, Urban, Interior and Landscape Technology (BUILT), 2023, 21(2): 61-69. [Google Scholar]
  6. Yu H, Yang W, Li Q, et al. Optimizing buildings’ life cycle performance while allowing diversity in the early design stage[J]. Sustainability, 2022, 14(14): 8316. [Google Scholar]
  7. Lolli N, Fufa S M, Inman M. A parametric tool for the assessment of operational energy use, embodied energy and embodied material emissions in building[J]. Energy Procedia, 2017, 111: 21-30. [Google Scholar]
  8. Stagrum A E, Kvande T, Engebø A, et al. Climate implication and adaptation measures for energy use in buildings–a scoping review[C]//IOP Conference Series: Earth and Environmental Science. IOP Publishing, 2019, 297(1): 012035. [Google Scholar]
  9. Zhang, J., et al., Multi-objective optimization prediction model for building parameters of photovoltaic windows based on NSGA II-BP. Case Studies in Thermal Engineering, 2024. 64: p. 105500-105500. [Google Scholar]
  10. Wang G, Li X, Chang C, et al. Multi-objective passive design and climate effects for office buildings integrating phase change material (PCM) in a cold region of China[J]. Journal of Energy Storage, 2024, 82: 110502. [Google Scholar]
  11. Zhang, X. Research on the Quantitative Analysis of Building Carbon Emissions and Assessment Methods for Low-Carbon Buildings and Structures [D]. Harbin Institute of Technology, 2018. [Google Scholar]
  12. Luo X, Zhang Y, Lu J, et al. Multi-objective optimization of the office park building envelope with the goal of nearly zero energy consumption[J]. Journal of Building Engineering, 2024, 84: 108552 [Google Scholar]

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