A Design Workflow Based on Life Cycle Assessment, For a Rammed Earth House in Rural Yunnan
Paper in proceeding, 2024
Addressing global challenges such as climate change, energy crises, housing shortages, and regional inequality, this paper explores sustainable building design workflow in Yunnan's rural area. This study developed a datadriven approach to achieve climate-adaptive, affordable rammed earth house design. It assesses environmental impacts based on cradle-to-grave life cycle assessment and assesses indoor comfort and energy efficiency through dynamic building performance simulations. The study culminates in guidelines for rammed earth house design based on extensive data analysis. Several design plans for the rammed earth house project were developed and evaluated, together with a conventional brick house. The outcome of our study offers a sustainable housing design workflow that could inspire similar initiatives in regions with comparable social and climatic conditions.
indoor climate
building performance simulation
data-driven design workflow
life cycle assessment
climate-adaptive
rammed earth house
Author
Xingda Guo
Chan Cheung Mun Chung Charitable Fund
Jieming Yan
Chalmers, Architecture and Civil Engineering, Building Technology
Shan Dai
Chinese University of Hong Kong
Energy Proceedings
20042965 (eISSN)
Vol. 48
10th Applied Energy Symposium: Low Carbon Cities and Urban Energy Systems, CUE 2024
Shenzhen, China,
Shenzhen, China,
Driving Forces
Sustainable development
Subject Categories (SSIF 2011)
Building Technologies
DOI
10.46855/energy-proceedings-11328