Browsing by Author "Zami, Mohammad Sharif"
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Article Decarbonizing Buildings With Autoclaved Aerated Concrete (AAC): Climate-Specific Meta-Analysis of Global Performance(Taylor & Francis Ltd, 2025) Azhar, Jasim; Aydin, Serdar; Zami, Mohammad SharifThe building sector, which accounts for 40% of global energy consumption and 36% of CO2 emissions, requires immediate access to scalable low-carbon materials. The theoretical thermal advantages of Autoclaved Aerated Concrete (AAC) remain incomplete because field performance reports show inconsistent results between 15% and 50% energy savings, and multiple unaddressed implementation challenges have prevented its strategic adoption. The systematic review used worldwide climate-based empirical data to resolve existing performance discrepancies and develop practical implementation strategies. The meta-analysis of 12 studies comprising 847 dwelling units, assessed using CASP and ROBINS-I quality tools, showed that energy savings depend on climate zone: hot-arid zones achieving 48.3% (95% CI: 42.1-54.5%), cold-temperate zones 32.7% (27.3-38.1%), and hot-humid zones 28.4% (22.9-33.9%). The strongest predictor of performance was cooling degree days (beta = 0.0089, p < 0.001), while implementation quality explained 26% of performance variation. Economic modelling revealed median payback periods from 4.2 years (hot-arid) to 9.7 years (cold-temperate), with a 78-92% probability of positive lifetime returns. Carbon pricing at $50/tCO(2) reduces payback by 23%. The research develops a climate-oriented analytical system that analyses performance variations to help designers and policymakers achieve maximum AAC decarbonization results by combining environmental data with system information and financial metrics. [GRAPHICS] .
