Rehmaashini J, Mat Naim-Abdullah M A, Abdul-Hakim M, Mohmmad-Nazir J, Janice Lee Y M and Maizan B 2017 Green retrofitting – A review of current status, implementations and challenges. (accessed January 2, 2021)Ībdulrahman Haruna, Nasir Shafiq and Montasir Osman Ahmad Ali 2021 Building information modelling application for developing sustainable building (Multi criteria decision making approach, Ain Shams Eng. IEA 2020 GlobalABC/IEA/UNEP GlobalABC Roadmap for Buildings and Construction: Towards a zero-emission, efficient and resilient buildings, Intrenaitonal Energy Agency, Paris. Ĭhristina E H and Runa D 2021 Ambitious deep energy retrofits of buildings to accelerate the 1.5☌ energy transition in Canada. Wei Y, Zhang X, Shi Y, Xia L, Pan S, Wu J, Han M and Zhao X 2018 A review of data-driven approaches for prediction and classification of building energy consumption. Moreover, the findings of this research could be used to assist stakeholders in determining the most efficient and suitable thermal retrofit solution for a particular set of targeted buildings and allow Afghan residents to weigh the benefits of improved energy performance from envelope retrofit and the associated capital outlay. These findings will aid in the energy efficiency of Afghanistan’s residential sector and provide valuable references for future thermal retrofit research and innovation in local and global contexts. The findings show that retrofitting existing buildings has substantial advantages and can increase the energy efficiency of buildings. This comprehensive approach was applied to the reference building, a typical mid-rise apartment complex in Afghanistan. Based on the quantitative findings of energy modeling, a priority guide was created for the most viable and practical retrofitting solutions for residential buildings, and financial analysis of initial investment versus return was done. Hence, this work examines the importance of thermal retrofitting in the case study of Afghanistan. A well-known dynamic algorithm was used to examine several retrofitting assumptions. This study proposes a cost-effective approach for retrofitting existing residential buildings. ![]() Building energy retrofitting is more cost-effective for improving energy efficiency than reconstruction. Furthermore, residential buildings in developing countries tend to have lower-performance construction and energy systems than modern commercial buildings. However, an economic analysis is necessary to determine technically feasible and economically viable measures in a particular region. Building energy retrofitting has proven to be beneficial in alleviating the pressure of energy shortages in developed countries. ![]() Building energy retrofitting provides a sustainable solution to enhance the thermal performance of existing structures.
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