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Archetype-based energy and material use estimation for the residential buildings in Arab Gulf countries

•153 multi-scale archetype models for six residential building typologies in the GCC region were developed using a five-stage bottom-up archetype development methodology that considered cultural, historical, technological, climatic, and economic conditions for material and energy use estimations.•Re...

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Bibliographic Details
Published in:Energy and buildings 2023-11, Vol.298, p.113537, Article 113537
Main Authors: Akin, Sahin, Chrysogonus Nwagwu, Chibuikem, Heeren, Niko, Hertwich, Edgar
Format: Article
Language:English
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Summary:•153 multi-scale archetype models for six residential building typologies in the GCC region were developed using a five-stage bottom-up archetype development methodology that considered cultural, historical, technological, climatic, and economic conditions for material and energy use estimations.•Residential buildings in Kuwait have the highest energy use per capita, and Saudi Arabia has the highest energy use overall. Cooling loads represent the largest energy demand in all GCC countries’ residential buildings, with Bahrain having the highest at 75%, Oman at 58%, and the entire region at 63%.•The study's analysis of residential material use patterns and trends across the GCC countries revealed that Saudi Arabia has the highest residential material demand, while Oman has the highest material use per capita. Residential buildings account for a significant portion of global energy and material use, particularly in developing countries such as those in the Gulf Cooperation Council (GCC) where rising income, urbanization, and construction material use have led to increased energy use. To reduce greenhouse gas emissions, resource efficiency strategies in residential buildings are crucial. To better capture and reduce regional CO2 emissions rooted in residential building stocks in the developing world, country-specific studies are crucial and should consider building-specific factors and their effects on the environment. This paper explores the characteristics of residential buildings in all GCC countries, where arid climatic conditions and urbanization create a high energy demand, particularly for cooling. Using a five-stage bottom-up archetype development methodology, the authors created 153 multi-scale archetype models for the GCC region considering each residential building stocks’ cultural, historical, technological, climatic, and economic conditions. The simulations conducted using the BuildME tool revealed the energy and material intensity of six typology groups of buildings, including apartments, villas, skyscraper flats, Arabic-traditional houses, vernacular houses, and informal houses. The archetypes were used to investigate resource use rates across various administrative levels, climate regions, typologies, cohorts, and countries. The findings were discussed in the nexus of occupant behaviors, cultural lifestyles, demographics, extreme climate conditions, and building standards across various administrative levels, typologies, cohorts, and countries
ISSN:0378-7788
DOI:10.1016/j.enbuild.2023.113537