Life cycle impacts in buildings includes operational carbon for heating, cooling, hot water, ventilation, lighting, on the one hand, and embodied carbon for material supply, production, transport, construction and disassembly, on the other. Improved operational carbon has increased the percentage of embodied carbon in the total life cycle of buildings. Kuwait is looking at enhancing the sustainability of its built environment, as there is an urgent need to expand and build new cities. This research analyses the sustainability of the Middle Eastern built environment in order to provide the most appropriate strategies to respond to this demand.

Therefore, this paper looks at different alternatives to the current construction methodologies, such as cement replacement in concrete or rammed earth structural systems. The impact of three envelope and energy upgrades on the whole life cycle environmental performance of a Middle Eastern residential neighborhood is evaluated. Simulations are performed through urban modeling, resulting in a distribution of the embodied and operational impacts of buildings for the different design options. Based on the results showing embodied carbon can be lowered by 200 kg_CO2e/m², this paper offers guidelines for building codes and governments.