Transitioning to low-carbon suburbs in hot-arid regions: A case-study of Emirati villas in Abu Dhabi

Abstract

Abstract The continued and global popularity of single-family homes indicates that a scalable, yet regionally appropriate strategy for achieving zero-carbon suburban development is needed in the coming decades. This need is especially critical in the hyper-arid region around the Arabian Gulf where per-person carbon emissions are among the highest in the world. Using geometrically sensitive simulation models for a household s building energy, water, and automobile use, this paper uses Emirati neighborhoods in Abu Dhabi, UAE as a case study to estimate emissions for a baseline and set of future possible scenarios towards transitioning single-family households in the region to low, and eventually near-zero operational carbon emissions. An analysis of the combined impact of energy efficiency gains through (1) technology adoption and better design, (2) carbon intensity reduction from renewable energy transitions, and (3) carbon sequestration from parcel scale tree planting is presented. From a baseline CO2 emissions of 64.3 tons per household per year for new construction, the study finds future emissions potential reductions of 33.7%–49.0% from improved house design, 98.1% from electrification and solar energy sourcing, and 99.4% from combined design and technology improvements. This study also finds that if the water-energy nexus in Abu Dhabi transitioned to solar-powered, reverse-osmosis desalination, trees would become net carbon sinks (0.6–1.9 kg CO2/m2/yr). As a result, in the future, low-density neighborhoods with dense areas of tree planting may become a sustainable housing typology when measured by net operational emissions. This fact would upend multiple current assumptions by Western planners about sustainable transitions for arid regions.