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Inequalities in global residential cooling energy use to 2050

Giacomo Falchetta, Enrica De Cian, Filippo Pavanello, Ian Sue Wing

2024Nature Communications72 citationsDOIOpen Access PDF

Abstract

Intersecting socio-demographic transformations and warming climates portend increasing worldwide heat exposures and health sequelae. Cooling adaptation via air conditioning (AC) is effective, but energy-intensive and constrained by household-level differences in income and adaptive capacity. Using statistical models trained on a large multi-country household survey dataset (n = 673,215), we project AC adoption and energy use to mid-century at fine spatial resolution worldwide. Globally, the share of households with residential AC could grow from 27% to 41% (range of scenarios assessed: 33-48%), implying up to a doubling of residential cooling electricity consumption, from 1220 to 1940 (scenarios range: 1590-2377) terawatt-hours yr.−1, emitting between 590 and 1,365 million tons of carbon dioxide equivalent (MtCO2e). AC access and utilization will remain highly unequal within and across countries and income groups, with significant regressive impacts. Up to 4 billion people may lack air-conditioning in 2050. Our global gridded projections facilitate incorporation of AC’s vulnerability, health, and decarbonization effects into integrated assessments of climate change. One quarter of households globally owns air-conditioning, but this could reach 41% by 2050. Yet, access and use will remain highly unequal. Electricity demand for air-conditioning will double, potentially increasing global CO2 emissions.

Topics & Concepts

Range (aeronautics)ElectricityInequalityEnergy consumptionEnvironmental scienceAdaptation (eye)Energy (signal processing)Consumption (sociology)GeographyPhysicsStatisticsMathematicsMaterials scienceEcologyBiologyComposite materialOpticsSocial scienceMathematical analysisQuantum mechanicsSociologyBuilding Energy and Comfort OptimizationClimate Change and Health ImpactsEnergy and Environment Impacts
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