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This study quantifies the warming impact of rising air-conditioning use across multiple climate and socio-economic scenarios using an integrated modeling framework.
•Global cooling demand (Cooling Degree Days) is projected to rise 25% by 2050 and 50% by 2100 under the baseline SSP245 scenario, relative to 2010
•An integrated framework combining improved CDD approach, GCAM energy model, and MAGICC climate emulator was used to project AC energy consumption and GHG emissions
•Both electricity consumption for cooling and refrigerant leakage (HFCs, CFCs, HCFCs) contribute to additional warming
•Under high-emission scenarios (SSP370, SSP585), cooling demand by 2100 is projected to be 48-66% higher than in 2010
•Income-driven inequalities in AC access are quantified using Lorenz curves and Gini coefficients across regions and income levels
This summary was automatically generated by AI based on the original article and may not be fully accurate.
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