14.4: Improved Air-Conditioning Efficiency and Refrigerants

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Motor vehicle air-conditioning systems consume between 3% and 20% of all motor fuel, depending on the climate, vehicle, drive cycle, and congestion. Worldwide, more people are purchasing vehicles with air conditioning (AC). As fuel efficiency standards across the globe make the global fleet increasingly fuel efficient, AC will account for a growing percentage of vehicle fuel use. Warmer temperatures due to climate change will further increase the use of air conditioning. GHG emissions due to AC are almost three times greater in higher-temperature climates, making system efficiency improvements even more important in warmer regions.

Changes in refrigerants and improvements in AC efficiency can cut per-vehicle GHG emissions associated with AC use by up to 70% compared with older systems (Figure 14.4.1). As of 2019, most vehicles still used HFC-134a (R-134a) refrigerant, which has a 100-year global warming potential (GWP₁₀₀) of 1,300. Enhanced R-134a systems reduce GHG emissions by approximately 40% and are now prevalent in the market. Fortunately, cost-effective alternatives that use low-GWP refrigerants and technology to improve AC system efficiency are available that can reduce vehicle-AC-related GHG emissions by another 50%.

Bar chart showing GHG emissions from mobile ACs in kg CO₂. Emissions decrease from non-enhanced R134a to new refrigerants, marked with percentage reductions. — Figure 14.4.1 Greenhouse gas reduction potential from an internal combustion engine passenger vehicle air conditioner operating at higher average-temperature conditions, such as those found in Florida. Reproduced with permission from Blumberg et al. 2019.

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