Overall, the average marginal costs of energy efficiency measures will decrease by 20%, from 1.48 $/GJ to 1.19 $/GJ, when taking into account avoided investments in air pollution control measures. If we do not consider costs (EEP2 scenario), energy efficiency measures can further reduce 3% of CO2, 2% of PM, 10% of SO2, and 8% of NOx by 2030. Compared to the baseline scenario, energy efficiency measures can help decrease 5% of CO2, 3% of PM, 15% of SO2, and 12% of NOx emissions by 2030 in EEP1 scenario. The technical energy savings potential (EEP2 scenario) and its costs amount to 4.2 EJ and 8.4 billion $ at the same time. The cost-effective energy saving potential (EEP1 scenario) and its costs is estimated to be 3.0 EJ and 4.1 billion $ in 2030. Results show that there are large co-benefits of improving energy efficiency and reducing emissions of CO2 and air pollutants for the China’s cement industry during the study period. In this study, the energy conservation supply curves (ECSC) combined with the GAINS (Greenhouse Gas and Air Pollution Interactions and Synergies) was used to estimate the co-benefits of energy savings on CO2 and air pollutants emission for implementing co-control options of energy efficiency measures and end-of-pipe options in the China’s cement industry for the period 2011–2030. Actions to improve energy efficiency by best available technology can often bring co-benefits for climate change and air quality through reducing emissions of GHGs and air pollutants emission. China’s cement industry is the world’s largest and is one of the largest energy consuming, and GHG and air pollutant emitting industries.
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