Low-carbon benefits of aircraft adopting continuous descent operations
Dabin Xue, Sen Du, Bing Wang, Wen‐Long Shang, Nicolò Avogadro, Washington Y. Ochieng
Abstract
Continuous descent operations (CDOs) can significantly reduce fuel consumption compared to the conventional step-down approaches by minimizing level-off segments and enabling engines to operate at idle or near-idle during descent. However, accurately quantifying the potential environmental benefits of CDOs is empirically challenging and depends on factors such as airspace structure, traffic density, and aircraft performance. To address this challenge, we propose a straightforward method to estimate the benefits of applying CDOs. We validate the proposed approach by leveraging quick access recorder data from movements at seven major airports in China. The results show that CDOs can reduce fuel consumption by an average of 139 kg per flight, decreasing CO 2 and other emissions during the descent phase. This can contribute to improving air quality around airports. Looking forward, we estimate that the nationwide adoption of CDOs in China could cumulatively reduce CO 2 emissions by approximately 67.6 Mt. in the period 2025–2050 considering air traffic demand forecasts and expected technological advancements. Overall, this study highlights the critical role of CDOs in promoting sustainable aviation, providing a robust basis for policymakers to support the global adoption of CDOs for the net-zero transition of the aviation industry. • Continuous descent operations (CDOs) are a promising strategy to reduce fuel consumption compared to the conventional step-down approaches. • A method to estimate the potential fuel consumption and emission reductions through CDOs is proposed. • Implementing CDOs at seven major Chinese airports can reduce fuel consumption by 139 kg per flight, consequently reducing aircraft emissions. • The long-term effects of CDO adoption on aircraft emissions are estimated based on future scenarios.