A groundbreaking study conducted by the collaborative efforts of American Airlines, Google Research, and Breakthrough Energy has demonstrated a significant advancement in mitigating aviation’s environmental impact. The study focused on contrail avoidance – the creation of thin, white clouds left behind aeroplanes in the sky – which contributes to approximately 35% of aviation’s global warming impact, according to a recent Intergovernmental Panel on Climate Change (IPCC) report.
Contrails form when aeroplanes fly through humid regions, and their persistence can lead to the trapping of heat within the Earth’s atmosphere. However, a joint research team comprising American Airlines, Google Research, and Breakthrough Energy has developed an innovative solution to tackle this issue. The team created advanced software that predicts areas where high-climate-impact contrails are likely to form and assists airlines in planning flight routes to avoid these regions.
Utilizing a combination of artificial intelligence (AI), large-scale weather data, flight path data, and satellite images, the research team developed contrail forecast maps. These maps were used in a series of 70 test flights carried out by American Airlines pilots over a six-month period. The AI-based predictions provided insights to pilots, enabling them to make slight route adjustments to avoid contrail formation.
The results were impressive. The flights where pilots used AI predictions to avoid contrail formation experienced a remarkable 54% reduction in contrails, as measured by distance, compared to flights where such predictions were not used. Additionally, it was noted that flights avoiding contrails consumed approximately 2% more fuel, which translates to only 0.3% more fuel when scaled across an entire airline fleet. This cost increase is minimal, considering the substantial climate benefits achieved through contrail avoidance.
“We now have the first proof point that commercial flights can use these predictions to avoid contrails, as verified in satellite imagery,” stated Juliet Rothenberg, head of product for Climate AI at Google Research. “Avoiding contrails might be one of the best ways to limit aviation’s climate impact, and now we have a clear demonstration that it’s possible to do so.”
The study’s success holds significant promise for the aviation industry’s ongoing efforts to reduce its environmental footprint. The findings emphasize the feasibility and effectiveness of using cutting-edge AI technologies in conjunction with real-time data to implement climate-conscious changes in flight patterns. While further research is needed to assess the scalability and widespread applicability of this approach, the initial results mark a substantial leap towards more sustainable air travel practices.
American Airlines, which has been actively pursuing sustainable operations through initiatives like more fuel-efficient aircraft and low-carbon fuel, sees this research as a crucial step forward in its commitment to achieving net-zero greenhouse gas emissions by 2050.
As concerns about climate change continue to grow, innovative collaborations between industry leaders and technological pioneers offer hope for a more sustainable future. The success of this joint effort between American Airlines, Google Research, and Breakthrough Energy exemplifies the positive impact that can be achieved through innovative problem-solving and cross-sector partnerships.