Each ton of microalgae biomass can capture two tonnes of CO2.
Meanwhile, SATAVIA uses artificial intelligence (AI) and data analysis to study and tackle contrail formation. Created by aircraft cruising above 26,000 feet, contrails are line-shaped clouds that can contribute to the warming of the Earth’s atmosphere. To reduce the environmental impact of aviation through smarter flight planning, the start-up has developed an AI platform called DECISIONX that uses weather prediction modelling to generate a high-resolution replica of the Earth’s atmosphere over time. The platform can determine atmospheric changes in temperature, sunlight, humidity, pressure, clouds and wind speed, among other factors.
Saeed Al Falasi, Executive Director of Future Design and Acceleration at DFF, said, "Aviation X Lab’s challenges align with DFF’s efforts to shape the future of the aviation sector by studying its challenges and opportunities, anticipating upcoming changes, and preparing to meet new and emerging needs at the local and global levels."
Amna Al Redha, Project Lead at Aviation X Lab, said, "While aviation contributes only two percent of global carbon emissions, we know technology and innovation can drive this number down further. Aviation X Lab will help the winning teams reach the next level by supporting their innovative projects and leveraging its world-leading partners to accelerate their path to wider commercial adoption." The success of ZALINA and SATAVIA follows a recent proof of concept completed by Finland-based start-up NANOKSI, the winner of Aviation X Lab’s Accelerate Traveller Wellbeing challenge.
The company has invented an active self-disinfecting coating solution based on titanium dioxide (TiO2) that uses photocatalysis to eradicate 98 percent of microbes within two hours. The innovative solution can be used across a wide spectrum of sectors, from travel to healthcare.