At SITA, we’re helping the aviation industry to decarbonize and to prepare for more extreme weather conditions due to climate change.
Of course, industry paths to decarbonization take long-term commitment and investment. Sustainable aviation fuel, market-based measures, and new aircraft technology – they’ll each evolve constantly in the coming years.
Another more immediate path is operational efficiency, generated by IT. Efficiencies reduce emissions by optimizing processes, allowing cost effective, immediate and incremental actions on the journey to net zero.
Beyond decarbonization, we support airlines in building weather resilience. As turbulence worsens, it impacts airline costs by between $150,000 to as much as $500m a year. Our solutions help airlines make proactive decisions that minimize weather disruptions and optimize fuel efficiency.
Experts in collaboration for better efficiencies
Being at the heart of the industry, our expertise includes collaborating closely with airlines, airports, governments and other travel organizations to understand their unique needs, pain points, and opportunities.
Our collaborative solutions unite stakeholders in the travel and transport ecosystem. Collaboration – driven by accurate real-time data – is key to smooth, on-time operations, reduced fuel consumption and emissions, and improved passenger satisfaction.
Boosting efficiency, saving cost, reducing emissions, and navigating ever evolving regulations – they’re central to our portfolio. We optimize flight operations and flight paths, meaning less fuel use and more cost savings. We offer a first-of-kind solution to manage regulatory requirements, with speed and ease. And our focus on aircraft turnaround and unified airport management systems will contribute to a future of sustainable aviation.
Products and solutions supporting sustainable aviation
Our latest Sustainability Report
SITA has formally reported its environmental, economic and social performance since 2011 using the Global Reporting Initiative (GRI) disclosures framework.