NEOM — NEOM Company announced on Wednesday the successful testing of Volocopter aircraft and first eVTOL flight in Saudi Arabia, marking another step towards adoption and commercial eVTOL operation in NEOM and beyond. NEOM Company and Volocopter, a pioneer of urban air mobility (UAM), made the announcement about the successful completion of a series of air taxi test flights in NEOM. This marks the first time an eVTOL (electric Vertical Take-Off and Landing) aircraft has received a special flight authorization and performed test flights in Saudi Arabia. The flight test campaign lasted over a week and built on 18 months of collaboration between NEOM, the General Authority of Civil Aviation (GACA), and Volocopter, with the aim of implementing and scaling an electric UAM ecosystem and testbed in NEOM. The parties worked closely to ensure full regulatory compliance and safety ahead of the test campaign. Speaking on the occasion, GACA President Abdulaziz Al-Duailej said that this safe and successful test flight represents an important milestone of the Saudi aviation sector and another steady step towards achieving the aviation sector's strategy, through innovation and employing emerging technologies to create new industries that contribute to the output GDP and create more jobs. "It also confirms GACA's commitment to enabling the safe integration of innovative air transport patterns that improve the mobility experience of individuals in urban areas and the quality of life in the Kingdom of Saudi Arabia," he said. NEOM and Volocopter share a joint vision of creating a better future through innovative, clean technology. As part of a multimodal transport system, electric air mobility reflects NEOM's ambition to revolutionize mobility and transform people's lives. In 2021, NEOM and Volocopter founded a joint venture to scale advanced air mobility, positioning NEOM as a collaborative, global living lab for the future of transportation. In his speech, Nadhmi Al-Nasr, CEO of NEOM, said that the successful test flight of a Volocopter eVTOL is another milestone towards the creation of NEOM's innovative, sustainable, multimodal transportation system. "It is a tangible example of NEOM as a global accelerator and incubator of solutions to the world's most pressing challenges. Driving the development of smart, sustainable, and safe mobility systems will improve liveability and connectivity in cities around the world and reduce carbon emissions, creating a cleaner future for all," he said. On his part, Christian Bauer, chief commercial officer of Volocopter, said that it is beyond exciting to see our work from the past 18 months come to fruition. As the first eVTOL aircraft to ever test in Saudi Arabia, we are proud to have lain the groundworks for our future collaboration here in NEOM. The test campaign focused on the flight performance of the Volocopter aircraft in local climate and environmental conditions, as well as testing its integration into the local unmanned aircraft system traffic management (UTM). Volocopter eVTOLs will be key to NEOM's smart and sustainable multimodal mobility system, which will be powered by 100 percent renewable energy, generated by solar and wind energy sources. They will be used in a variety of roles, including as air taxis and emergency response vehicles, and are quieter, more easily adaptable, and cheaper to operate than the helicopters often employed today. They have smaller on-ground infrastructure footprint, fewer operating restrictions, and employ smart and autonomous capabilities that ensure both safety and sustained relevance in future contexts. The test flight announcement builds on NEOM's EUR 175 million investment and joint venture with Volocopter and positions NEOM as a leader in future mobility solutions. Volocopter expects to obtain type certification of its VoloCity air taxi in 2024, enabling future commercial operations. Volocopter recently announced the commencement of VoloCity serial production at its facilities in Bruchsal, Germany, with a capacity to deliver more than 50 aircraft a year under one shift conditions.
