MINDEN, Nevada, Dec. 9, 2015 – The sponsors and volunteers behind Airbus Perlan Mission II, an initiative to soar an engineless glider to the edge of space, celebrated today the opening of the new Dennis Tito Perlan 2 Hangar at Minden/Tahoe Municipal Airport. The ceremony marked the start of a critical flight test program to prepare for a record-breaking flight in 2016 when project pilots will ride air currents to 90,000 feet, opening up new discoveries in high-altitude flight, climate change and space exploration.
Airbus Perlan Mission II, which completed a successful first flight in Oregon on Sept. 23, has its new home in Minden thanks to Dennis Tito, a major backer of the volunteer-run Perlan Project. Tito built a new hangar to accommodate the Perlan 2 glider with its 84-foot wingspan, until the aircraft departs next summer for Argentina to take advantage of meteorological conditions ideal for its historic flights into the stratosphere.
"People like to say that the sky’s the limit,” said Allan McArtor, Chairman and CEO of Airbus Group, Inc., “but Perlan proves that the sky is not the limit, it’s only a starting point. We hope Perlan will inspire a new generation of young aerospace pioneers, and we want to be the kind of company that they will grow up wanting to work for.”
The pressurized Perlan 2 glider was developed by The Perlan Project, a volunteer-run, non-profit endeavor headed by leaders in aerospace and engineering. It is supported by Airbus Group and a collection of other sponsors that includes United Technologies, Weather Extreme Ltd. and BRS Aerospace.
“We’re excited that Airbus Perlan Mission II is initiating its critical flight testing phase in preparations for our record-breaking flights in Argentina next year,” said Ed Warnock, CEO of the Perlan Project. “In the coming months we’ll continue to gradually expand the flight envelope, to ensure we’re ready to meet the challenges of flying where no airplane has ever sustained flight before.”
In addition to a two-person crew, the aircraft will carry scientific instruments to provide new insight into climate change and our upper atmosphere. Because it lacks an engine, Perlan 2 can explore the edge of space without polluting the atmosphere it will study, opening up human knowledge on topics ranging from the rate of ozone depletion to the physics of flying aircraft on Mars.
Chairman and CEO of Airbus Group, Inc.
Perlan proves that the sky is not the limit, it’s only a starting point. We hope Perlan will inspire a new generation of young aerospace pioneers, and we want to be the kind of company that they will grow up wanting to work for.
Last month, the glider successfully completed ground vibration testing at ATA Engineering in San Diego, Calif., to ensure it can endure the rigors of flying in an environment that will more closely resemble the atmosphere on Mars than the Earth’s sea-level atmosphere.
Next year’s flights are expected to exceed even the altitudes achieved by the current world recordholder, the SR-71 Blackbird. Despite having no engine, the glider’s true flight speed at 90,000 feet will be more than 400 mph, and the air density will be less than two percent of what it is at sea level.
The crew will breathe pure oxygen provided by a rebreather system, similar to what astronauts use in space.
Airbus Group, Inc. is the U.S.-based operation of Airbus Group, a global leader in aeronautics, space and related services. Airbus Group contributes more than $16.5 billion to the U.S. economy annually and supports over 250,000 American jobs through its network of suppliers.
The opening of the new hangar marks the start of a critical flight test program to prepare for a record-breaking flight in 2016 when project pilots will ride air currents to 90,000 feet.
After the successful first flight of Perlan 2, Jim Payne, Chief Pilot of Airbus Perlan Mission II, talks about his preparations for the record flight to 90,000 feet in 2016, his expectations when reaching the altitude and future challenges for the project which include Mars.
Project moves into new hangar, prepares for exploration at edge of space