There’s a title bout underway between the top contenders in the business-jet ring, and Bombardier is looking like an early favorite with its 19-seat Global 8000. Not only is the aircraft, which broke the sound barrier in flight tests, the fastest business jet in aviation history, it established a second milestone with its 8,000-nautical-mile range. For owners, that means the $83 million jet can fly nonstop between most of the world’s major cities while affording unprecedented levels of comfort.
These range wars come as no surprise. “The big builders have always had great interest in the top of the market—having the biggest, fastest, longest offering—and it’s getting crowded,” says Brian Foley, a consultant and former aviation executive. Besides the Global 8000, Foley points to the Gulfstream G800, scheduled to go into service later this year, and Dassault’s Falcon 10X, for which first deliveries are expected in 2027.
The Global 8000 became the fastest business jet in history after going supersonic, thanks to its Smooth Flex Wings and reconfigured GE Passport engines.
As for the Global 8000, it represents the next evolutionary step after Bombardier’s Global 7500. The clean-sheet design of these ultra-long-range siblings—which share the same airframe and GE Aerospace Passport engines—was announced in 2010, with the 7500’s first test flight taking place six years later. The goal was simple—create “the high-speed king or queen,” according to Stephen McCullough, senior vice president of engineering and product development at Bombardier. The 7500 has set 125 city-pair speed records since its 2018 entry into service, with more than 200 examples in the skies.
The 8000 was born after the engineers at GE Aerospace reconfigured the Passport’s software and McCullough’s team expanded the fuel capacity in the wings. “We knew the aircraft had some room left at the top for performance,” he says. The final numbers include a max speed of Mach 0.94 (721 mph), an ultrahigh speed of Mach 0.92 (706 mph), and a standard cruise of Mach 0.85 (652 mph)—the latter delivering its benchmark range.
From left to right: The Soleil system is designed to reduce jet lag by adjusting light intensity to help sync the passengers’ circadian rhythms to the destination’s time zone; the four-zone interior includes an optional rear stateroom.
Compared to these leaps in capability, specs like a cabin atmosphere of 2,900 feet—even while cruising at 41,000 feet—may seem trivial. Unless, of course, you’re a passenger. At that pressurization level, the human body receives more oxygen and experiences less stress. Other functionality is also designed around physiology. The Soleil circadian-rhythm system adjusts light intensity to minimize jet lag; the Pur Air system refreshes cabin air in 90 seconds; and the 8000’s “zero-gravity” Nuage seats cradle the body in both upright and sleeping positions. Even the 8000’s tack angle in flight was factored into the comfort equation. “A couple of degrees doesn’t sound like it will make much difference,” says McCullough. “But when somebody’s sleeping on a long-range flight, it’s important that they feel like they’re in their bed at home.”
These tech-forward amenities, along with the generous cabin size—comprising four interior zones—could be critical differentiators for biz-jet buyers. “When you really do the math on the speed and range differences, practically speaking, they’re all similar,” says Foley of the competitive field, noting that these latest and greatest will push the ultra-long-range category into new territory. “It’ll be a fistfight at the top, but it’ll be an interesting dynamic to watch,” he adds. Meanwhile, with the Global 8000, Bombardier has landed a very solid first punch. J. George Gorant
Wing Theory
Measuring 104 feet from wingtip to wingtip, the Global 8000’s Smooth Flex Wings (upper left) are thinner and shorter than those of the aircraft’s competitors, maximizing efficiency and minimizing drag.
Courtesy of Bombardier
When Bombardier established flight parameters for the Smooth Flex Wing on its Global 7500, the engineering team realized aerodynamic realities were working against them. “We wanted this wing to be the fastest we’d ever designed… very slender with minimal drag at Mach 0.85 or 0.90 and flexibility in terms of torsion,” says Bombardier’s Stephen McCullough. But for “challenging airports,” such as London City, the aircraft needed extra lift and drag to be able to land at speeds as low as 120 knots. These opposing constraints resulted in a blueprint that “looks like two different wings,” he adds. “It would’ve been a compromise if we hadn’t done something mechanically different.”
Upon takeoffs and landings on short-field runways, though, they assume a different aerodynamic profile to increase lift and enhance control at slower speeds. This allows the Global 8000 to access such hot spots as Tortola, Gstaad, Lugano, St. Moritz, Martha’s Vineyard, and East Hampton—destinations that other aircraft in its class can’t fly into.
Courtesy of Bombardier
The result is a smaller, sleeker, more flexible wing with a split-aileron configuration. The innovative design makes it a turbulence absorber at high speed, and Bombardier claims that it reduces cabin vibration by a factor of 2.5. On takeoff and landing, the wings’ double-slotted Fowler flaps and leading-edge slats extend outward and downward to increase surface area. This allows for Bombardier’s latest Global models to land at speeds associated with much smaller jets and gives them a steeper glide slope than other long-range counterparts. As for proof of its efficacy, the Smooth Flex Wing was instrumental in the Global 8000’s supersonic test flight. Such is the shape of success. Michael Verdon