boom supersonic
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Commercial aviation isn’t typically the place to look if you’re after carbon-light initiatives. Jet fuel isn’t generally very green, and airplanes burn a lot of it when traversing the skies. But supersonic flight startup Boom wants to change the perception of commercial aviation as an emissions-costly prospect, starting with their testing development program for the XB-1 supersonic demonstration aircraft that will eventually lead to the development of its Overture passenger aircraft.
Boom claims this will make it the first commercial flight OEM to achieve this level of sustainability, especially from the very beginning of its aircraft flight testing and certification process. And while XB-1 and eventually Overture aren’t electric or hybrid aircraft, the way the company hopes to achieve this milestone is through a combination of using sustainable jet fuel and carbon offsets (effectively the process of buying carbon “credits” by funding projects that net reduce greenhouse gases) to reduce its overall carbon footprints to zero.
The fuel that Boom is using comes from partner Prometheus Fuel, which is a company that uses electricity from renewable power sources, like solar and wind, to turn CO2 scrubbed from the air into jet fuel. Already, Boom has tested this fuel in use during some of its initial ground tests, and its findings indicate that it should be able to use it effectively through both the remainder of ground testing, as well as into its flight program.
While there is some debate about the overall validity and efficacy of carbon offsets, provided that money from these programs is funneled into the proper initiatives, they do seem to result in more ecological good than not. And any attempt to offset the economic impact of a flight program like Boom’s, especially if it’s carried through to flying production aircraft, should be better for the environment than had no attempt been made whatsoever. Which, by the way, is the case for most new aircraft development programs.
Already, Boom is in the process of building the XB-1, which it will then flight test in partnership with Flight Research during a program in the Mojave Desert at the Mojave Air and Space Port. The goal is to begin testing this summer, and eventually use the information gathered from the XB-1 program (which will be able to hold a pilot but no passengers) to build out the final Overture aircraft that will offer commercial passenger supersonic flight services. Boom has secured agreements with a number of airlines for pre-orders for Overture, including JAL and Virgin.
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One Denver-based startup’s long-shot bid to move today’s commercial jets beyond supersonic speeds just got a big injection of cash.
Boom Supersonic, which is building and designing what it calls the “world’s first economically viable supersonic airliner,” announced today that they’ve closed a $100 million Series B funding round led by Emerson Capital. Other investors include Y Combinator Continuity, Caffeinated Capital, SV Angel, Sam Altman, Paul Graham, Ron Conway, Michael Marks and Greg McAdoo.
The startup has raised around $140 million to date. The team has about 100 employees, and hopes to double that number this year with its new funding.
“Today, the time and cost of long-distance travel prevent us from connecting with far-off people and places,” said Boom CEO Blake Scholl in a statement. “Overture fares will be similar to today’s business class—widening horizons for tens of millions of travelers. Ultimately, our goal is to make high-speed flight affordable to all.”
Alongside the fundraise, Boom is further detailing its plans to begin testing its Mach 2.2 commercial airliner this year. The company is aiming to launch a 1:3 scale prototype of its planned Overture airliner this year, called the XB-1. The two-seater plane will serve to validate the technologies being built for the full-sized jet.
The startup’s supersonic Overture jet will hold 55 passengers, and the team hopes that the costs of flying more than double the speed of sound will be comparable to today’s business-class ticket prices. The company already has pre-orders from Virgin Group and Japan Airlines for 30 airliners.
Indeed, $100 million may seem like a lot of money, but the development costs for lengthy projects like these can quickly race toward the billions of dollars, suggesting that if they carry out their mission, they’re going to need a whole lot more.

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“There’s nothing like it out there,” says Commander Bill “Doc” Shoemaker (Ret.), chief test pilot for Boom Supersonic, the startup aiming to make a passenger airliner for transoceanic flights at speeds (as you might guess from the name) faster than sound. Shoemaker, a former Navy aviator, fighter pilot and aeronautics engineer, will have the daunting privilege of being the first to fly the company’s proof of concept single-seater during tests next year.
That there’s nothing like Boom is not exactly a controversial opinion — there aren’t a lot of companies out there trying to resurrect supersonic flight. The Concorde is, after all, so well known a cautionary tale of engineering ambition exceeding the constraints of reality that it verges on hackneyed. But Shoemaker isn’t a Silicon Valley startup commentator, he’s a test pilot, and his perspective is that of someone who has worked on and flown dozens of aircraft, including supersonic ones, over his decades-long career.
The first question I asked (though not entirely a serious one) when I had a chance to chat with Shoemaker was whether it was a bit premature to have a chief pilot at a company that doesn’t yet have a plane to fly.
“There’s a good reason to have a pilot at this point,” Shoemaker said. As he delicately put it: “Among the team, the pilots are… uniquely committed to the outcome.”
Among other things, test pilots seem to have a knack for understatement. But it’s certainly true.
“You want the operator’s perspective, like how to build the cockpit, how you’ll operate the aircraft. The designer will come to me for that perspective — he’ll say, ‘how can I tweak the design to be more suitable for you?’ You want that cross-industry expertise.”
Boom is making a supersonic airliner, but it’s still mostly a paper plane, if you will. The company’s test craft, the XB-1, however, is being built and should be taking to the air about a year from now. That’s where many of the components, materials and design choices will be flight-proven. Interestingly, however, actually flying the test craft is a rather analog affair.
“The aircraft is definitely designed around a philosophy, which is ‘keep it simple.’ We’re not trying to introduce any more tech than we really need to. The flight controls are not fly-by-wire, they’re mechanical,” explained Shoemaker. “It’s going to be an interesting airplane to fly. It goes from 150 knots up to Mach 2.2, and up to 45,000 feet. It’ll be a challenge because of that mechanical stuff, but with what we’re trying to do, keeping it simple makes a lot of sense.”
That’s not to say nothing has changed over the last few decades of aeronautics, a topic in which, if you’ll recall, Shoemaker has a doctorate. Although he said he considers his role as being separate from the flight test engineers who put together the craft he’s flown, he’s still an important part of the team.
He suggested a few areas where he’s seen or expects improvements to the aircraft creation and testing process.
“One is composite materials. That’s huge,” he said, referring to things like carbon fiber and more exotic weaves and alloys that combine a number of desirable characteristics. “The strength and weight improvements offer new opportunities. You know, the Concorde would contract like a foot during flight temperatures, then expand again. Composites don’t do that. All these things make the aircraft lighter, faster and stronger.”
Second, he briefly noted, engine technology these days is “brisk,” especially combined with the materials advances.
“Last,” he said, “the Concorde design was wind-tunnel based, but a lot of the work we do is computation. We can do all the testing they did for the Concorde in a couple days.”
Wind tunnels are still involved, of course, but the models are so good that it’s more for verification than testing. But it also lets designers speed through ideas, evaluating but skipping wild ones without wasting time: “You can look at all these weird corner cases, and explore those very quickly.”
Basic advances in tech mean the team can avoid quirks like the Concorde’s drooping nose, which was there so that pilots could see the runway. “You can imagine all the mechanical complexity that comes with that,” said Shoemaker. “For us we’ll be going with a direct camera or some kind of vision system that’s integrated with all the systems.”
“The airliner itself,” he said, “will be highly augmented [compared to the test jet]. It’ll be fly-by-wire. Its handling qualities are really quite benign across the envelope. It’s surprising, but the way the aircraft handles on one side of the speed of sound isn’t so different from how it handles on the other side.”
Ultimately Shoemaker was optimistic about the whole enterprise, both the company and the prospect of supersonic passenger flight.
“As far as an ambitious project with an ambitious goal, there’s nothing like it out there,” he said. “That’s the value and reward of working with a team this size, a team that really believes they can reinvent and do it better. And it’s well within what we can do with technology — we can do it better than Concorde did, possibly by orders of magnitude.”
As for his part, the test flights set to take place next year, he’s more than a little excited.
“It’ll be a challenge to fly for sure — but it’ll be nice to go that fast again.”
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