Scroll Top

Hermeus’s first of a kind Chimera engine switches from supersonic to hypersonic

Futurist_qhorse

WHY THIS MATTERS IN BRIEF

So far noone has cracked the ability to switch an engine from supersonic to hypersonic. That’s now solved. Let the hypersonic era commence!

 

Love the Exponential Future? Join our XPotential Community, future proof yourself with courses from XPotential University, read about exponential tech and trendsconnect, watch a keynote, or browse my blog.

Atlanta company Hermeus who recently won a US Air Force (USAF) award to build the first hypersonic Air Force One presidential jet, has its sights set on Mach 4 next year, to beat the Mach 3.3 benchmark set by the SR-71 Blackbird way back in 1976, and you can watch its Chimera hybrid engine nailing the switch between low-speed turbojet mode and hypersonic ramjet mode.

 

RELATED
The USAF deploys it's first microwave drone killing weapon

 

Under USAF funding the company is charging forth on its Quarterhorse project, a dart-shaped, remotely-piloted UAV designed to sprint faster than any aircraft before it, and with funding only awarded back in 2021 the pace of development on this one is pretty wild, and Hermeus claims it’s still on track to break the outright air-breathing aircraft speed record next year.

 

Watch the new Chimera engine in action!

 

To get there, it needs an engine similar to what the Blackbird ran; a hybrid propulsion unit that can operate in two stages. When it’s time for maximum thrust at hypersonic speeds, you need a ramjet. But ramjets rely on airflow to compress and heat air ready for combustion; they can’t start you off on a runway, they produce basically zero thrust below Mach 0.5, and they don’t become more efficient than a regular turbojet below somewhere around Mach 3.

Thus, the hybrid. Hermeus has designed and built an engine it calls the Chimera that runs a ramjet and a slower-speed turbojet in the same tube. The turbojet is functional even at a standstill, so it’s capable of getting Quarterhorse down a runway and into the air, where it’ll accelerate to Mach 3 before shutting off. The supersonic intake air will then be routed around the turbojet into the ramjet, which will compress it, ignite it, and blast the aircraft to its top speed.

 

RELATED
GM announces it's ready to mass produce self-driving cars

 

The team took the Chimera engine to the Notre Dame Turbomachinery Lab last year, where it was mounted to a bench in a high-Mach test facility specially modified to deliver inlet air at speeds high enough to simulate Mach 4 flight. The engineers ran the jet in bursts, typically late at night to mitigate the insane electricity costs involved. The test campaign lasted a full five months before the Hermeus team was able to announce it had achieved a full and stable transition between the turbojet and ramjet stages in November.

“The Notre Dame facility allowed us to create conditions similar to what we’ll see in flight,” said Hermeus co-founder and chief technology officer Glenn Case in a press release. “Completing this testing on the ground significantly de-risks our Quarterhorse flight test campaign which will begin late [this] year.”

NDTL director Joshua Cameron said, “We are pleased that Hermeus chose NDTL as their partner for this exciting test program.” Cameron, who is also a research assistant professor in Notre Dame’s Department of Aerospace and Mechanical Engineering, added, “I am also so proud of my team for developing the facility and executing a successful test campaign on a very aggressive schedule.”

 

RELATED
Lamborghini's futuristic all electric, self healing hyper car won't have batteries

 

Beyond Quarterhorse, Hermeus is planning a larger Darkhorse unmanned platform, which will run an enormous Pratt & Whitney F100 engine out of an F16 as its turbojet stage. This machine is targeted at delivering sustained hypersonic flight at Mach 5, a military capability no country has yet in its arsenal.

But the end goal for Hermeus is not military. Its ultimate plan at this stage is to build a civilian, commercial, Mach 5 hypersonic airliner with a 3D printed titanium-alloy body and a range around 4,600 miles (7,400 km), capable of ferrying up to 20 passengers across 125 different trans-oceanic routes. This “Halcyon” plane would blast you from Paris to New York in 90 minutes at a monster 90,000 ft altitude, higher than the legendary Blackbird was allowed to cruise.

Five times faster than any commercial aircraft on the market today, Halcyon frankly looks like a bit of a pipe dream at this stage, given that it’s an exponentially harder thing to build, test and certify than a supersonic jet – and even those are proving critically difficult, with Florida company Aerion shutting down in 2021 despite more than $10 billion in advance orders for its 50-passenger Mach 1.4 jet. Not to mention, it’s a huge leap from developing military UAVs to getting a hypersonic airliner certified for commercial flight and into serial production, let alone cleared to fly at those speeds. Don’t hold your breath on this one.

 

RELATED
This new super alloy from NASA could revolutionise hypersonic flight

 

Still, Hermeus has made some pretty wild progress since it was founded in 2018. It’s a young company, with a preternaturally young-looking team, working on some ground breaking gear. They’re shooting for the moon, who knows where they’ll land? Check out the engine bench test in the video, it’s as awesome as you’d expect.

Source: Hermeus

Related Posts

Leave a comment

You have Successfully Subscribed!

Pin It on Pinterest

Share This