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We know that its already in use don't we.....Thanks Alex🇺🇸 for all of your excellent research that goes into your fine videos......... Merry Christmas to you and yours...
From the Movie Stealth: "The Talon is capable of hypersonic flight with two combined Pulse Detonation/Scramjet engines." Science fiction has become reality.
💯 % They were designing jet engines that utilize the nose cone shock waves to work properly in a fuselage so advanced it was inadvertently stealthy... in the fifties while writing and designing on pen and paper with a straight edge for reference. Absolutely amazing.
It was advanced, but just for some perspective, a single F22 F119 engine produces 10,000 pounds more thrust, or about 40% more while weighing 2000 pounds less or about 35% lighter.
Does anyone else think it's funny how turbo fans are mechanically complex but the easiest to make them work whereas scramjets are just a tube but are incredibly hard to make them work?
This was an excellently created video, and I appreciate how you walked through all the technologies like we never heard them before to really grasp how big of a deal this is
It really is a good video. I had to rewind a couple of parts a couple of times to ensure I understood it. I have a grasp on it now. Thank you for the great descriptions and graphics to illustrate a complex subject in a more simple way.
And Kitty Hawk was only 120 years ago.. amazing technological advancements since then. I really appreciate the clear and concise explanations you give in "layman understandable" language... Bravo Zulu
If this info was released to OUR public, there is no way China hadn't been aware of the tech already. It's not a secret.. it's not so much how something works as much as can it be built.
Just FYI, the great thing about a rotation detonation engine is that they work both in space and air. In space, for the RDE to work, you just need to carry liquid oxygen with you. You can throw LOX into an RDE and continue to fly with no problem.
Yeah, people in developing nations still plow fields using horses too we ain't saying it don't work just saying there is distinct technological leaps and this is one of em'
Honestly it might be even bigger. Like if fuel injection, turbochargers, and hybrid powertrains all dropped at the same time. If they can get it working reliably enough for military use, it might be able to power the atmospheric leg of an SSTO spaceplane launch. That's probably a few generations away though.
For rockets RDRE makes 100% sense as they need the TIME quotient of thrust to be longer as the time component is squared while the acceleration component is linear and ALSO allows them to have a larger throttle envelope which currently is severely lacking in rocket motors. This is not true in current turbine designs. Maybe it is for scramjets(I do not know, not something I have studied, but varying the opening size would seem to be a fairly effective throttle) Rockets can squeeze the oxygen, but its combustion chamber is fixed in volume whereas in a turboscramjet it is not as limiting factor is fuel in a small volumetric area already.
@@Hebdomad7 there must be some maximum altitude where there is is insufficient oxygen to support sufficient combustion to maintain thrust. Thinking specifically about the comment about using the engine as a rocket stage.
@@vanguard9067 the RDRE that nasa tested was a rocket engine with oxidizer. so they work outside the atmosphere. ngl i never heared of rdre in the sense of a normal air breathing jet engine
This was so well explained that I’m sharing it with my USAFA FB group. Hopefully it gets in front of the cadets so they understand the tech they will be flying soon. 👏
I watched the test-firing of the rotation, detonation engine the other day. It looks a lot better than when I first heard of the engine. From seconds to now minutes.
Been a while since ive watched Sandboxx. Im always left impressed at the delivery and ability to make an interested layman such as myself grasp whats being covered. Well done....as always.
Interesting subject and Excellent video. I saw the SR-71 take off and land many many times. It was always very impressive. The commentary was very smart but, I've never quite heard 'ad infinitum' (22:16) pronounced that way. Peace.
China has more advanced than this apparently. Also look at the British Reaction Engines Sabre. Getting a lot of interest from the US. Be nice if we had got a mention.
I think the major engineering problem is building an aircraft that can handle high Mach speeds. What materials can handle the heat. All the liquids on the SR-71 were preheated and specially formulated. Especially the fuel, which was also used for cooling. Weapons may be feasible, something that is 1 time use, but something that's going to last long enough to be financially feasible is going to be rough
The lineage between pulsejets and PDEs - as drawn in this video - is a dangerous illusion. They have different development histories, different working principles, different physics. Scramjets also don't generate usable thrust at Mach 3 - more like Mach 4 - thanks to the needs of the compression geometry. The challenge of RDE is going to be clean detonation fronts in airflow regimes that have every kind of turbulence imaginable - it's worth noting the longest RDE runs have been on LOX.
🎯 Key Takeaways for quick navigation: 03:09 🚀 *GE Aerospace has achieved a Hypersonic dual-mode Ramjet test with rotating detonation combustion, a breakthrough in propulsion technology.* 05:41 ⚙️ *GE aims to integrate four different engine technologies (turbofans, ramjets, scramjets, rotating detonation combustion) into a single combined system for Hypersonic flight.* 07:43 🛫 *GE's dual-mode Ramjet with rotating detonation combustion may overcome the velocity gap challenge, allowing efficient operation at speeds below Mach 3 and above Mach 2.* 12:20 💡 *Rotating detonation combustion offers greater efficiency in ignition, potentially leading to smaller, more fuel-efficient engines for Hypersonic aircraft.* 23:07 📆 *GE expects to demonstrate the rotating detonation combustion dual-mode Ramjet by 2024, with potential applications in Hypersonic reconnaissance planes or precision strike platforms.* 24:34 💥 *The U.S. publicly commits to non-nuclear Hypersonic weapons, focusing on conventional systems for immediate use, raising questions about the cost-effectiveness of $100 million missiles.* 25:00 🔄 *Reusable Hypersonic aircraft capable of delivering conventional munitions, collecting intelligence, and returning for another mission could shift the cost-benefit ratio and make Hypersonic speeds part of day-to-day operations.* 25:27 🌐 *The exact timeline for the deployment of such technology is uncertain, but breakthroughs like GE's rotating detonation combustion engine suggest that the day of practical, reusable Hypersonic aircraft is inevitable and closer than anticipated.* Made with HARPA AI
Shoes are most important. It is what people judger you on first, so I am told. Maybe a nice neck tatoo that says "Ram This" would help.@@philtorrez4198
Greetings Alex, I appreciate your YT channel and all of the Info and updates on various military technologies - just an FYI as a former employee of Leidos (Ret 2 yrs ago) - we always pronounced it as "Ly-dos". It's name is derived from ka-leidos-cope.
Excellent coverage of RDE's. If there's a need to go even faster, or to space, check out the work of Stoke Space and their use of RDE's to make reusable spacecraft. No need to add a 5th stage to the multi-stage engine, just need an extra tank to cary some lox.
Sounds quite scary but, can't have another hyper sonic gap. Just squeeze it till it pops is what it sounds like. Fine job Alex. Still hoping for a balloon from the United States Air Force for you on Christmas day. Thank you for keeping us updated. G. Hames
The thing is, there’s no more of a hypersonic gap than there was a missile gap in 1960. Ruzzia and China can’t compete in technology, so they just pretend to have lots of scary weapons. Then, we develop lots of weapons that are far superior to what they falsely claimed that their fake weapons could do. They never seem to realize that all their false bravado works against them.
Thank you for liking my comments. I like your podcast more than you know! Professional and informative. Merry Christmas Alex. Santa is coming, saw the NORAD track on your channel. Keep it up. Jane's probably wants you. Greg Hames
An engine such as this has very limited application. The reason is the hypersonic flight envelope is very restricted. The faster you go, the more ballistic your flight path has to get. You have to go very high to avoid the extreme air-frame heating and when you do that, your stall speed approaches your cruise speed. The U2 and the SR-71 both had this issue. The A-12 took 150 miles and about 4 minutes to make a 180 degree turn. For Vietnam and Laos, the A12 and SR-71 could take off from Kadena, fly over Vietnam and Laos, descend and turn over Thailand, Climb back to 79,000, cross back over Laos and Vietnam and return to Kadena. While we could do this in the middle east, such an airplane would not really be able to safely overfly China or Russia, and these are really the only places where you would need hypersonic flight. Otherwise, the primary use would likely be more along the lines of an "Interceptor'" but even here, if you were closing on stealthy jet traveling at Mach 1 towards you at 40,000 feet (closing speed of 70 miles a minute) by the time you detected them you would have only seconds to get a radar lock and if they were not more or less directly in front of you, it is doubtful that a missile launched at such an altitude and speed could even turn in time to make the intercept. (At Mach 6.5, the X-15 needed a special ablative coating. and even with this, the aircraft suffered damage during these high mach flights. Cooling an aircraft flying at this speed for more than a few minutes would be a serious problem.) Airliners would be a better application because they don't have to turn mid flight. One could take off from London and NY in a more or less ballistic flight path but the problem here would be range. Even if this engine was 50% more efficient than the J-58, the range would likely still be less that 4000nm, and here the problem is the 45 minutes of reserve fuel that is required for commercial airliners.
the other side of the interceptor question is that a missile uses most of its fuel just getting up to speed. Combined with hit-to-kill this would allow very miniaturized weapons or weapons with enormous range. And at high altitude then any missile is also benefitting from conversion of potential energy to help maintain its kinetic energy. How big of a hit-to-kill glide bomb would you need to top-attack kill a tank? And how many of those could you carry?
@@j.f.fisher5318 The biggest issue with using them as a weapon is simply the cost. For a one time use, a simple and inexpensive solid fuel motor is a far better choice. Also, as we have learned from the war in Ukraine, Tanks are extremely susceptible to attack by MANPADS. In fact, the Marines could see this vulnerability and with the enormous logistics required to keep a tank battalion on the move, they decided that it was better to have drones than tanks, and when they made this decision about 5 years ago, the vast majority of people thought the Marines were crazy. I was in the very small minority that actually was a Marine and was all to familiar with the limitations of tanks. In fact, during Desert Storm, helicopters, Bradly's, A-10s combined killed far more tanks than the Abrams did.
@@hazard3020 As far as I know, two U2s were shot down. Powers in 1960 while overflying the USSR, and Ronald Anderson, shot down on a flight over Cuba in 62. There were no SR-71s shot down, but I think 12 lost in accidents. There is limited application for hypersonic recon aircraft because Drones are fine for tier 3 nations like Iraq or Syria and the National Reconnaissance Office has 49 active spy satellites, and these have better resolution than can be achieved in aircraft at high altitudes. while there may be some small demand for a hypersonic airliner, it is doubtful that one could be profitable. There may be a market for small, private hypersonic business jets though.
@@shenmisheshou7002 Many thanks for your kind reply. Yes that's what i remembered. I agree with you that Satellites provide far better long term solutions.
This was an excellent video both in information density and respect for the viewers time. AND you're unwell. Appreciate your efforts. Merry Christmas Alex.
One other problem is the turbines would be destroyed by the shockwave from detonation combustion. Therefore, you need to use Expansion-Cycle turbomachinery using the 'cracking' into etheline and ethane, and expansion of the fuel vapor as a working fluid driving the turbines before the gas is injected into the dual-mode rotating-detonation combustor. And this could also incorporate a rocket mode..
@@imperialguardsman135, care to explain what that is? You need something to drive the fuel pump and or compressors before you get to ram/scramjet speeds.
The idea is similar to the REX-series engines created by Garrett AirResearch/Pratt&Whitney for Project Suntan (originally planned successor for U-2) hydrogen powered aircraft, and led to the development of the RL-10 Cryogenic Rocket Engine.
@@imperialguardsman135: I see you're not familiar with the "Keep It Simple Stupid" principle, the engine will be running constantly in detonation mode since that is the nature of the combustor
Some estimates put the theoretical upper limit of scramjets at around mach 24, which happens to be pretty close to orbital velocity. I don't know enough to say if that will actually be possible, but it's definitely worth keeping an eye on
@@georgesikimeti2184 You are right, and it would make rocket engineering significantly more complicated than it is today. But the rocket equation is exponential so any increase in efficiency is a big deal. I'm just wondering if it will be feasible several decades from now
Alex, you are absolutely amazing. You just gave a lecture on sub and supersonic combustion engines, and it was entertaining AF!!!! I hope to meet you in person one day so we can grab a beer and talk about aerospace tech:D
Absolutely incredible presentation. I learned a huge amount about what is being developed in aircraft engines today. I see why you are such a valued channel. thanks so much for all your work and your expertise of presenting that information.
Over my years as an inspector at P&WA. My highlights are having inspected random parts for the J58 back in the late 70's. The F119 prototype then into production and the last F119. The F135 prototype then into production. Sad part is P&W isn't working on stuff like this. They made the J58 back in the early 60's and haven't made anything that fast in 60+ years.
This cites weight as the big hurdle to overcome. But just as important is heat management. The SR-71 struggled with heat in the Mach 3 regime, and those engines were widely spaced. The heat management of a RDE is orders of magnitude harder than anything humans have dealt with before. Throw in the heat of all these various engines all in one system, and your cooling system is going to as big and heavy as the entire engine.
Wow, fantastic technology, concise explanations. And articulated clearly enough that I can watch them at 2x. Thank you! Really good work, both in preproduction and production. Keep it up!
I’ve never understood the Sandbox News moniker when all the shows are given the name AirPower (unless someday in the far distant future there’s a scope to introduce other shows or media), regardless Alex makes some of the best content out there!!
I love your conclusion. So true, if you have hypersonic tech and are actually using it in nuclear missiles. Then convert it to other uses. I would love to see a small private high speed airline with small passenger loads flying from smaller airports.
It seems that they might be able use these new engines in legacy platforms as well someday. I wonder how fast you can drive an F-15EX before it melts and bends? Maybe Mach 3.5?
Doesn’t make sense to put it into F15. I don’t think F15 airframe is designed to withstand Mach 3.5+ let alone the materials used in it. Also you have to make so many modifications to install inside the F15, that at some point it stops being an F15
The increased efficiency and range would be a welcome improvement but it's doubtful these existing airframes could handle hypersonic speeds and surface temperatures.
@@TymaDem True, I don't think they would push too much extra speed, but what it could do is make the F15 supercruise-like capable, which also extends its range dramatically. This would have huge ramifications in theaters like the pacific.
Alex, we need to talk in the new year. I am a weapons systems expert, mission planner & evaluator, foreign military watcher & Soviet / Russia military & WW2 historian. I'm not looking for a job or anything like that, I just love this stuff & I would like to help you out even if it's just like an Op Ed. I also am realistic, so it honestly is ok if you are not interested at all. Hope your holiday is a safe, happy & overwhelming joyous for yourself & your family. 😇
U.S.: Develops Waverider experimental hypersonic scramjet missile. Russia: Pretends to have hypersonic missiles. U.S.: “Hey Ivan, remember when you pretended that the Mig-25 was so good, and I made the best fighter ever just in case you weren’t lying, but your plane turned out to be terrible? Well, I did it again, but with missiles.” Russia: “Fuckski.”
The U.S. should be able to say the same above for China. China's mostly stolen reversed engineered inferior technology and tactics will be crushed by the superior tech and tactics of U.S. and its Allies!
Americans are only stealing things and then they develop it further and then claim that they invented it... They don't invent things. For example, the rocket engine was invented by a german. And the pulse jet was also invented by some european guy et cetera.
Thanks for the ground news tip I’ll actually use this. May quite actually be the first RUclips suggestion/sponsorship that I’ve ever followed up on. Thanks for shilling the right way;) I mean that as a compliment
Air management was intensely detailed and time consuming during the maintenance of the SR-71's Turbo/Ramjets. Getting the seals set within tolerances was critical. Dozens of measurements had to be mapped out in order for the by-pass doors to match the nacelles so the system would work smoothly during transition schedules. The Digital Automatic Flight and Inlet Control System (DAFICS) made it more reliable as well as refining the maintenance procedures. The SR-71's were getting faster up to the day 972 broke 4 world records on its last flight to the Smithsonian Air & Space museum.
Huh... I never would've thought you even COULD combine rotating donation, with air breathing engines! Of course, I've only seen them talked about as a rocket engine, which fuel and oxidizer are fed at their own rates, unrelated to the outside airspeed! _edit:_ 🤔 _Hmm... Using it as an _*_intermediary_*_ propulsion between turbo-fan/jet and SCRAM, might work and is quite smart!!_ 👏😮 Yay Strep Throat! 😢 But on that note... I hope you and yours have a happy and safe holidays! ♥️
It's really interesting to me to see all this detail, as a friend and I were discussing all this back in the 90s when Area 51 was first being publicly discussed and what they were developing out there. It was all theory and written text at the time but we understood the idea of a hybrid engine that reconfigured or "morphed" from a conventional turbofan to a scramjet and ultimately to ramjet, allowing for a craft like the mythical "Aurora" that all the UFO buffs talked about. Thanks for the vid.
Mr "Sandboxx", as an engineer, and VERY interested, in anything "rotating or moving", I am very impressed, as always, concerning Your news. This, is very big news, I hope, US gives it a chance. Keep those news coming, I will follow. Great work. from a Finn in Diaspora
Happy new year! Good on GE, Northrop, Leidos, and the rest of the DARPA-fund companies. I think these improvements in engine tech will be great for the future of air travel. However, for military applications (other than ISR) maybe my calculations are off.... Just doing some math here, Mach 10 at sea level with ISA conditions is around 2 miles per second. Given the "fast" reaction time of military test pilots tested at under 230ms that means a travel distance of half a mile. To put that into perspective, in a passenger vehicle traveling at 60MPH you have a full 30 seconds to get that half a mile. You can easily slow to 10MPH, make a turn, and never leave the roadway. Now imagine going 100 times that quickly, without frictive brakes, and without the ability to "see ahead" very far of where you'll be by the time you can look down at the screen and back up. (I know, HUDs are important to, as are the Joint Whatever Helmet thingies... but when you only have 230ms to react, it's all distraction.) Imagine if in the time it took you to barely react you were already beyond that area. Then there's the turn-radius factor. Finally there's limitation on radar and guidance equipment range. You'll "overdrive your headlights" on a speed of that magnitude. I can see ISR missions like the SR-71 (Mach 3+) and the upcoming ("rescoped" you said) SR-72... but I don't see active pilotage, or air to air missions. It's the OPPOSITE OF STEALTH if you can fly faster than your opponent's armament, and range of engagement is irrelevant when you can be out of there quicker than your opponent can target you. Not discussed: 1. The rotational weight of the internal engine parts (compressor vanes, stators, etc.) that must be minimized so it doesn't tear itself to bits. 2. The impact (no pun intended) of the rotational explosives and weakening materials that are not quite there as to supersonic rotation. (Remember that whole C=2xPixR thing.... the outside of the blade is spinning at incredible speeds, but the inside of the blade is not. That produces torsional stresses. 3. Aircraft skin temperature, expansion, contraction, and fatigue. The Concorde expanded during flight. So does the SR-71. None of them went to Mach 4... and now we're talking Mach 5-10. Like I said, I think this is great tech, and may be --at some point-- usable... but until we replace pilots with robots or limit the missions to surveillance... this isn't likely to be as big a breakthrough in terms of usability. Still, we're an ingenious lot, and when there are billions of dollars involved, someone will find a use for it. As always, Alex, thank you for your insight!! Sorry your voice is a little raspier... that crud is going around.
I was struggling to find something to listen to while in the store. 3 minutes ago. Perfect timing!! Edit: damn alright. This has come sooner than I expected. Excited to see how this shows up
There are a lot of dual scramjet engine prototypes that are deep underground in every american base. The concept was studied way back in the 60's, 70's and 80's, with the concepts shown in classified black prohect hypersonic prototype/pre production lift lifting body aero/space craft.
The incredible tech it takes to get a continuous detonation engine to run, not even talking about the original idea, is out of this world. It's truly amazing.
How are the pilots going to cope with hypersonic manoeuvres or are they expected to drop into supersonic or subsonic speeds to execute any manoeuvre? Would be nice to see a video about how the pilots are expected to perform in these future airplanes.
Great video but would have been nice to see something included about the British Reaction Engines Sabre. The US military are investing quite a bit with them now. Their pre cooler technology has many applications.
Thank you sir! Wonderful report. You must work on these videos day & night with the data collection, the script writing, filming, editing & production. I'm glad you do it though!
It amazes me that this kind of strategically important tech is being discussed publicly like this. Especially as US relations with strategic adversaries continue to deteriorate daily.
I don't see why this wasn't done DECADES AGO! When i was a kid, (early-mid 1960s) i ran 2 engines on my go-cart. On the drag strip! An doing 100+, on the 1/8 mile. Thinking some of these "HIGHLY EDUCATED" people need to talk with some that turn wrenches!
I certainly hope one day soon, that sort of engine will be in commercial plane. Breakfast in Beijing, lunch in Sydney and dinner in Paris, sounds like a great idea.
@@everypitchcounts4875 Space planes here we come! Are you ready for payload orbits to Jupiter to modify exotic materials for magnetic negative technologies? Don't get to close to Jupiter it will kill a human body.
You guys do realize that forms of this engine has been around for about 20 years and has been seen flying in the air as secret aircraft. The rotating combustion engine is so efficient they found they have to start and stop it and not run it continuously. That's why the contrail it leaves has puffs from coasting and restart. Strangely enough I have run across quite a few of these concepts working with two stroke engines building expansion chavmbers for the exhausts.
Greatly enjoyed this presentation, my friend. Been looking forward to this for some time. Pray that you and your family enjoyed a safe, blessed and merry Christmas, followed by a prosperous new year. 👍🏻🇺🇸🦅🇺🇸👍🏻
I'd like to see a follow-up to this video with a video on the materials science of aircraft. An engine/engines that can push aircraft to Mach 10 is all nice and good but as I recall the X15 could only do approximately Mach 5 without an ablative coating.
Lockheed hypersonic engineer here - you are correct. Vehicle speeds approaching and beyond Mach 5 primarily leverage ablatives for thermal management (generally carbon phenolics or carbon-carbon composites). Primary windward areas/ leading edges could be replaced for reusability but currently would be very expensive to maintain - to your point. There are some promising solutions being developed currently but scaling/ cost efficiency will be a repeat issue. If you’re interested, the RUclips channel “Event Horizon” recently hosted us to talk about the challenges of hypersonic flight, including material limitations - episode is called “going hypersonic” if you’re interested.
The rotating detonation was observed during ramjet development in the 50's and 60's, but always as an uncontroled event prior to the engine exploding. It is a credit to the developers that they duly recorded the performace improvement that proceeded the rapid, unplanned dissembly. Like Asmov said, the great inventions are not hearlded by someone yelling "Eureka", but by somone saying "that was odd".
About 15 years ago Techland Research built a rotating pulse detonation engine that was successful in testing. It was mechanically rotating instead of creating a rotating wave. They were in talks to sell the technology but it fell through. I have worked on some of these projects over the years and they have been moving away from bypass configurations to single duct style.
Alex; Your very good at what you do! I really, really enjoyed The Son of Blackbird video & this too was superbly done! You are an asset to aviation & greatly appreciated!
Really interesting. The question it raises though is just what used to fly along the coast and then inland that saw the DoD upgrade seismometers in Southern California so that they weren't disturbed by sonic booms. The estimated speeds for that craft were very high Mach numbers.
Aviation tech is insane. Thinking ahead 100 years, we will either be flying unrecognizable aircraft, or pioneering back to Sopwith Camel-level of planes.
Go to ground.news/Sandboxx to access data driven information. Subscribe through my link for less than $1/month or get 40% off unlimited access this month only.
Can this engine be used to get to space or low orbit?
😊
Great news about GEs rotating ignition, I still don't know how it works
We know that its already in use don't we.....Thanks Alex🇺🇸 for all of your excellent research that goes into your fine videos.........
Merry Christmas to you and yours...
From the Movie Stealth: "The Talon is capable of hypersonic flight with two combined Pulse Detonation/Scramjet engines." Science fiction has become reality.
This makes me really appreciate how truely advanced, for its time, the SR-71s J58 engine was.
💯 %
They were designing jet engines that utilize the nose cone shock waves to work properly in a fuselage so advanced it was inadvertently stealthy... in the fifties while writing and designing on pen and paper with a straight edge for reference.
Absolutely amazing.
I appreciate the same thing.
Slide rules...
It was advanced, but just for some perspective, a single F22 F119 engine produces 10,000 pounds more thrust, or about 40% more while weighing 2000 pounds less or about 35% lighter.
@@amazin7006 The complexity of the J58 came from how big the speed-range it had to deal with was
The biggest hurdle is going to be finding an acronym for the fancy dual mode rotating detonation turbo fanjet thingy.
Yes lol😂
Dmrdj
FanScramDetJet. There, done:-)
@@vanguard9067 It doesn't count because you didn't spend $20 million tax dollars to create it. Also it makes too much sense.
Where is the rotating moniker?
Does anyone else think it's funny how turbo fans are mechanically complex but the easiest to make them work whereas scramjets are just a tube but are incredibly hard to make them work?
Toob
This is a great illustration of the difference between simple and easy. It also shows that just because something is simple doesn't mean it's easy.
Then think about how complex a piston engine is and how much gearing and machining is required to create “power”.
More like, mechanics makes it possible to control the air. Scramjet is too hot for mechanics. Well thats my view.
@@rokadamlje5365 I think your correct metallurgy is limited by temperature and pressure.
To quote Perun: “When most have to chose an option, the US (and GE) just says yes.”
As a 74 year old geezer, much of this video zooms over my dome at hypersonic speed! Still an interesting presentation! Thanks.😵💫
Hey, you were once a strapping young man at some point. And we'll all get to where you are at some point. It's all a matter of time!
I'm 65 but have been in the aviation business for over 2/3 of that time so I got a bit more of it...maybe!
This was an excellently created video, and I appreciate how you walked through all the technologies like we never heard them before to really grasp how big of a deal this is
It really is a good video. I had to rewind a couple of parts a couple of times to ensure I understood it. I have a grasp on it now. Thank you for the great descriptions and graphics to illustrate a complex subject in a more simple way.
Outstanding presentation as usual. Hooah!!!
And Kitty Hawk was only 120 years ago.. amazing technological advancements since then. I really appreciate the clear and concise explanations you give in "layman understandable" language... Bravo Zulu
I'm sure the chineese appreciate the clear and concise explanation to.
If this info was released to OUR public, there is no way China hadn't been aware of the tech already. It's not a secret.. it's not so much how something works as much as can it be built.
YESSSSS! I’ve been waiting excitedly to hear more about RDEs for so long! They always seemed like they had such huge potential
Just FYI, the great thing about a rotation detonation engine is that they work both in space and air. In space, for the RDE to work, you just need to carry liquid oxygen with you. You can throw LOX into an RDE and continue to fly with no problem.
This sounds like the aviation equivalent of cars going from carburetters to direct fuel injection 👍
I still use carburetor for the Cessna 172 I fly.
Yeah, people in developing nations still plow fields using horses too we ain't saying it don't work just saying there is distinct technological leaps and this is one of em'
Maybe add transition from low-compression flathead to high-compression dual OHC too.
@@n111254789a leap for sure.
Honestly it might be even bigger. Like if fuel injection, turbochargers, and hybrid powertrains all dropped at the same time. If they can get it working reliably enough for military use, it might be able to power the atmospheric leg of an SSTO spaceplane launch. That's probably a few generations away though.
NASA just fired a RDRE for over 4 minutes. That's more than enough for a rocket stage.
I wonder at what altitude you need to BYOO (Bring Your Own Oxidizer)
@@vanguard9067depends on how fast you're going.
For rockets RDRE makes 100% sense as they need the TIME quotient of thrust to be longer as the time component is squared while the acceleration component is linear and ALSO allows them to have a larger throttle envelope which currently is severely lacking in rocket motors. This is not true in current turbine designs. Maybe it is for scramjets(I do not know, not something I have studied, but varying the opening size would seem to be a fairly effective throttle) Rockets can squeeze the oxygen, but its combustion chamber is fixed in volume whereas in a turboscramjet it is not as limiting factor is fuel in a small volumetric area already.
@@Hebdomad7 there must be some maximum altitude where there is is insufficient oxygen to support sufficient combustion to maintain thrust. Thinking specifically about the comment about using the engine as a rocket stage.
@@vanguard9067 the RDRE that nasa tested was a rocket engine with oxidizer. so they work outside the atmosphere. ngl i never heared of rdre in the sense of a normal air breathing jet engine
Some of your best content yet bro. Love the Deep dive on each part of the motor
Thanks for covering this, Alex. Love your videos!
This was so well explained that I’m sharing it with my USAFA FB group. Hopefully it gets in front of the cadets so they understand the tech they will be flying soon. 👏
I watched the test-firing of the rotation, detonation engine the other day. It looks a lot better than when I first heard of the engine. From seconds to now minutes.
Been a while since ive watched Sandboxx. Im always left impressed at the delivery and ability to make an interested layman such as myself grasp whats being covered. Well done....as always.
This is a legitimate great press + engineering synopses. -Aerospace Engineer
Interesting subject and Excellent video. I saw the SR-71 take off and land many many times. It was always very impressive. The commentary was very smart but, I've never quite heard 'ad infinitum' (22:16) pronounced that way. Peace.
Thank you Sir, this was by far the most exciting break through to ponder the US's continued dominance of the sky.
now think of it on a missile welcome to the Sentinel program the ICBM of the future
Spoken like a true Alpha country.
Now if we could just produce some dominance over the southern border before our country turns to sht, all this would be worth while.
China has more advanced than this apparently. Also look at the British Reaction Engines Sabre. Getting a lot of interest from the US. Be nice if we had got a mention.
@@codprawn how so?
Hopefully this technology will be applied to the next generation US air superiority aircraft, this would put it in a class of its own.
And hopefully they will not let themselves get hacked or spied on again by the Chinese
@@sonneh86 they better use device independent quantum key distribution
I think the major engineering problem is building an aircraft that can handle high Mach speeds. What materials can handle the heat. All the liquids on the SR-71 were preheated and specially formulated. Especially the fuel, which was also used for cooling. Weapons may be feasible, something that is 1 time use, but something that's going to last long enough to be financially feasible is going to be rough
Well, Sr-71 use tech from 1960s. A lot has advanced since then. So it shouldn't really be a problem.
I think this will be more useful, and subsequently pushed harder, for unmanned craft
“financially feasible”
@@enginerdy nothing is "financially feasible " then you're 32 trillion in the hole.
I vote for ceramic leading edges.
The lineage between pulsejets and PDEs - as drawn in this video - is a dangerous illusion. They have different development histories, different working principles, different physics. Scramjets also don't generate usable thrust at Mach 3 - more like Mach 4 - thanks to the needs of the compression geometry. The challenge of RDE is going to be clean detonation fronts in airflow regimes that have every kind of turbulence imaginable - it's worth noting the longest RDE runs have been on LOX.
🎯 Key Takeaways for quick navigation:
03:09 🚀 *GE Aerospace has achieved a Hypersonic dual-mode Ramjet test with rotating detonation combustion, a breakthrough in propulsion technology.*
05:41 ⚙️ *GE aims to integrate four different engine technologies (turbofans, ramjets, scramjets, rotating detonation combustion) into a single combined system for Hypersonic flight.*
07:43 🛫 *GE's dual-mode Ramjet with rotating detonation combustion may overcome the velocity gap challenge, allowing efficient operation at speeds below Mach 3 and above Mach 2.*
12:20 💡 *Rotating detonation combustion offers greater efficiency in ignition, potentially leading to smaller, more fuel-efficient engines for Hypersonic aircraft.*
23:07 📆 *GE expects to demonstrate the rotating detonation combustion dual-mode Ramjet by 2024, with potential applications in Hypersonic reconnaissance planes or precision strike platforms.*
24:34 💥 *The U.S. publicly commits to non-nuclear Hypersonic weapons, focusing on conventional systems for immediate use, raising questions about the cost-effectiveness of $100 million missiles.*
25:00 🔄 *Reusable Hypersonic aircraft capable of delivering conventional munitions, collecting intelligence, and returning for another mission could shift the cost-benefit ratio and make Hypersonic speeds part of day-to-day operations.*
25:27 🌐 *The exact timeline for the deployment of such technology is uncertain, but breakthroughs like GE's rotating detonation combustion engine suggest that the day of practical, reusable Hypersonic aircraft is inevitable and closer than anticipated.*
Made with HARPA AI
Makes me glad I have an interview with GE next week
Good luck with the interview!
Shine your shoes.
Hope you have a nice tie!
Shoes are most important. It is what people judger you on first, so I am told. Maybe a nice neck tatoo that says "Ram This" would help.@@philtorrez4198
Washing machine department 😜
You are great at explaining very complicated subjects in an understandable manner. Merry Christmas
Greetings Alex, I appreciate your YT channel and all of the Info and updates on various military technologies - just an FYI as a former employee of Leidos (Ret 2 yrs ago) - we always pronounced it as "Ly-dos". It's name is derived from ka-leidos-cope.
Is it pronounced LIE-DOSE or LAY-DOSE???
Another great and informative video Alex, thank you for that. Hope you feel better soon and have a great holiday.
Wow I'm an idiot and I was able to follow along and even learn a lot! Thanks Alex and thanks to Dr Combes !
Funny, I'm an idiot too and I wasn't able to follow it.
Loved todays intro track and a great show as always.
Excellent coverage of RDE's. If there's a need to go even faster, or to space, check out the work of Stoke Space and their use of RDE's to make reusable spacecraft. No need to add a 5th stage to the multi-stage engine, just need an extra tank to cary some lox.
….no air no lox!!,
It took a while, but GE collaborating with Honda on the Honda Jet, has finally brought us a VTEC jet engine 🤣
Looked more like the passport20 to me.
Alex, your reporting and videos are simply “next level”! Please keep it up and great work!!
Sounds quite scary but, can't have another hyper sonic gap. Just squeeze it till it pops is what it sounds like. Fine job Alex. Still hoping for a balloon from the United States Air Force for you on Christmas day. Thank you for keeping us updated. G. Hames
The thing is, there’s no more of a hypersonic gap than there was a missile gap in 1960. Ruzzia and China can’t compete in technology, so they just pretend to have lots of scary weapons. Then, we develop lots of weapons that are far superior to what they falsely claimed that their fake weapons could do. They never seem to realize that all their false bravado works against them.
Thank you for liking my comments. I like your podcast more than you know! Professional and informative. Merry Christmas Alex. Santa is coming, saw the NORAD track on your channel. Keep it up. Jane's probably wants you. Greg Hames
Thank you for all your hard work to simplify all this into something I could understand, mostly!
An engine such as this has very limited application. The reason is the hypersonic flight envelope is very restricted. The faster you go, the more ballistic your flight path has to get. You have to go very high to avoid the extreme air-frame heating and when you do that, your stall speed approaches your cruise speed. The U2 and the SR-71 both had this issue. The A-12 took 150 miles and about 4 minutes to make a 180 degree turn. For Vietnam and Laos, the A12 and SR-71 could take off from Kadena, fly over Vietnam and Laos, descend and turn over Thailand, Climb back to 79,000, cross back over Laos and Vietnam and return to Kadena. While we could do this in the middle east, such an airplane would not really be able to safely overfly China or Russia, and these are really the only places where you would need hypersonic flight. Otherwise, the primary use would likely be more along the lines of an "Interceptor'" but even here, if you were closing on stealthy jet traveling at Mach 1 towards you at 40,000 feet (closing speed of 70 miles a minute) by the time you detected them you would have only seconds to get a radar lock and if they were not more or less directly in front of you, it is doubtful that a missile launched at such an altitude and speed could even turn in time to make the intercept. (At Mach 6.5, the X-15 needed a special ablative coating. and even with this, the aircraft suffered damage during these high mach flights. Cooling an aircraft flying at this speed for more than a few minutes would be a serious problem.) Airliners would be a better application because they don't have to turn mid flight. One could take off from London and NY in a more or less ballistic flight path but the problem here would be range. Even if this engine was 50% more efficient than the J-58, the range would likely still be less that 4000nm, and here the problem is the 45 minutes of reserve fuel that is required for commercial airliners.
the other side of the interceptor question is that a missile uses most of its fuel just getting up to speed. Combined with hit-to-kill this would allow very miniaturized weapons or weapons with enormous range. And at high altitude then any missile is also benefitting from conversion of potential energy to help maintain its kinetic energy. How big of a hit-to-kill glide bomb would you need to top-attack kill a tank? And how many of those could you carry?
@@j.f.fisher5318 The biggest issue with using them as a weapon is simply the cost. For a one time use, a simple and inexpensive solid fuel motor is a far better choice. Also, as we have learned from the war in Ukraine, Tanks are extremely susceptible to attack by MANPADS. In fact, the Marines could see this vulnerability and with the enormous logistics required to keep a tank battalion on the move, they decided that it was better to have drones than tanks, and when they made this decision about 5 years ago, the vast majority of people thought the Marines were crazy. I was in the very small minority that actually was a Marine and was all to familiar with the limitations of tanks. In fact, during Desert Storm, helicopters, Bradly's, A-10s combined killed far more tanks than the Abrams did.
A while ago now but USSR detected Gary Powers travelling quickly at 75000+ ft.... and 4-5 were lost at a similar altitude near China.
@@hazard3020 As far as I know, two U2s were shot down. Powers in 1960 while overflying the USSR, and Ronald Anderson, shot down on a flight over Cuba in 62. There were no SR-71s shot down, but I think 12 lost in accidents. There is limited application for hypersonic recon aircraft because Drones are fine for tier 3 nations like Iraq or Syria and the National Reconnaissance Office has 49 active spy satellites, and these have better resolution than can be achieved in aircraft at high altitudes. while there may be some small demand for a hypersonic airliner, it is doubtful that one could be profitable. There may be a market for small, private hypersonic business jets though.
@@shenmisheshou7002 Many thanks for your kind reply. Yes that's what i remembered. I agree with you that Satellites provide far better long term solutions.
This was an excellent video both in information density and respect for the viewers time. AND you're unwell. Appreciate your efforts. Merry Christmas Alex.
One other problem is the turbines would be destroyed by the shockwave from detonation combustion. Therefore, you need to use Expansion-Cycle turbomachinery using the 'cracking' into etheline and ethane, and expansion of the fuel vapor as a working fluid driving the turbines before the gas is injected into the dual-mode rotating-detonation combustor. And this could also incorporate a rocket mode..
So what you're saying is we should nuke Africa?
Or just use a turbine bypass duct lol
@@imperialguardsman135, care to explain what that is? You need something to drive the fuel pump and or compressors before you get to ram/scramjet speeds.
The idea is similar to the REX-series engines created by Garrett AirResearch/Pratt&Whitney for Project Suntan (originally planned successor for U-2) hydrogen powered aircraft, and led to the development of the RL-10 Cryogenic Rocket Engine.
@@imperialguardsman135: I see you're not familiar with the "Keep It Simple Stupid" principle, the engine will be running constantly in detonation mode since that is the nature of the combustor
Some estimates put the theoretical upper limit of scramjets at around mach 24, which happens to be pretty close to orbital velocity. I don't know enough to say if that will actually be possible, but it's definitely worth keeping an eye on
Would any materials survived at this speed considering the heat it generates,it didn’t mention here but certainly a vital part in the puzzle.
@@georgesikimeti2184 You are right, and it would make rocket engineering significantly more complicated than it is today. But the rocket equation is exponential so any increase in efficiency is a big deal. I'm just wondering if it will be feasible several decades from now
Alex, you are absolutely amazing. You just gave a lecture on sub and supersonic combustion engines, and it was entertaining AF!!!! I hope to meet you in person one day so we can grab a beer and talk about aerospace tech:D
Absolutely incredible presentation. I learned a huge amount about what is being developed in aircraft engines today. I see why you are such a valued channel. thanks so much for all your work and your expertise of presenting that information.
Over my years as an inspector at P&WA. My highlights are having inspected random parts for the J58 back in the late 70's. The F119 prototype then into production and the last F119. The F135 prototype then into production.
Sad part is P&W isn't working on stuff like this. They made the J58 back in the early 60's and haven't made anything that fast in 60+ years.
This cites weight as the big hurdle to overcome. But just as important is heat management. The SR-71 struggled with heat in the Mach 3 regime, and those engines were widely spaced. The heat management of a RDE is orders of magnitude harder than anything humans have dealt with before. Throw in the heat of all these various engines all in one system, and your cooling system is going to as big and heavy as the entire engine.
The fuel routing will be part of the heat management, doesn't seem like there's much of another way.
Wow! Learned more watching this one video, than years of knowledge assimilation through casual video watching!
It is awesome that we now have great 3D illustrations and videos to help visualize these engines.
Wow, fantastic technology, concise explanations.
And articulated clearly enough that I can watch them at 2x. Thank you!
Really good work, both in preproduction and production. Keep it up!
thats prety impressive RDEs i think can deliver like 25% increased efficiency over traditional combustion
I really enjoyed this one Alex. Nice work.
Merry Christmas to you and your family and I hope you all start feeling better real soon.
I’ve never understood the Sandbox News moniker when all the shows are given the name AirPower (unless someday in the far distant future there’s a scope to introduce other shows or media), regardless Alex makes some of the best content out there!!
the sandbox refers to the deserts weve been fighting in since 9/11. you still need airpower in the sandbox
I love your conclusion. So true, if you have hypersonic tech and are actually using it in nuclear missiles. Then convert it to other uses. I would love to see a small private high speed airline with small passenger loads flying from smaller airports.
It seems that they might be able use these new engines in legacy platforms as well someday. I wonder how fast you can drive an F-15EX before it melts and bends? Maybe Mach 3.5?
Maybe a Mach 3.2 super hornet with 50 percent more range would be huge for USN.
Doesn’t make sense to put it into F15. I don’t think F15 airframe is designed to withstand Mach 3.5+ let alone the materials used in it. Also you have to make so many modifications to install inside the F15, that at some point it stops being an F15
I would not want to be the test pilot:-)
The increased efficiency and range would be a welcome improvement but it's doubtful these existing airframes could handle hypersonic speeds and surface temperatures.
@@TymaDem True, I don't think they would push too much extra speed, but what it could do is make the F15 supercruise-like capable, which also extends its range dramatically. This would have huge ramifications in theaters like the pacific.
Alex, we need to talk in the new year. I am a weapons systems expert, mission planner & evaluator, foreign military watcher & Soviet / Russia military & WW2 historian. I'm not looking for a job or anything like that, I just love this stuff & I would like to help you out even if it's just like an Op Ed. I also am realistic, so it honestly is ok if you are not interested at all. Hope your holiday is a safe, happy & overwhelming joyous for yourself & your family. 😇
U.S.: Develops Waverider experimental hypersonic scramjet missile.
Russia: Pretends to have hypersonic missiles.
U.S.: “Hey Ivan, remember when you pretended that the Mig-25 was so good, and I made the best fighter ever just in case you weren’t lying, but your plane turned out to be terrible? Well, I did it again, but with missiles.”
Russia: “Fuckski.”
The U.S. should be able to say the same above for China. China's mostly stolen reversed engineered inferior technology and tactics will be crushed by the superior tech and tactics of U.S. and its Allies!
Americans are only stealing things and then they develop it further and then claim that they invented it... They don't invent things. For example, the rocket engine was invented by a german. And the pulse jet was also invented by some european guy et cetera.
Thanks for the ground news tip I’ll actually use this. May quite actually be the first RUclips suggestion/sponsorship that I’ve ever followed up on. Thanks for shilling the right way;) I mean that as a compliment
Sweet jeez. Imagine flying Mach 5+ with a scramjet/detonation engine and just OBLITERATING some poor bird.
I believe there are very few birds at 60 000 feet…
I mean the fact that some birds could fly at 100k+ feet altitude is scarier that potential midair
This has been an interest of mine and I appreciate you putting together a pretty good episode
FOURTEENTH!!4
PUTIN!!!4 PRESIDENT!!!
SAY YOU SUPPORT PUTIN!
Air management was intensely detailed and time consuming during the maintenance of the SR-71's Turbo/Ramjets.
Getting the seals set within tolerances was critical. Dozens of measurements had to be mapped out in order for the by-pass doors to match the nacelles so the system would work smoothly during transition schedules. The Digital Automatic Flight and Inlet Control System (DAFICS) made it more reliable as well as refining the maintenance procedures. The SR-71's were getting faster up to the day 972 broke 4 world records on its last flight to the Smithsonian Air & Space museum.
I heard they're also working on a Twin Ion Engine Fighter and experimenting with Kyber Crystals.
Huh... I never would've thought you even COULD combine rotating donation, with air breathing engines!
Of course, I've only seen them talked about as a rocket engine, which fuel and oxidizer are fed at their own rates, unrelated to the outside airspeed!
_edit:_ 🤔 _Hmm... Using it as an _*_intermediary_*_ propulsion between turbo-fan/jet and SCRAM, might work and is quite smart!!_ 👏😮
Yay Strep Throat! 😢
But on that note... I hope you and yours have a happy and safe holidays! ♥️
Best engineering introduction in 10-15 yrs !!!! AND---my daughter works for GE...( of course---she says ...nothing ). !!
It's really interesting to me to see all this detail, as a friend and I were discussing all this back in the 90s when Area 51 was first being publicly discussed and what they were developing out there. It was all theory and written text at the time but we understood the idea of a hybrid engine that reconfigured or "morphed" from a conventional turbofan to a scramjet and ultimately to ramjet, allowing for a craft like the mythical "Aurora" that all the UFO buffs talked about.
Thanks for the vid.
Wow...clever stuff. I built a pulsejet with my 14yr old son last summer. We had a lot of fun and thankfully didn't burn down the garage!
This has been a hobby study of mine for quite a few years. This is a nice video. Thanks.
Mr "Sandboxx", as an engineer, and VERY interested, in anything "rotating or moving", I am very impressed, as always, concerning Your news.
This, is very big news, I hope, US gives it a chance.
Keep those news coming, I will follow. Great work.
from a Finn in Diaspora
Happy new year!
Good on GE, Northrop, Leidos, and the rest of the DARPA-fund companies. I think these improvements in engine tech will be great for the future of air travel. However, for military applications (other than ISR) maybe my calculations are off....
Just doing some math here, Mach 10 at sea level with ISA conditions is around 2 miles per second. Given the "fast" reaction time of military test pilots tested at under 230ms that means a travel distance of half a mile. To put that into perspective, in a passenger vehicle traveling at 60MPH you have a full 30 seconds to get that half a mile. You can easily slow to 10MPH, make a turn, and never leave the roadway. Now imagine going 100 times that quickly, without frictive brakes, and without the ability to "see ahead" very far of where you'll be by the time you can look down at the screen and back up. (I know, HUDs are important to, as are the Joint Whatever Helmet thingies... but when you only have 230ms to react, it's all distraction.)
Imagine if in the time it took you to barely react you were already beyond that area. Then there's the turn-radius factor. Finally there's limitation on radar and guidance equipment range. You'll "overdrive your headlights" on a speed of that magnitude.
I can see ISR missions like the SR-71 (Mach 3+) and the upcoming ("rescoped" you said) SR-72... but I don't see active pilotage, or air to air missions. It's the OPPOSITE OF STEALTH if you can fly faster than your opponent's armament, and range of engagement is irrelevant when you can be out of there quicker than your opponent can target you.
Not discussed:
1. The rotational weight of the internal engine parts (compressor vanes, stators, etc.) that must be minimized so it doesn't tear itself to bits.
2. The impact (no pun intended) of the rotational explosives and weakening materials that are not quite there as to supersonic rotation. (Remember that whole C=2xPixR thing.... the outside of the blade is spinning at incredible speeds, but the inside of the blade is not. That produces torsional stresses.
3. Aircraft skin temperature, expansion, contraction, and fatigue. The Concorde expanded during flight. So does the SR-71. None of them went to Mach 4... and now we're talking Mach 5-10.
Like I said, I think this is great tech, and may be --at some point-- usable... but until we replace pilots with robots or limit the missions to surveillance... this isn't likely to be as big a breakthrough in terms of usability. Still, we're an ingenious lot, and when there are billions of dollars involved, someone will find a use for it.
As always, Alex, thank you for your insight!! Sorry your voice is a little raspier... that crud is going around.
EXCELLENT FREAKING PRESENTATION....I sat there spell bound. Well done young man!
I was struggling to find something to listen to while in the store. 3 minutes ago. Perfect timing!!
Edit: damn alright. This has come sooner than I expected. Excited to see how this shows up
same, I thought they'd be _next_ next gen systems, not for the coming gen.
As a lifelong AvGeek it’s great to see Aurora finally coming to life!
I feel edumacated. Thanks for the hard work and generosity to share this with us. Hawaii
There are a lot of dual scramjet engine prototypes that are deep underground in every american base. The concept was studied way back in the 60's, 70's and 80's, with the concepts shown in classified black prohect hypersonic prototype/pre production lift lifting body aero/space craft.
The incredible tech it takes to get a continuous detonation engine to run, not even talking about the original idea, is out of this world. It's truly amazing.
How are the pilots going to cope with hypersonic manoeuvres or are they expected to drop into supersonic or subsonic speeds to execute any manoeuvre?
Would be nice to see a video about how the pilots are expected to perform in these future airplanes.
Great video but would have been nice to see something included about the British Reaction Engines Sabre. The US military are investing quite a bit with them now. Their pre cooler technology has many applications.
I am really looking forward to see an ssto someday
You covered a rather complex, little known about subject extremely well. Great vid
Offers speed & range just what is needed in the Pacific. Nice presentation Alex
Thank you sir! Wonderful report. You must work on these videos day & night with the data collection, the script writing, filming, editing & production. I'm glad you do it though!
It amazes me that this kind of strategically important tech is being discussed publicly like this. Especially as US relations with strategic adversaries continue to deteriorate daily.
They have something better in those skunk Works that they haven’t shown us. Like reverse, engineered, alien spacecraft.
Alex thanks for the update on the new GE engine. Get to feeling better 💪
The oblique detonation wave engine (ODWE) is after the rotating detonation engine. Articles suggest that Mach 17 is possible.
Great report Alex. As always. Thank you
I don't see why this wasn't done DECADES AGO!
When i was a kid, (early-mid 1960s) i ran 2 engines on my go-cart. On the drag strip! An doing 100+, on the 1/8 mile.
Thinking some of these "HIGHLY EDUCATED" people need to talk with some that turn wrenches!
I certainly hope one day soon, that sort of engine will be in commercial plane. Breakfast in Beijing, lunch in Sydney and dinner in Paris, sounds like a great idea.
AI and algorithms will speed this process up. People are already 3D printing engines. In five years you will see it in experimental craft.
Just take the stratolaunch roc Talon-A hypersonic reusable vehicle.
@@everypitchcounts4875 Space planes here we come! Are you ready for payload orbits to Jupiter to modify exotic materials for magnetic negative technologies? Don't get to close to Jupiter it will kill a human body.
Fine job, Mr. Hollings! Thanks.
You guys do realize that forms of this engine has been around for about 20 years and has been seen flying in the air as secret aircraft. The rotating combustion engine is so efficient they found they have to start and stop it and not run it continuously. That's why the contrail it leaves has puffs from coasting and restart.
Strangely enough I have run across quite a few of these concepts working with two stroke engines building expansion chavmbers for the exhausts.
Greatly enjoyed this presentation, my friend. Been looking forward to this for some time.
Pray that you and your family enjoyed a safe, blessed and merry Christmas, followed by a prosperous new year. 👍🏻🇺🇸🦅🇺🇸👍🏻
I'd like to see a follow-up to this video with a video on the materials science of aircraft. An engine/engines that can push aircraft to Mach 10 is all nice and good but as I recall the X15 could only do approximately Mach 5 without an ablative coating.
Lockheed hypersonic engineer here - you are correct. Vehicle speeds approaching and beyond Mach 5 primarily leverage ablatives for thermal management (generally carbon phenolics or carbon-carbon composites). Primary windward areas/ leading edges could be replaced for reusability but currently would be very expensive to maintain - to your point. There are some promising solutions being developed currently but scaling/ cost efficiency will be a repeat issue. If you’re interested, the RUclips channel “Event Horizon” recently hosted us to talk about the challenges of hypersonic flight, including material limitations - episode is called “going hypersonic” if you’re interested.
The rotating detonation was observed during ramjet development in the 50's and 60's, but always as an uncontroled event prior to the engine exploding. It is a credit to the developers that they duly recorded the performace improvement that proceeded the rapid, unplanned dissembly. Like Asmov said, the great inventions are not hearlded by someone yelling "Eureka", but by somone saying "that was odd".
Could you imagine showing this technology to someone from 200 years ago. Truly incredible!
Or 200 years from now.
About 15 years ago Techland Research built a rotating pulse detonation engine that was successful in testing. It was mechanically rotating instead of creating a rotating wave. They were in talks to sell the technology but it fell through. I have worked on some of these projects over the years and they have been moving away from bypass configurations to single duct style.
Alex; Your very good at what you do! I really, really enjoyed The Son of Blackbird video & this too was superbly done! You are an asset to aviation & greatly appreciated!
Bravo Alex Thank You! Get better soon!
Really interesting. The question it raises though is just what used to fly along the coast and then inland that saw the DoD upgrade seismometers in Southern California so that they weren't disturbed by sonic booms. The estimated speeds for that craft were very high Mach numbers.
I'm excited to learn about this advancement in engine technology. The future is literally here today!!!
This is great stuff. I need to watch this a couple more times but that GE engine is super interesting!
Aviation tech is insane. Thinking ahead 100 years, we will either be flying unrecognizable aircraft, or pioneering back to Sopwith Camel-level of planes.
Good job
Go Alex, go! Awesome presentation on a very interesting and world-shattering reality that is fast approaching!
This Channel never disappoints! ty
Merry Christmas Alex! Love your videos!