The European Space Agency’s Intermediate eXperimental Vehicle (IXV) is an interesting platform, ostensibly sharing some inspiration from the United States Air Force’s X-37B but with a very different purpose in mind. The IXV is set to be more of a general purpose craft, one that’s capable of testing new space technologies and running experiments that might not otherwise be feasible. It’s also set to be ESA’s first fully automated craft that’s capable of re-entry, an incredible technological feat that will inevitably find its way into other craft around the world. Today marks the completion of the IXV’s maiden flight, completing a sub-orbital journey that was, by all accounts, wildly successful.
This flight was meant to be conducted towards the end of last year but was delayed due to the novel launch profile that the IXV flight required, something which the launch system wasn’t typically used for. The mission profile remained the same however, serving as a shakedown of all the key systems as well as providing a wealth of flight data around how all the systems functioned during the flight. This included things such as the automated guidance system, avionics and the thermal shielding that coats the bottom of the craft. The total flight time was approximately 100 minutes with the craft making a parachute assisted landing in the Pacific Ocean where it was retrieved by a recovery craft (pictured above).
Whilst the IXV platform is likely to see many more launches in the future it’s actually a stepping stone between a previous craft, the Atmospheric Reentry Demonstrator (ARD), and a future space plane called the Program for Reusable In-orbit Demonstrator in Europe (PRIDE). The ultimate goal of this program is to develop a fully reusable craft that the ESA can use for its missions in space and judging by the design of the IXV it’s a safe bet that it will likely end up looking something like the Space Shuttle. The IXV will never take human passengers to orbit, it’s simply too small to accomplish that feat, however much of the technology used to create it could be easily repurposed to a man rated craft.
I think the ESA has the right approach when it comes to developing these craft, opting for smaller, purpose built craft rather than a jack-of-all trades type which, as we’ve seen in the past, often results in complexity and cost. The total cost of the IXV craft (excluding the launcher) came out to a total of $170 million which is actually cheaper than the X-37B by a small margin. It will be interesting to see if the ESA gets as much use out of their IXV though as whilst it’s a reusable craft I haven’t heard talk of any further flights being planned anytime soon.
It’s great to see multiple nations pursuing novel ways of travelling to and from space as the increasing number of options means that there’s more and more opportunities for us to do work out there in the infinite void. The IXV might not become the iconic craft that it emulates but it will hopefully be the platform that enables the ESA to extend their capabilities far beyond their current station. The next few years are going to be ones of envelope pushing for the ESA and I, for one, am excited to see what they can accomplish.
There’s no denying that the Space Shuttle was an unique design being the only spacecraft that was capable aerodynamic flight after reentry. That capability, initially born out of military requirements for one-orbit trips that required significant downrange flight, came at a high cost in both financial and complexity terms dashing any hopes it had of being the revolutionary gateway space it was intended to be. A lot of the designs and engineering were sound though and so it should come as little surprise to see elements of it popping up in other, more modern spacecraft designs. The most recent of those (to come to my attention at least) is the European Space Agency’s Intermediate eXperimental Vehicle, a curious little craft that could be Europe’s ticket to delivering much more than dry cargo to space.
Whilst this might not be an almost exact replica like the X-37B is it’s hard to deny that the IXV bears a lot of the characteristics that many of us associated with the Space Shuttle. The rounded nose, blackened bottom, white top and sleek profile are all very reminisicent of that iconic design but that’s where the similarities end. The IXV is a tiny little craft weighing not a lot more than your typical car and lacking the giant wings that allowed the Shuttle to fly so far. This doesn’t mean it isn’t capable of flight however as the entire craft is a lifting body, capable of generating lift comparable to a winged aircraft. Steering is accomplished 2 little paddles attached to the back enabling the IXV to keep its thermal protective layer facing the right direction upon reentry. For now the IXV is a completely robotic craft with little room to spare save for a few on board experiments.
Much like the X-37B the IXV is being designed as a test bed for the technologies that the ESA wants to use in upcoming craft for future missions. Primarily this relates to its lifting body profile and the little flaps it uses for attitude control, things which have a very sound theoretical basis but haven’t seen many real world applications. If all goes according to plan the IXV will be making its maiden flight in October this year, rocketing up to the same altitude as the International Space Station, nearly completing an orbit and then descending back down to earth. Whilst it’s design would make you think it’d then be landing at an air strip this model will actually end up in the Pacific ocean, using its aerodynamic capabilities to guide it to a smaller region than you could typically achieve otherwise. It also lacks any landing gear to speak of, relying instead on parachutes to cushion its final stages of descent.
Future craft based on the IXV platform won’t be your typical cargo carrying ISS ferries however as the ESA is looking to adapt the platform to be an orbital platform, much like the Shuttle was early on in its life. The downrange capability is something that a lot of space fairing nations currently lack with most relying on Russian craft or pinning their hopes on the capabilities of the up and coming private space industry. This opens up a lot of opportunities for scientists to conduct experiments that might be cost prohibitive to complete on the ISS or even ones that might be considered to be too dangerous. There doesn’t appear to be any intention to make an IXV variant that will carry humans into space however, although there’s already numerous lifting body craft in various stages of production that are aiming to have that capability.
It’s going to be interesting to see where the ESA takes the IXV platform as it definitely fills a niche that’s currently not serviced particularly well. Should they be able to transform the IXV from a prototype craft into a full production vehicle within 3 years that would be mightily impressive but I have the feeling that’s a best case scenario, something which is rare when designing new craft. Still it’s an interesting craft and I’m very excited to see what missions it will end up flying.