Also I feel that Skylon would be hard to scale up.
F9r >> Skylon: Even if both receive the necessary funding the technology of Skylon is so sensitive to failures that I have a hard time imagining Skylon succeed.EVERYthing has to work in order to get ANYthing into LEO.
On the other hand e.g. an F9r 1st stage might crashland and explode but still have put payload into orbit, earned money for SpaceX.
I would LOVE to see Skylon fly
{snip}But why would it need scaling up in the first place? If it's large enough, it's large enough.
Quote from: Dappa on 07/15/2012 12:29 pm{snip}But why would it need scaling up in the first place? If it's large enough, it's large enough.A scaled up Skylon could compete with the SLS for large cargoes.
Quote from: A_M_Swallow on 07/15/2012 01:57 pmQuote from: Dappa on 07/15/2012 12:29 pm{snip}But why would it need scaling up in the first place? If it's large enough, it's large enough.A scaled up Skylon could compete with the SLS for large cargoes.This is fundamentally missing the point. The rationale for Skylon (or any high-turnaround RLV for that matter) is that it changes preconceptions on what are economical activities which is precisely what is holding back space development. Why develop an expensive an uneconomical superheavy lifter which will realistically see little use when you can construct the equivalent mass with multiple launches of an existing launch vehicle in a week or two anyway?
Surely a Boeing 747 could never fly, at least that's what a lot of people thought back in 1968.
Arguments on the Internet are extremely time-consuming...
Europe’s Next-gen Rocket Design Competition Included Surprise Finalist http://www.spacenews.com/launch/120713-europe-rocket-design-finalist.htmlQuoteAstrium Space Transportation and OHB AG will lead two consortia to perform a design of a new heavy-lift launch vehicle for the European Space Agency (ESA) following a bidding competition that included a surprise third bidder in Reaction Engines Ltd. of Britain, ESA Director-General Jean-Jacques Dordain said here July 10.
Astrium Space Transportation and OHB AG will lead two consortia to perform a design of a new heavy-lift launch vehicle for the European Space Agency (ESA) following a bidding competition that included a surprise third bidder in Reaction Engines Ltd. of Britain, ESA Director-General Jean-Jacques Dordain said here July 10.
Quote from: Alpha_Centauri on 07/15/2012 03:08 pmThis is fundamentally missing the point. The rationale for Skylon (or any high-turnaround RLV for that matter) is that it changes preconceptions on what are economical activities which is precisely what is holding back space development. Why develop an expensive an uneconomical superheavy lifter which will realistically see little use when you can construct the equivalent mass with multiple launches of an existing launch vehicle in a week or two anyway?For the standard reason - you use a train carrying 900 people because it is cheaper than 10 trains each carrying 90 people. Until the proposed manufacture of the supper Skylon can see sufficient cargo/passengers you do not develop a super Skylon.
This is fundamentally missing the point. The rationale for Skylon (or any high-turnaround RLV for that matter) is that it changes preconceptions on what are economical activities which is precisely what is holding back space development. Why develop an expensive an uneconomical superheavy lifter which will realistically see little use when you can construct the equivalent mass with multiple launches of an existing launch vehicle in a week or two anyway?
I found the article very interesting because it discusses ESA's concern about Space X's Falcon 9 and how they are changing their industrial model in an attempt to lower costs. It seems to me that if Space X develops a reusable Falcon 9, it could render Ariane 6 uncompetitive and obsolete, so ESA may be thinking about responding with Skylon.
Arianespace operates Ariane day to day, yes, but they do so so on behalf of ESA. It is ESA that is responsible for and funds designing and developing (though industry on behalf of ESA) European launch vehicles. This is not the same as simply hitching a ride on Falcon or Soyuz for example. There is nothing stopping Arianespace operating Skylon...
Although the fact it was an official competitor for NGL is surprising, the result is not, it seems unlikely ESA would get involved directly in developing Skylon. That said they are probably keen to see Skylon developed in Europe, hence their continued support and interest.
I did state my concerns, but you don't find them convincing, which is fair enough.But let me give some specific scenarios: what if rocket mode Isp turns out to be slightly disappointing (as it was with RS-68) and if that has structural implications (as it did with Delta)? What if the precooler only works efficiently up to Mach 4.5 instead of 5.5? What if it uses more LH2 than expected? What if lower than expected T/W leads to a slower ascent, more drag losses and a need for beefed up TPS? In my opinion all of these could reasonably happen. They could also reasonably not happen. Enough reason for me not to be confident Skylon will work as an SSTO. It could, but I'm not confident.I am however confident that it could work well as a TSTO, and not too worried about the economic implications. In fact I believe a TSTO RLV with much less ambitious engines than SABRE could be possible (and even the much less ambitious VTVL TSTO RLVs could still be very economical IMO).I meant there are many TSTO RLV concepts out there, and it is not clear SSTO will be required for a breakthrough in specific launch prices, nor whether SSTO is even possible without including non-chemical power sources. SSTO could indeed be necessary, but I hope it's not, since I'm not confident a chemical SSTO RLV is possible. Hopeful yes, with Skylon a leading contender, but not confident.
Let me see if I can paraphrase your objections.
1) Sklyon is a complex new vehicle with a complex new engine. Either might fail to meet any number of required performance targets making the goal infeasible.
2) Both the vehicle and the engine have a lot of failure modes. Some unique to this design, some generic to other designs. Many of them could stop the vehicle achieving orbit or destroy the vehicle outright.
3)If it was that good they would have got a lot more funding a lot sooner.
4)There are a lot of much more conservative design concepts out there that have had no funding.
5)You don't believe SSTO is possible anyway.
I am getting really tired of the "false until proven true" attitude. That's not how critical thinking works.
QuoteI am getting really tired of the "false until proven true" attitude. That's not how critical thinking works.No actually that is how critical thinking as well as the scientific method works.