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#11
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Recommended TSTO technical papers?
Peter Fairbrother :
John Carmack wrote Peter Fairbrother wrote in message ... H2O2 is a no-no for reuseables. Forms unstable explosive peroxides which accumulate in nasty places. There isn't a real aircraft or spacecraft anywhere that doesn't have minor leaks. What do you base this on? Science, accident reports and experience. A bit of chemistry (I'm still an amateur, but not armchair, rocket-ist but I was a professional chemist before I became a mathematian/cryptographer). Caveat: this is not professional opinion, it should be considered as just general chatter. Peroxides are not my speciality. Don't rely on it for safety. Thank you for the above. 1) Inorganic peroxides. I'm sure you use high purity aluminium for your peroxide tanks, but Al/Mg alloys are better from a weight point of view for the rest of the structure, and Al/Mg will form both straight magnesium peroxides and mixed magnesium/aluminium peroxides. Well, just don't act like NASA then, if Al/Mg is not safe don't use it? Not everyone thinks like NASA and believe that a rocket must run at the ragged edge of techonolgy and be made as light as possible. Some people want rugged rockets that are reliable and can be used over and over again. I don't know about John Carmack, but personally all my work is done with Glass/Stainless Steel/Aluminium only. I never planned to use Al/Mg in any of my designs nor have I heard that anyone else is, so why assume that they will? I've even heard of Al peroxides. I theorise that the oxide layer on the Al is what protects it, and it will form a peroxide under some circumstances, like perhaps leaks. Can you supply a URL or reference? Not one report that I have read about storing peroxide in aluminium tanks warns of peroxides forming from the metal, and the Russians stored peroxide for years in thier tanks without problems. And the USA peroxide suppliers who are anal about safe storage have not mentioned it either. Cu, Zn, Ni, brass and bronze will all form peroxides, and there are many other mixed inorganic peroxides, including some Fe ones. Yes those metals decompose the H2O2, but they _also_ form peroxides. These can be highly reactive or explosive by themselves, and likely will be explosive if they come into contact with organic materials. This requires that you follow just one simple rule. Don't use these materials! What is so hard about that idea? Again this is not NASA where safety regulations are bypassed with goverment mandate. I already knew all the above materials and more are problems so I just don't use them. I know this must be hard to understand, but aluminium can be machined to make any object these other material can. 2) Many salts will form addition compounds with H2O2, a bit like the hydrates. I don't know offhand which ones do, but it's probably broadly similar to the hydrates. Washing soda is an example, off the top of my head. They can decompose violently, perhaps explosively, just by themselves, and are likely to react explosively if in contact with organics. And that is why I don't add anything to my peroxide. Infact most of my personal research is in finding cheap ways to make peroxide more pure. Why are you assuming that people don't know to keep thier peroxide tanks clean? 3) Organic peroxides. It is well known that ethers, acetals and alcohols will form organic peroxides with hydrogen peroxide, but so will almost any organic with an oxygen atom in it, and even aliphatic hydrocarbons will do so eventually in leak conditions with air and metals present to act as catalysts. Many organic peroxides are sensitive explosives. Again, I know it is a hard thing to see, but don't use organics in your design, why assume that they must? Can you show where John Carmack used any? ERPS? RocketGuy? Any rocket cars even? My site in the rocket section? Everyone who has done this for any time already knows this and the solution was simple - Don't use them! BTW, alcohol is pretty bad here. It can oxidise in air (or slowly with H2O2) to acetaldehyde or acetic acid, when it will form really nasty peroxides with H2O2. Are you the guy who uses 50% aqueous H2O2 with small amounts of added alcohol? Beware. That's a bad combination to leave around. I assume you mean John Carmack and if you read his website you would see that it is stated procedure to only mix just before use, and to always burn off all the mixture - Each and Every Time. There is no mix left lying around. Sometimes the simple solutions are the best ones. Nobody knows that much about any of these, they tend to be too dangerous to experiment on. There are probably unknown dangers involving mixed peroxides too. Chemists don't like working with them. Well then the only way to find out the truth is to do some experiments. Based on chemist safety standards no non-hybrid rocket would ever be built, all the useful combinations have the potential being a major explosive. So if the dangers are unknown your advice is not to find out what the dangers are but to quit? There are many reports of not-quite-fully-explained accidents and explosions relating to the previous storage and use of H2O2. Things like shelves exploding when disassembled. Even a water-filled drainage pond (!). Yes, and how many of them involved peroxide that was stored away and forgotten for years? Most rocket people plan to burn off thier peroxide within days of recieving it. Others use very cold storage or very remote storage to be safe. You are talking about stuff left in the back of the store or in a standard warehouse. And as for the water filled pond you need to supply some references on that one, the only way I see it working is if there was explosive peroxides forming and the pond was never drained. Again suggest peroxide just left lying around for long periods of time. Peroxide has more extensive use in reusable engines than any other rocket propellant. All the rocket belts, rocket dragsters, rocket helicopters, as well as a commercial reusable RATO in England all were long service life peroxide engines. True, they were all monoprop, but that does exonerate the oxidizer. "Were" is probably the operative word here. The Royal Navy won't use it in it's torpedoes. The US navy has stopped using it. Even the Russians have withdrawn their peroxide torpedoes after the Kursk explosion. The point is while they found what they think are better combinations to fuel things, your claims are on the dangers of peroxide. But peroxide was in use in all these machines and still is in the case of rocket belts and rocket cars. There are even a few rocket helcopters still being made. But if peroxide is as dangerous as you say, where are all the explosions? You can point to the Kursk but where are the explosions of peroxide powered machines that were just sitting there. Maybe the fact that with use the peroxide does not just sit there and accumulate explosive peroxides has something to do with it. Whether that's because of peroxides building up from leaks or the "normal" dnagers of H2O2 I don't know. But I'd have to have a powerful reason, and do lots of research, before I used it in a reuseable (torpedoes are frequently test fired and reused). Yes, but you are also talking about the Russian navy when it is suffering it's worse cutbacks. Again, where others were regularly using peroxide to power thier machines where are the explosions. And the German Comet does not count, there is a big difference in how you handle peroxide while people are trying to kill you first. Leaked high concentration peroxide doesn't hang around very long. Practically anything it leaks onto will cause it to start decomposing, not forming explosive peroxides. There may well be peroxides forming while it's decomposing. Slow leaks are bad for that. The peroxides build up until.. And there must be leaks because? Again this is not NASA, every present day peroxide design that I know of has plumbing simple enough to be completely insepected by one person in a single day. Just because something can be complicated does not mean that it must be. A little fear to keep you on your toes is a good thing, a lot of fear that leaves you frozen still is just a waste. Earl Colby Pottinger -- I make public email sent to me! Hydrogen Peroxide Rockets, OpenBeos, SerialTransfer 3.0, RAMDISK, BoatBuilding, DIY TabletPC. What happened to the time? http://webhome.idirect.com/~earlcp |
#12
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Recommended TSTO technical papers?
John Carmack wrote:
Peter Fairbrother wrote in message ... H2O2 is a no-no for reuseables. Forms unstable explosive peroxides which accumulate in nasty places. There isn't a real aircraft or spacecraft anywhere that doesn't have minor leaks. What do you base this on? Peroxide has more extensive use in reusable engines than any other rocket propellant. All the rocket belts, rocket dragsters, rocket helicopters, as well as a commercial reusable RATO in England all were long service life peroxide engines. True, they were all monoprop, but that does exonerate the oxidizer. Leaked high concentration peroxide doesn't hang around very long. Practically anything it leaks onto will cause it to start decomposing, not forming explosive peroxides. Only if you made the incredibly bad system design choice to use high concentration peroxide and alcohol in a biprop system would this be a credible danger -- simultanious leaks from both tanks could indeed combine to form a detonable mixture. With kerosene and most other hydrocarbons, they aren't miscable. Lox can also form explosive mixtures with quite a few fuels, like propane. Peroxide leaks onto random surfaces may well be a fire hazard, but the same can be said for any oxidizer (except nitrous oxide). Higher cost and somewhat lower performance are valid reasons not to use peroxide, but "Forms unstable explosive peroxides" really isn't. Lots of people have negative things to say about peroxide that are mostly extrapolations from historic folklore, but most of these people (assuming they aren't strictly armchair engineers) have had much more direct experience with, say, frozen lox valves... John Carmack www.armadilloaerospace.com John, What was the source down in Mexico for the H2O2 distillation unit? Charles Buckley |
#13
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Recommended TSTO technical papers?
In article , WvB wrote:
Question: would the ground infrastructure increase significantly if you went with Propane/Methane rather than Propane/Propane or Methane/Methane? It's an extra complication, adding one more set of ground plumbing, handling procedures, etc. Not a disaster, but why would you bother? The performance difference between the two is probably too small to be worth the trouble. -- MOST launched 1015 EDT 30 June, separated 1046, | Henry Spencer first ground-station pass 1651, all nominal! | |
#14
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Recommended TSTO technical papers?
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#15
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Recommended TSTO technical papers?
What about the sooting issue with propane in a fuel rich preburner? Yes,
I know there's ox-rich technology out there as an alternative. I just want to know if fuel rich is an option for propane. Is this why methane was chosen for the STBE on ALS rather than propane? It seems that if you're using hydrogen in the upper stage (STME), you'd want a nice dense propellant in the booster... thus RP-1, or for easier reusability, propane... but since methane was chosen instead, in spite of inferior density impulse, I'm guessing it was due to advantages either in use with fuel rich preburners, or less coking issues with regen cooling (yeah, I know sulphur is the bigger driver there). I'm just trying to figure out what NASA's thinking was. |
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