Return-path: X-Andrew-Authenticated-as: 7997;andrew.cmu.edu;Ted Anderson Received: from hogtown.andrew.cmu.edu via trymail for +dist+/afs/andrew.cmu.edu/usr11/tm2b/space/space.dl@andrew.cmu.edu (->+dist+/afs/andrew.cmu.edu/usr11/tm2b/space/space.dl) (->ota+space.digests) ID ; Fri, 1 Feb 91 01:24:08 -0500 (EST) Message-ID: Precedence: junk Reply-To: space+@Andrew.CMU.EDU From: space-request+@Andrew.CMU.EDU To: space+@Andrew.CMU.EDU Date: Fri, 1 Feb 91 01:24:03 -0500 (EST) Subject: SPACE Digest V13 #095 SPACE Digest Volume 13 : Issue 95 Today's Topics: Re: Commercial Space News (2 of 4) Re: Why man rate? (was: space news from Dec 17 AW&ST) Re: SPACE Digest V13 #041 Re: Books to start out with. Re: Why man rate? (was: space news from Dec 17 AW&ST) Re: More on space cameras Administrivia: Submissions to the SPACE Digest/sci.space should be mailed to space+@andrew.cmu.edu. Other mail, esp. [un]subscription requests, should be sent to space-request+@andrew.cmu.edu, or, if urgent, to tm2b+@andrew.cmu.edu ---------------------------------------------------------------------- Date: 26 Jan 91 04:32:52 GMT From: julius.cs.uiuc.edu!zaphod.mps.ohio-state.edu!swrinde!elroy.jpl.nasa.gov!zardoz.cpd.com!dhw68k!ofa123!Wales.Larrison@apple.com (Wales Larrison) Subject: Re: Commercial Space News (2 of 4) (Black Brandt - Canada), LTV (Scout), and all of the small ELV competitors in the US, as well as Deutche Aerospace (Texus - Germany/ESA), IAA (Shavit - Israel), ISAS (M3 derivative- Japan) and several others. For recoverable satellites their competition includes the COMET recoverable satellite program from the CCDS, the Carina program from Italy, the Chinese recoverable satellite program, and the Soviet recoverable payload program.] CHINA'S GREAT WALL CORPORATION'S LONG MARCH MANIFEST According to recent information, China plans 7 Long March launches through 1992. These are: Fall 1991 Arabsat-1C; Winter 1991 Aussat-B1; Winter 1991 Feng Yun weather satellite; Spring 1992 Freja Swedish satellite; Spring 1992 CSAT recoverable satellite; Summer 1992 CSAT recoverable satellite; Summer 1992 Aussat-B-2; Fall 1992 Dong Fang Hong-2 comsat. LOCKHEED ENTERS FRAY FOR LOW-COST SATELLITES Lockheed Missiles & Space Company is entering a new low-cost satellite bus in the competition to build medium-weight satellites. Called "F-Sat" for "frugal satellite," the all-aluminum bus is being designed from the ground up for cost saving and ease of manufacture. Lockheed calculates by building a common source for payload power, propulsion, data management, attitude control and other services, they can cut the price from an average of $60 million to as low as $30 million for a satellites with a payload of 2,000- 4,000 lbs. The F-Sat is being sized to accommodate payloads ranging from 750- 4,500 pounds, with an on-orbit lifetime of as long as seven years, and a power of 2.400 kilowatts. Developed with Lockheed money, and supported by a company investment of more than $20 million on computerized design and manufacturing tools, and a "software engineering environment" and other software development tools, the first F-Sat bus should be tested by mid-1993. [Commentary. This is a new entry into the LEO satellite construction market. It has been rumored that LMSC has built some number of DoD satellites for this market, but a new low-cost satellite bus is a departure from the specialized DoD satellite market. Their primary competition will be from Ball, GE, TRW, and Fairchild, and Rockwell. The only other advertised multi-purpose low cost bus is from Fairchild's Multi-Mission Modular Satellite used for NASA scientific payloads, but GE has used a very similar satellite bus for several LEO payloads. Evidently the LEO satellite market is starting to hot up again, with the number of satellites expected to grow from the Iridium constellation from Motorola, lightsats from the DoD, and increased number of small scientific satellites, including a potentially large number from a re-focused Mission to Planet Earth. We'll see more details on this as some of the competitor's positioning becomes apparent, bids are made for these systems, and some of the details of the bids are released.] MOTOROLA HAS SELECTED A SUB-CONTRACTOR FOR IRIDIUM SATELLITES It was reported Motorola has announced it has selected a sub- contractor to build the satellites for their proposed Iridium low- Earth orbiting cellular communications system. 77 satellites, plus -- Wales Larrison Internet: Wales.Larrison@ofa123.fidonet.org Compuserve: >internet:Wales.Larrison@ofa123.fidonet.org -------------------------------------------------------------------------- ------------------------------ Date: 25 Jan 91 16:54:43 GMT From: rochester!uhura.cc.rochester.edu!ub!ubvmsd.cc.buffalo.edu!v071pzp4@louie.udel.edu (Craig L Cole) Subject: Re: Why man rate? (was: space news from Dec 17 AW&ST) In article <9101250025.AA14284@iti.org>, aws@ITI.ORG ("Allen W. Sherzer") writes... >In article <1991Jan24.170524.4957@freedom.msfc.nasa.gov>: > >>>>I also don't think it would cost that much to man-rate one of the more >>>>reliable, smaller launchers such as the Delta, [Stuff delelted] >>It would cost substantially more. First of all, you'd have to develop >>a capsule, with attendent redundant flight controls, life support, >>heat shields, adaptors and fairings, etc. > >We use Soyuz. We mount it on a Delta for 20% the cost of a Shuttle >flight. We could also put it (and 50K to 100K pounds extra payload) >on a Delta or Titan derived HLV for half the cost of a Shuttle flight. I think you're underestimating the difficulty in mating these two completely different animals. Ever try making an IBM and a Mac work together? [Stuff about ELV and shuttle success rates deleted] >Now if you where going into orbit would you rather fly on the launcher >with a 98.3% record or a 96.6% record? If the less safe one costs five >times as much, how would that affect your decision? BOTH success rates are impressive. I don't think anyone can accurately say that the shuttle is exactly 1.7% more dangerous than ELVs. There's too much guesswork. If we don't learn to operate shuttles, we'll be lauching atop ELVs forever. The NASP program wouldn't exist either. The shuttle isn't what it was expected to be, but it still is a major step in the right direction. >>Although it's hard to quantify due to the small sample >>size, the Shuttle over several hundred flights should do substantially >>better than that (if that many flights were made), and I daresay that if it >>didn't, it would be canned pronto. > >Don't look now but the Shuttle *IS* being canned. That's just not true. No replacements after Endeavour are likely to be built, but the shuttle will be running probably well into the 21st century. Just when Hermes, Hope and whatever else are just getting launched. What is true, is that the shuttle, being the expensive vehicle it is, is being used for what it is best at -- life sciences, micrograv research, delicate deploys, etc. No more run-of-the-mill satellite deploys. They SHOULDN'T be launched via the shuttle. Its not only cheaper to do it with ELVs, but it takes away from true sciences and experiments only the shuttle can perform. [Stuff about man-rating adding safetly deleted] Sure, adding safety and redudancy features increases the complexity of the system, which in actually starts to reduce safety. But, after seeing all of the glitches the shuttle has usually easily solved by these features, I'd rather take my chances having those extra systems to use. I know what you're going to say -- a lot of those glitches wouldn't have happened if everything weren't so complex. But this is my own opinion. I wonder what astronauts think. >BTW, on January third Norm Augustine made the exact same point in a >Congressional hearing. As you know his committee advocates building >a heavy lift vehicle. One member asked him about man-rating this new >launcher. He pointed out that may not be needed because of the >safety of the hardware. It turns out that the system MUST be safe >enough for people because the payloads are worth far far more >than the crew. If it wasn't safe, nobody would fly their payloads >on it. This is EXACTLY the way rockets SHOULD be built. Man-rating a rocket will eventually become an outdated term, as rockets will become inherently be safe enough to launch whatever you want -- satellites, manned capsules, or whatever. Craig Cole V071PZP4@UBMVS.BITNET V071PZP4@UBVMS.CC.BUFFALO.EDU ------------------------------ Date: 26 Jan 91 19:20:56 GMT From: usc!elroy.jpl.nasa.gov!freedom!cornutt@apple.com (David Cornutt) Subject: Re: SPACE Digest V13 #041 18084TM@MSU.BITNET (Tommy Mac) writes: >Re: Al Globus' Mirrors vs. Turbines vs. Photocells for Biospheres: > >Blow the Trubines and the Photocells. Mirrors get 100% efficiency (in the >frequencies that the plants care about anyway). Um, no. Telescope builders know that aluminized mirrors are only about 80% efficient at visible and ultraviolet wavelengths. You can do a little bit better with silver, but it's expensive and it corrodes, and it still doesn't get near 100%. It's still a good idea in spite of this. -- David Cornutt, New Technology Inc., Huntsville, AL (205) 461-6457 (cornutt@freedom.msfc.nasa.gov; some insane route applies) "The opinions expressed herein are not necessarily those of my employer, not necessarily mine, and probably not necessary." ------------------------------ Date: 27 Jan 91 04:19:37 GMT From: zaphod.mps.ohio-state.edu!swrinde!cs.utexas.edu!news-server.csri.toronto.edu!utzoo!henry@tut.cis.ohio-state.edu (Henry Spencer) Subject: Re: Books to start out with. In article <9101252144.AA21268@iti.org> aws@ITI.ORG ("Allen W. Sherzer") writes: >A friend of mine with a degree in ME has asked me to reap from >the collective wisdom of the net. He would like any good intro >books on rocket design and engine design. Slightly more information would be useful. Just how "intro" are we talking about? Hunter's "Thrust Into Space" is a good intro for someone who really doesn't know anything about propulsion, although it spends a lot of time on things like orbital dynamics which aren't entirely relevant to this query. Alas, it's long out of print. Sutton's "Elements of Rocket Propulsion" currently seems to be the definitive text for aspiring undergraduate propulsion engineers. The fifth edition is a current MIT text, for example. I'd guess this is about right. Huzel and Huang's "Design of Liquid-Propellant Rocket Engines", NASA SP-125, although somewhat old is *the* hot-and-heavy book on engine design. Nothing much beyond this is available collected in one place. (Remember that there are very few active practitioners of this particular craft, so there is little demand for advanced books; the active people pass it on to their successors less formally.) Trouble is, it's out of print. Still available from NTIS, however, and the reproduction is actually fairly good. This is from memory; small spelling/wording errors are possible. -- If the Space Shuttle was the answer, | Henry Spencer at U of Toronto Zoology what was the question? | henry@zoo.toronto.edu utzoo!henry ------------------------------ Date: 25 Jan 91 20:06:39 GMT From: swrinde!elroy.jpl.nasa.gov!freedom!cornutt@ucsd.edu (David Cornutt) Subject: Re: Why man rate? (was: space news from Dec 17 AW&ST) I apologize to the group for posting this, but people that play fast and loose with their facts burn me up. Hit 'n' if you are adverse to flames. aws@ITI.ORG ("Allen W. Sherzer") writes: >We use Soyuz. We mount it on a Delta for 20% the cost of a Shuttle >flight. We could also put it (and 50K to 100K pounds extra payload) >on a Delta or Titan derived HLV for half the cost of a Shuttle flight. Are you saying that you could design a Titan with 130-150K lb payload capacity? Contrary to popular belief, the Titan IV is only about a 50K payload vehicle. And it's a ragged-edge design. There's no way that it could ever be man-rated. You can't go on adding thrust to a vehicle forever. If you tried to uprate Titan IV to this payload capacity, you'd wind up, in effect, designing a new vehicle. >That's the problem. We double the cost of everything to get 0.01% >more safety out of it. It's just not worth it. Actually, I agree with you. But Congress and the American public don't agree. In their minds, 0.01% risk is not acceptable for a manned vehicle. >>I just got out some Martin Marietta literature on the Delta. In it they >>advertise a launch success rate of 93.9%. >You need to look deeper since Martin makes the Titan not the Delta. They >will fudge the figures to make Titan look better. >In the entire 30 year history of the Delta this is an accurate figure. >However, their success rate over the last 13 years is 98.33%. Independant >estimates of Shuttle success rates put it at about 95% and it's operational >record so far is about 96.66%. You can make the probability be anything you want if you pick and choose your data points. If you only consider the last 11 flights, the Shuttle has a 100% success rate. This of course proves nothing. Since the basic vehicle design has not changed, I stand by the 93.9% figure. >Don't look now but the Shuttle *IS* being canned. If you are saying that there will be no more Shuttle flights, that's news to me. Do you know something that the rest of us don't? Of course, there won't be any more built. You may find this strange, but I agree with that. I was opposed to building Endeavor -- as another copy of the _current_ Shuttle design. By now, we should be working on the next version of that vehicle, the one that will put us nearer to single-stage-to-orbit (with horizontal takeoff), better reliability, and lower operations cost. If you're saying that the Shuttle concept in general is a bad idea, I totally disagree. In this day and age of recycling, why is everyone so anxious to build throwaway launchers? >There is no need to ask them. We HAVE sent people up on Delta's When? >Not from what I can see. The Shuttle is at best no safer than the non-man >rated alternatives and at worse a little less safe. Comparisons of reliability between the Shuttle and unmanned ELV's are difficult to make, because of their radically different natures. The number of Shuttle flights already flown is not a sufficient sample to derive a rating from that. >BTW, on January third Norm Augustine made the exact same point in a >Congressional hearing. As you know his committee advocates building >a heavy lift vehicle. One member asked him about man-rating this new >launcher. He pointed out that may not be needed because of the >safety of the hardware. It turns out that the system MUST be safe >enough for people because the payloads are worth far far more >than the crew. If it wasn't safe, nobody would fly their payloads >on it. But the Delta, which is the thing that you keep harping on, isn't. (Again, Delta folks, please don't feel like I'm picking on you; the Delta just happens to be the ELV that I know the most about, other than the late great Saturns. And no, I'm not going to bring up the recent incident on a flight where a payload failed due to miswiring of the adaptor; that had nothing to do with the design of the vehicle and so isn't relevent to this argument.) The main problem with the Delta, as far as man-rating, is that steering of the first stage is provided solely by gimbaling of the main engine. If that engine fails, the vehicle has no directional control and must be aborted. This happened on a Delta launch in 1987; I've been told that it has happened in the past, too. My point is, there is a reason why things are man-rated, and it isn't to keep contractors employed. The reason is that Congress and the American public *insist* on the absolute lowest perceived risk (which does not necessarily correlate to the actual risk). -- David Cornutt, New Technology Inc., Huntsville, AL (205) 461-6457 (cornutt@freedom.msfc.nasa.gov; some insane route applies) "The opinions expressed herein are not necessarily those of my employer, not necessarily mine, and probably not necessary." ------------------------------ Date: 25 Jan 91 20:25:43 GMT From: sdd.hp.com!elroy.jpl.nasa.gov!freedom!cornutt@ucsd.edu (David Cornutt) Subject: Re: More on space cameras Thanks for a fine article, Charles. A couple of questions? (1) Does exposure to vacuum effect film? (Apart from the thermal problem) (2) What kind of film were the photographs you mentioned shot with? Was this a stock professional film, or was it specially formulated for the purpose? (3) If it was stock film, how was it preserved on board? -- David Cornutt, New Technology Inc., Huntsville, AL (205) 461-6457 (cornutt@freedom.msfc.nasa.gov; some insane route applies) "The opinions expressed herein are not necessarily those of my employer, not necessarily mine, and probably not necessary." ------------------------------ End of SPACE Digest V13 #095 *******************