With a baseline project now gelling, NASA started to work though the process of obtaining stable funding for the five years the project would take to develop. Here too they found themselves increasingly backed into a corner.
Whilst the shuttle has been a reasonably successful launch vehicle, it had been unable to meet its goals of radically reducing flight launch costs, as each flight costs on the order of $500 million rather than initial projections of $10 to $20 million. Although the design is radically different than the original concept, the project was still supposed to meet the upgraded AF goals as well as be much cheaper to fly in general. What went wrong? One issue appears to be inflation. During the 1970s the US suffered from the worst inflation in modern history, driving up costs about 200% by 1980. In contrast, the rate between 1990 and 2000 was only 34% in total. This has the effect of magnifying the development costs of the shuttle tremendously. However this doesn't explain the high costs of the continued operations of the shuttle. Even accounting for inflation the launch costs on the original estimates should be about $100 million today. To explain this you have to look at the operational details of maintaining and servicing the shuttle fleet, which have turned out to be tremendously more expensive than anticipated. When originally conceived the shuttle was to operate similar to an airliner. After landing the Orbiter would be checked out and start "mating" to the rest of the system (the ET and SRBs) and be ready for launch in as little as two weeks. Instead this turnaround process in fact takes months. This is due, in turn, to the continued "upgrading" of the inspection process as a result of hardware decisions made to reduce short-term development costs which resulted in higher maintenance requirements which where exacerbated by the fallout from the loss of Challenger. Even simple tasks now require unbelievable amounts of paperwork. This paperwork results from the fact that, unlike current expendable launch vehicles, the Space Shuttle is manned and has no escape systems to speak of and therefore any accident which would result in the loss of booster would also result in the loss of the crew which is, of course, unacceptable. Because loss of crew is unacceptable, the primary focus of the shuttle program is to return the crew to earth safely, which can conflict with other goals, namely to launch satellites cheaply. Furthermore, because there are cases where there are no abort modes, no potential way to prevent failure from becoming critical, many pieces of hardware simply must function perfectly and so must be carefully inspected before each flight. The result is a massively inflated manpower bill. There are 25,000 workers in shuttle operations (perhaps an older number), so simply multiply any figure that you choose for an average annual salary, divide by six (or 4 or 7...launches per year), and there you have it. The lessons of the shuttle have been seen as different depending on who you ask. In general, however, future designers look to systems with only one stage, automated checkout, and in some cases, overdesigned (more durable) low-tech systems. Perhaps the most annoying aspect of the shuttle system is to consider the Air Force participation. While the blame rests solely at the feet of NASA for getting them involved in the first place, it was the Air Force requirements that drove the system to be as complex and expensive as it is today. Ironically neither NASA nor the Air Force got the system they wanted or needed, and the Air Force eventually threw in the towel and returned to their older launch systems and abandoned their Vandenburg shuttle launch plans. The capabilities which most seriously hobbled the Shuttle system, namely the 65,000 payload, large payload bay, and 1000 mile cross-range, have in fact, except for the payload bay, never been used.
ALT While all of this was going on, others were suggesting a completely different approach to the future. They stated that NASA was better off using the existing Saturn to launch their space station, supplied and manned using modified Gemini capsules on top of the Air Force's newer Titan II-M. The cost of development for this looked to be considerably less than the shuttle alone, and would have a large space station in orbit earlier.
However reality was to interject and NASA found themselves with a rapidly plunging budget. Rather than stepping back and looking at their future as a whole given their new financial situation, they attempted to save as many of the individual projects as possible. The mission to Mars was quickly eliminated, but the Space Station and Shuttle continued on. Eventually only one of them could be saved, so it stood to reason that a low-cost Shuttle system would be the better bet, because without it a large station would never be affordable.The Shuttle in retrospect
Tim Finn and Liam O'Maonlai. ALT is also an abbreviation for Assistant Language Teacher, the job title of people on the JET Programme. ALT was also an acronym by the NASA for the Approach and Landing Tests of the Space Shuttle in 1976. ALT can mean alternative lengthening of telomeres, a mechanism (other than telomerase) that cells use to maintain telomere length.