There are several key factors that have retarded progress in this area. An ideal RLV would be: a single stage vehicle; inexpensive to operate and able to be turned around quickly. Thanks to NASA's failed billion-dollar experience trying to build a scaled down technology demonstrator, the X-33, we can say that single-stage RLVs are beyond the current state of technology. The fundamental reason has to do with the energy needed to achieve orbit and the lack of a propulsion system that can deliver the required vehicle velocity at a high enough efficiency.

As a result, using the best propulsion technology available, a single-stage vehicle would have to lift off with a propellant mass fraction approaching 90 percent. In other words, the maximum mass left to reach orbit would be only about 10 percent of the gross liftoff mass.

This may not seem to be a show-stopper, but that 10 percent must include everything that is not ascent propellant. This includes all of the structure, propulsion system, propellant tanks and plumbing, avionics, reentry heat shields, residual and maneuvering propellants and payload. Current technology limits us to a minimum mass fraction of about 18 percent. Alas, we are about 80 percent overweight on the amount of mass to orbit.

Nevertheless, all may not be lost. What about building a two-stage RLV? Well, Walter Kistler asked the same question, and in the early 1990s he started a company to build and operate a two-stage-to-orbit, fully-reusable vehicle.

His company raised over $500 million in private funds and proceeded with the construction of the first flight prototype, the K-1. Walter's design was very conservative and used only existing technology. However, as the vehicle design progressed over a several-year period costs went up and market demand went down. Eventually, his company ran out of money and the financial world tightened up. Sadly, the K-1 was never completed.

The lesson from this experience is that reusables are technologically possible, but expensive to build. Without sufficient start up funds and a strong market demand for high launch rates, RLVs are not yet practical.

So, the key question is: What would it take to justify the expense of building a reusable launcher system with today's technology? Some say launch prices are too high and, if lowered, the demand would go up. However, several market studies in recent years have concluded that market demand is inelastic, i.e., lower prices will not affect demand unless prices are decreased by factors of 10 or more.

Even the most optimistic prognosticators do not agree that RLVs can achieve this, especially in view of current low demand. After all, RLVs make sense only when launch demand is extremely high. Today, the world launches about 60 to 70 times per year. Of these, about 20 launches are dedicated to geostationary injections. Since first generation RLVs will be limited to low orbits, there remain only about 40 launches per year that can be satisfied by a reusable system.

This leaves us with the question: Is there a potential market that could justify RLVs in the future? Unfortunately, no one knows. Maybe human tourism flights to Earth orbit will be practical in a decade or two. Maybe there is a future commercial or defense mission that will require hundreds of satellite launches each year. But, no one can justify the investment in RLVs simply based on "maybe." The only logical conclusion is that it seems impractical to pursue RLVs at this time.

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Seoul (AFP) March 13, 2009
North Korea has announced it will launch a satellite early next month, the International Maritime Organisation said Thursday, as Washington and Seoul told Pyongyang to scrap what they see as a disguised missile test and the UN expressed concern.