Experiments to look for metastable, small drops of strange quark matter, S-drops, at present relativistic fixed-target heavy-ion facilities are in progress at BNL and are proposed at CERN. Recent calculations have shown that these experiments can be made sensitive enough to detect expected rates of production, if indeed strange quark matter is stable. It has been proposed that, if found, these small metastable S-drops could be rapidly grown to larger stable S-drops through neutron capture in a confining apparatus. This would form the scientific basis for subsequent studies of using S-drops as an energy source. Here we present some further exciting technological aspects: breeding of S-drops, disposal of radioactive waste, and use as a compact, safe, and efficient energy source for space travel. We note that the S-drops cannot be used to give a chain reaction; also, the possibility of stable S-drops with negative electric charge, Z, (which would interact with normal matter and grow without bounds) can be ruled out.