At present there are no plans to construct a new accelerator complex fully employing the super-bunch induction acceleration scheme. However, it appears attractive to retrofit many existing accelerator complexes based on RF technology to the induction synchrotron accelerator technology. It is possible to do so by replacing the RF devices without any changes in major components, such as the magnets, injection/extraction devices, vacuum systems, and beam monitoring instruments. Major laboratories in the world promote unique experimental capabilities using specific hadron accelerator complexes. It is interesting to explore how a delivered beam intensity or luminosity in these accelerator complexes is increased by this replacement and consequential for applications. This replacement appears attractive for the hadron accelerator complexes of Fermi National Accelerator Laboratory (8 GeV-Booster/120 GeV-Main Injector/Tevatron) [1], Tevatron Brookhaven National Laboratory (1.2 GeV-Booster/28 GeV-AGS/RHIC) RHIC [2], and CERN (28-GeVPS/450 GeV-SPS/7 TeV-LHC) [3]. LHC