Methods of cleaning a submerged surface using a fluid jet discharging a liquid/gas combination

The invention claimed is: 1. A method of cleaning a submerged surface covered by a liquid medium, the method comprising: injecting a cleaning liquid with a submerged fluid jet through the liquid medium at the submerged surface; and introducing at least one of a non-reactive gas and a reactive gas with the cleaning liquid through the submerged fluid jet such that the cleaning liquid and the at least one of the non-reactive gas and the reactive gas exit the submerged fluid jet prior to mixing with each other, and the cleaning liquid surrounds the at least one of the non-reactive gas and the reactive gas during the injecting and introducing so as to focus a discharge of the at least one of the non-reactive gas and the reactive gas toward the submerged surface, wherein the introducing includes generating heat at an interface with the submerged surface as a result of an absorption of the reactive gas by at least one of the liquid medium and the cleaning liquid. 2. A method of cleaning a submerged surface covered by a liquid medium, the method comprising: injecting a cleaning liquid through a first conduit of a submerged fluid jet to an open end of the first conduit; introducing at least one of a non-reactive gas and a reactive gas through a second conduit of the submerged fluid jet to an open end of the second conduit, the second conduit extending within the first conduit; focusing the at least one of a non-reactive gas and a reactive gas exiting the submerged fluid jet to the submerged surface; and mixing substantially the cleaning liquid and the at least one of a non-reactive gas and a reactive gas after exiting from the submerged fluid jet, wherein the introducing includes generating heat at an interface with the submerged surface as a result of an absorption of the reactive gas by at least one of the liquid medium and the cleaning liquid. 3. The method of claim 2 , wherein the introducing includes configuring the second conduit to extend within the first conduit to substantially isolate the cleaning liquid and the at least one of a non-reactive gas and a reactive gas while passing through the submerged fluid jet. 4. The method of claim 3 , wherein the introducing includes configuring the open end of the second conduit to extend substantially to the open end of the first conduit. 5. The method of claim 3 , wherein the introducing includes configuring the open end of the second conduit to extend beyond the open end of the first conduit. 6. A method of cleaning a submerged surface covered by a liquid medium, the method comprising: injecting a cleaning liquid with a submerged fluid jet through the liquid medium at the submerged surface; and introducing at least one of a non-reactive gas and a reactive gas with the cleaning liquid through the submerged fluid jet such that the cleaning liquid and the at least one of the non-reactive gas and the reactive gas exit the submerged fluid jet prior to mixing with each other, and the cleaning liquid surrounds the at least one of the non-reactive gas and the reactive gas during the injecting and introducing so as to focus a discharge of the at least one of the non-reactive gas and the reactive gas toward the submerged surface, wherein the injecting and introducing is performed with a triple concentric tuyere as the submerged fluid jet, the cleaning liquid being injected through a first passage of the triple concentric tuyere, the non-reactive gas being introduced through a second passage of the triple concentric tuyere, and the reactive gas being introduced through a third passage of the triple concentric tuyere. 7. The method of claim 6 , wherein the injecting includes directing the cleaning liquid at an interior surface of a vessel covered by the liquid medium. 8. The method of claim 6 , wherein the injecting includes directing the cleaning liquid at a component immersed in the liquid medium. 9. The method of claim 6 , wherein the injecting includes using water as the cleaning liquid. 10. The method of claim 6 , wherein the injecting and introducing includes configuring the triple concentric tuyere such that the first passage surrounds the second passage and the third passage. 11. The method of claim 6 , wherein the injecting and introducing includes configuring the triple concentric tuyere such that the third passage extends further from the submerged fluid jet than the first passage. 12. The method of claim 6 , wherein the introducing includes supplying the at least one of the non-reactive gas and the reactive gas as voids that cavitate at an interface with the submerged surface so as to facilitate a removal of deposits from the submerged surface. 13. The method of claim 6 , wherein the introducing includes increasing a pH at an interface with the submerged surface as a result of an absorption of the reactive gas by at least one of the liquid medium and the cleaning liquid so as to facilitate passivation of the submerged surface. 14. The method of claim 6 , wherein the introducing includes a co-injection of the non-reactive gas and the reactive gas. 15. The method of claim 6 , wherein the introducing includes the use of at least one of atmospheric air, nitrogen, and a noble gas as the non-reactive gas. 16. The method of claim 6 , wherein the introducing includes the use of at least one of ammonia and hydrazine as the reactive gas. 17. The method of claim 6 , wherein the introducing includes the use of hydrogen chloride as the reactive gas. 18. The method of claim 6 , further comprising: stabilizing the submerged fluid jet with a balancing jet such that a first force generated by a first jet exiting the submerged fluid jet is countered by a second force generated by a second jet exiting the balancing jet. 19. The method of claim 6 , wherein the cleaning liquid surrounds the at least one of the non-reactive gas and the reactive gas so as to reduce a premature diffusion of the at least one of the non-reactive gas and the reactive gas during a path toward the submerged surface.