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10 15 20 25 30 35 40 45 50 55 49 outcome, and we disclose also a method to apply in small (like table-factory), middle and/or larger industrial installations the method, as described in claim 1 or 2, for the treatment of at least a mixture (373) of introduced materials — which may be in any of the five states of matter — , like waste materials (371A, 371B) and liquid (371C) per run or cycle, where the installation is equipped with transport means (341) — like channels, valves, chains, band — to transport said object(s) through at least one cavity in which the intended preferred materials will interact with said objects to provide the preferred outcome. Like the previously disclosed ampere booster this new device can enhance introduced current. This power can be delivered by normal supply (i.e. socket), but also by a TIPI-reactor. Now we disclose a method to build a static or a dynamical power enhancer (290) which — depending from the concept (Fig. 29, 35, 36) — will doubles, triples or multiply the power of the output in comparison to the power input of the system, for example up scaling an input of 20W to an output of 60W, or higher, where by use of the principle of induction (292) and in conjunction with solid-state magnets (293) or solenoids and spring(s) (352, 354), and/or any combination of the said four, collectively or individually, power can be created where by the current flowing through the initial cable, wires (291) or cables - carrying the input current — this is achieved by application of at least one or more coils means (294A, 294B) — preferable magnetic induced coils, like O-rings, or by any coils means, like coils made by or layered by graphene, which can make use of the induction magnetic fields (292) created by the flow of the current through a conductive material like a wire or a cable, which the coil or coils can be used as a tool for the use of induction created by the cable or the power input into the windings of the coil(s) will create induction and a magnetic field for current to be created within a cable (295) where any of the two (cable or coil) could be static or dynamic which can surround the carrying current line (363)(where the magnetic energy of at least one solid magnet and kinetic energy between the moving magnets of the coil(s) which is the motion between two magnet and their magnetic fields created within the coil(s) are utilized and exchanged to electric current), where the additional kinetic energy or power is created by placing the o-ring winding or any coil shape, back to front, where two similar poles of their magnet face each other, and the post which support the current caring wire, or in the vicinity of the wire ends two solid magnets — where any of the moving magnets in the system could be guided (retracted or pushed forward) - which have similar polarity positioning, as the outer side of the o-ring magnet (294A, 294B), where the repulsion forces and energy of the magnet(s) (361) — and the potential energy of string(s)(352, 354) - are used to keep the o-ring in motion of back and forth (360) along the wire, and by principal of motion of coil moving within a magnetic field, thus creating current within the coil wiring, thus creating new energy or power, in addition to the original supply, where this can be repeated for several times, where the feed from the magnetic winding, like of the o-rings, can be connected to another wire (295) or be feed back (350) to the original feeding wire for it become the supplier to the system instead of the original input for the original supply input to be disconnected (351) for the system to become perpetual or self-sustaining, where the same can be separated, or the new power is feed back to the original line so proportionally increasing the power in the original wire, where in reality with use Dynamic power enhance.