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10 15 20 25 30 35 40 45 50 55 107 out-let means (401E) for the capturing and transport of residua or of hazardous elements (i.e. cadmium) which are collected by separation/collections means such as special magnet means, as described in claim 5, which may be positioned in several area’s of the embodiment (403A, 403B), or such as zones which specific magnetic fields which attract or repulse specific elements in the vapor (406) to a preferred location(s) where they can be collected, and/or where said reactor can also have inlet means (220, 221) and outlet means (222, 223, 224) to process and separate hazardous elements from the targeted outcome, and then the vapor condensates to water drops of clean water in one or more systems (i.e. cooling device 404) or structures of lower temperature (i.e. using distillation principles), and where the thermal energy provided by the reactor can be used — direct or indirect - for various heating applications, such as cooking (405), heating water, heating (401D) houses or tents; are 200. Method as described in claim 200, where the chemo-nuclear, bio-nuclear and/or bio-chemical nuclear reactor (400B) provides additionally voltage and current (409), as described in claim 1 or 2, claim 14, which can be used for lighting (407) and electric power for electrical and electronic devices and machines, where electric power can be collected by at least one socket (408) or similar terminal in or on the embodiment; Method (Fig. 36B) as where the voltage and current provided by a chemo-nuclear, bio-nuclear and/or bio-chemical nuclear reactor (140), as described in claim 1 or 2, claim 14, is lead to a power enhancer (290), as described in claim 140, to have an higher electrical output for various 201. usages; 202. Method as where the voltage and current provided by a chemo-nuclear, bio-nuclear and/or bio-chemical nuclear reactor, as described in claim 1 or 2, claim 14, is lead to an ampere booster (Fig. 33A, Fig. 33B), as described in claim 181, to have an higher electrical output for various usages; 203. Method to build a power enhancer, after the induction principles and moving magnets as described in claim 140, where at least one coil or solenoid fixed in his position (i.e. at the end of a tube or bar), within it’s center a bar on which is mounted at least one solid magnet — of any shape — equal distance apart (like as in a electric door-release system), where by introducion of current into the coil, said bar will be retracted into the center hole of the coil creating a vertical motion along the vertical axis of the bar, where all magnet(s) fixed to the axel can move back and forth, and are covered by a tube of any means with at least one coil winded on this casing, where the winding is in opposite direction to the motion of the related solid magnet(s), where by the principle of the motion of the magnet within a coil current will created inside the wire of the surrounding coil, where the same could be reversed where at least one magnet is stationairy and the winding of at least one coil is placed on the bar which can be retracted by the initial solenoid or coil, where in both cases a part of the current created can become the supplier, where each set of solid magnets or the stationairy coil could be multiple axeled to one solenoid.