Page Content (OCR)
10 15 20 25 30 35 40 45 50 11 embodiment, possible wise by created radioactive isotopes; where all above mentioned interactions create on one hand inside the core between the initial and new material(s) and plasma - but also on the other hand between them and the inside material(s) of the reactor itself and it’s proper potency relationship to the its ground level - a multitude of differences of electric potency (voltage) and of internal electrons movements (current) inside the closed reactor, and these current(s) can be collected, from the any levels of the reactor containment, this being liquid gas or plasma or the embodiment itself, by at least one terminal (118, 178), but preferable collected by a plurality of terminals (Fig. 21) from which the heads of the electrodes are well distributed over the inside of the reactor cavity or of the reactor cavities; We claim also a new method and a production process to make a special TIPI- reactor that is battery-like (i.e. shaped as a 9V battery after ISO norms), where the opening means and the related filling process, and the closure and fixed by the closing means all happen during the manufacturing process of the internal parts, and then - in the next step - the internal parts are covered by covering means, which finally results is a battery-type of reactor that is completely close, except for the terminal means. Where a reactor normally will have opening/closing means which can re-opened or re-closed when additional material(s) need to be introduced, or when objects to be treated need to be entered, or when new preferred materials need to be transported to the outside of the reactor, a reactor-type reactor will be a physical full-closed system in which the self-sustaining process will hold for the programmed approximate lifetime. For example the quantity and half-life time of the nuclear source will influence such period of full activity. Also this makes a battery-like reactor conceptually very different from any existing battery, even from actual nuclear batteries. reactor means. We claim also the method and the production process to make a special refill TIPlreactor that is battery-like (i.e. shaped as a 9V battery after ISO norms), where the opening means and the related filling process, and the closure and fixated by the closing means all happen during the manufacturing process of the internal parts, where additionally refilling means are integrate in the concept which make it possible to refill at all times the reactor when additional initial material(s) is necessary, and then - in the next step - the internal parts are covered by covering means, which finally results is a battery-type of reactor that is completely close, except for the terminal means and the external refilling means. Here we disclose the possibility to have a battery-like reactor equipped with refilling possibilities. After a quasi programmable period of time the initial materials will be “consumed”, and need to be replaced by similar or other type of initial materials. This refilling system can be part of a business-model. We claim also a TIPl-reactor, as described is claim 1, or in a reactor, as described is claim 2, can be equipped with appropriate transport means to remove and/or replace collection means — such as electrodes, plates, specifically altered liquids, liquids containing new generated solids — where said collection means are covered with and/or are containing the targeted atomic elements of the periodic table and their isotopes, so said collection means can be transported outside said reactor for further use.