This field of study is about creating a 'perpetual motion engine' for chemicals, or, in chemistry, or, chemical reactions. This would be similar to an oscillator approach where the process of energy gained is continuous and 'refreshes itself.' This would be good to study if you were interested in batteries and petroleum refining, hopefully finding a way to replenish petrol reserves in an engine, like the one I found long ago with a 'capture casket' that retains the smoke, to condense and reform as petrol.
Anyway,
The chemical reaction we are looking for, as a foundation of our theory, is to use one thing or element to create a spark that does not erode the materials. In essence, this is where energy is created but no mass is consumed, save for mass that is plentiful, of course.
So, if we were to want to create a battery that refuels itself, in effect a rechargeable battery, which do exist, how do we do it? If we were to observe that the fuels will be consumed as soon as they are 'flamed,' as there will be a beginning to the energy exchange, from a catalyst, as the catalyst is another word for spark, as far as I am concerned, the fuels need to merely 'be the spark.' This would result in an example of a piece of flint striking another, and, the flint being the materials that are not eroded, yes?
If we are seeking to 'not erode the flint of the battery,' then we need to have the flint create the energy from air, or, gases. This is apparent in lighters, as the flint merely lights the gases, of course.
Now, to make the battery not consume the materials, be they fluids, usually, then we need to gear the fluids to create a process of exchange where the gases consume each other, and, the 'fire,' would result in the fluids being there as weight on a levy, basically.
So, we know the foundations of the process we are looking for, with a practical example, how do we make the gases keep the energy being produced? Basically, gas is also stored energy, as it has mass, yes? Anything with mass can transfer energy, so, we need to use the gas to power the battery, maybe even leaving the fluids out.
Okay, after wasting much of your time, I have come to the conclusion that I am trying to make a battery that is gas powered, whoops!
If we were to observe that the gases could be stored, like in a aerosol can, we could also see how that these would be consumed, yes? We are, after all looking for a renewable source of energy via gaseous exchange, of course. This would mean that we need to send the gases into a replica of a water cycle, where they create energy through a 'contained vacuum.' This would be like a ferris wheel, of course.
Then, we need to create this vacuum by containing it, maybe through 'magnetism?' Protons can be manipulated through mere sparks, or contact, no need for the anions to transfer, or, to 'electrically overcharge it.' This would mean that we could create a 'vacuum cylinder' by placing the metal parts, as they have excess protons, with the focus on the area we want to create the energy, with the energy being created by the metal parts knocking together, charging the fluids for the battery, hell, ordinary tap water, with excess electrons - yes like creating 'fire water.'
This water can then power a battery, albeit slightly.