Herein, we analyzed the molecular dissociation of carbon links using plasma radiation energy. This is a destructive method that is employed for the disposal of organic waste, particularly those species that have carbon bonds with a toxic nature and negative environmental impact. We evaluated the physical and chemical conditions to break the carbon links and foster molecular interactions into a process that results in either useful products or harmless substances that are disposable. We proposed a novel technique to quantitatively evaluate the reduction in the quantity of carbon bonds in a sample by direct radiation without plasma thermal action. This makes it possible to generate gasification mechanisms that could produce harmless gaseous products in an energy transformation process. Plasma radiation energy production is based on the interaction between microwave radiation passing through absorbing antennas. At high temperatures, a thermal activity occurs during this interaction, with the absorbing antennas acting as electromagnetic sinks and an action-reaction process generating plasma energy that is released to the surroundings as a thermal dart and radiation. Liquid samples under assay was exposed by using plasma radiation component of this source only; passing the sample through a filter simultaneously, in which we introduce the concept of mechanical disaggregating system. This system acts as a digester by transforming carbon molecules and other substances into less polluting compounds. We used a mixture of cyanide dissolved in water as an assay sample, coming from a mine waters, which was subjected to the plasma radiant component and studied this energy generated acting over the purification and transformation of samples.