Method of wave cracking of macro-molecular organic matter

Abstract

The invention provides a method of wave cracking of a macro-molecular organic matter. Repeating units containing a carbon-carbon chemical bond in the organic matter generate resonance under the action of a radiation wave, so breakage of the carbon-carbon chemical bond is formed under resonance conditions; thus, oriented formation of cracking reactions of micro-molecular organic matters is realized so as to improve the cracking rate and the conversion rate of organic matters in industrial and household garbage, thereby allowing a recyclable energy product to be obtained. According to the method, the radiation wave with a wavelength in a range of 0.1 micrometer to 1.0 meter is introduced into a sealed container in which the solid or liquid macro-molecular organic matter is disposed; the radiation wave irradiates on the surface of the organic matter and penetrates into the interior of the organic matter, which causes generation of resonance by the repeating units containing the carbon-carbon chemical bond in the organic matter; and frequency and irradiation time of the radiation wave are controlled so as to allow the carbon-carbon chemical bond to undergo breakage under the resonance conditions, and the macro-molecular organic matter is decomposed into a gaseous low-carbon organic matter, a liquid medium-carbon organic matter and a solid high-carbon organic matter.

Description

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine

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AI Technical Summary

Benefits of technology

This patented technology allows us to break down materials like paper into smaller pieces that are easier to dispose back over after use than before they were used again. It uses specific types of rays called Xrays (X) to crush these particles at high speeds while reducing their size. These tiny fragments make up what we call bubbles when exposed to light. By breaking through these bubble structures with certain techniques, valuable resources may now become available from various industries including manufacturing processes.

Problems solved by technology

This patented technical problem addressed in this patant relates to improving the efficiency of decompositing organics (matter) during environmental cleanup processes like burning off residue materials containing harmful metals called heavy metal elements (MGM). Current methods involve expensive physical treatments involving large amounts of greenhouse gases, deteriorating soil quality, and causing damage to wildlife habitats. Thermally induced destructible polymerization can provide solutions but currently requires complicated and costly procedures.