Nano-Sized Effect on Liquid Phase and Their Energy

Household ozone sterilizer testing and oxidation reduction potential (ORP) testing with venturi and dissolved tube were proposed. Comparison of ozone concentration of tap water before and after passing through nine meshes: after passing through nine meshes, bubbles are generated in the tap water. Regardless of the state of matter, such as solids, liquids, and gases, the smaller the matter size from bulk to nano-scale, especially in the quantum region, the more rapid is the energy increase. To this end, this study introduces the concept of a group system, in which atoms behave as one, and this system is reinterpreted as that comprising temperature-entropy (TS) energy in thermodynamic data. Based on this concept, water was passed through various mesh-like dissolved tubes, where the size and energy of the water group system were observed to change. Thereafter, as the scale and number of the meshes increased, the ozone, chlorine, and oxygen constituents, which are closely related to sterilization and washing, are generated, changing the basic water composition. Thus, this nano-size impact is not limited to solids and could facilitate in revolutionizing the future applications in fluids.

Automated summary

The study proposed testing of household ozone sterilizer and ORP, revealing bubbles in tap water after passing through nine meshes. It was observed that smaller matter size from bulk to nano-scale results in rapid energy increase, leading to changes in water group system size and energy. As the scale and number of meshes increased, ozone, chlorine, and oxygen constituents were generated, altering the basic water composition and potentially revolutionizing future applications in fluids.