How does our technology work?

Molecular disintegration refers to the breaking down of chemical bonds within molecules, resulting in the formation of smaller, simpler compounds. Thermal treatment methods involve exposing the molecules to high temperatures, causing them to break down into smaller compounds. High temperature thermal decomposition refers to a process of breaking down organic or inorganic materials at very high temperatures, usually above 700 degrees Celsius. The process involves applying heat to the material in the absence of oxygen to produce simpler compounds, such as gases and solids. In the absence of oxygen, the process is known as pyrolysis. Pyrolysis involves heating the material to high temperatures without any contact with air, which prevents combustion. This process produces gases, such as methane, hydrogen, and carbon monoxide, as well as solids. High temperature thermal decomposition has many benefits, such as reducing waste volume and producing energy from waste. However, it can also release harmful pollutants into the atmosphere if not carried out in a controlled manner, which can have negative impacts on human health and the environment. Therefore, it is important to carry out these processes under strict regulations to ensure that they are safe and environmentally sustainable. Overall, molecular disintegration can be an effective way to reduce the volume of waste in landfills, generate renewable energy, and reduce greenhouse gas emissions. However, it is important to ensure that these processes are carried out in a safe and environmentally sustainable manner to minimize their potential negative impacts.