The Science of Non-combustion:
For common combustion to occur, fuel must be heated to a critical temperature in the presence of oxygen. At this critical temperature, the fuel absorbs energy and breaks down into vapors. These vapors subsequently bind with oxygen to release energy in the form of heat, which is common combustion.
When fuels reach their critical temperature in the absence of oxygen, they still break down into vapors. However, without oxygen, the fuel has nothing to bind to. Therefore, energy is not released and combustion does not occur. This produces a thermal decomposition of the fuel without combustion.
MSolTec Pyrolysis Technology:
At the core of our technology is a non-combustion chemical decomposition science known as pyrolysis. Our unique technology naturally unlocks the intrinsic energy stored in organic materials by breaking down their complex chemistry into well known, simpler components. We achieve this by applying our technology to indirectly subject organic materials to their critical temperature, which causes them to thermally decompose into simpler components. But, since we deprive the materials of oxygen, combustion is inherently inhibited. These components are cooled, isolated and separated, and then used in applications appropriate to their respective chemistry.
Fuel components that are stable as gasses, like methane and hydrogen, are well suited for clean power generation and as environmentally friendly transportation fuels. Liquid fuels are also well suited for power generation and as transportation fuels, but also offer themselves effectively as a sustainable source over crude oil for the petrochemical industry.
Our goal is to provide an environmentally responsible way of converting organic sources into clean electricity and stabilized organic materials. Organic materials include many natural sources which vary from algae and wood, to waste streams like Municipal Solid Waste (MSW) and Biosolids. Any sustainable organic compound is a welcome material to our technology.
For common combustion to occur, fuel must be heated to a critical temperature in the presence of oxygen. At this critical temperature, the fuel absorbs energy and breaks down into vapors. These vapors subsequently bind with oxygen to release energy in the form of heat, which is common combustion.
When fuels reach their critical temperature in the absence of oxygen, they still break down into vapors. However, without oxygen, the fuel has nothing to bind to. Therefore, energy is not released and combustion does not occur. This produces a thermal decomposition of the fuel without combustion.
MSolTec Pyrolysis Technology:
At the core of our technology is a non-combustion chemical decomposition science known as pyrolysis. Our unique technology naturally unlocks the intrinsic energy stored in organic materials by breaking down their complex chemistry into well known, simpler components. We achieve this by applying our technology to indirectly subject organic materials to their critical temperature, which causes them to thermally decompose into simpler components. But, since we deprive the materials of oxygen, combustion is inherently inhibited. These components are cooled, isolated and separated, and then used in applications appropriate to their respective chemistry.
Fuel components that are stable as gasses, like methane and hydrogen, are well suited for clean power generation and as environmentally friendly transportation fuels. Liquid fuels are also well suited for power generation and as transportation fuels, but also offer themselves effectively as a sustainable source over crude oil for the petrochemical industry.
Our goal is to provide an environmentally responsible way of converting organic sources into clean electricity and stabilized organic materials. Organic materials include many natural sources which vary from algae and wood, to waste streams like Municipal Solid Waste (MSW) and Biosolids. Any sustainable organic compound is a welcome material to our technology.