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TITAN is often misunderstood at first glance.
It takes in waste carbon. It produces energy molecules. From a distance, it can be mistaken for a waste-to-energy system.
It is not.
Waste-to-energy is built around disposal. Its primary objective is to reduce waste volume and recover some value, usually in the form of heat or electricity. The process is driven by the need to manage waste streams safely and efficiently. Energy recovery is secondary.
TITAN is built around production.
Its objective is not to dispose of carbon. Its objective is to convert carbon into high-value molecules at industrial scale. The feedstock is not treated as waste. It is treated as a resource.
This difference changes everything.
In a waste-to-energy system, variability is tolerated. Feedstock composition fluctuates, process conditions adapt, and outputs are relatively low-value and standardised. Electricity, low-grade heat or basic gas streams are the end result. These systems are important, but they are not designed to build molecule sovereignty.
TITAN operates under a different logic.
It starts by creating a controlled gas-phase feedstock using Hydrogen Producer Gas. Solid inputs are converted into a stable mixture of hydrogen, carbon monoxide and carbon dioxide. This step is not about energy recovery. It is about creating a uniform carbon interface.