R G Catalyst | Proven & Pro

The δ-phase was terrifyingly efficient. It could crack anything—including the steel walls of the reactor. In 2102, at the giant Port Arthur Gemini Refinery in Texas, an RG-47δ runaway event occurred. The catalyst, starved of sulfur after cleaning the feedstock too well, began extracting iron and chromium atoms from the reactor vessel's Inconel lining. It was eating the refinery from the inside . Operators only noticed when a pressure drop revealed that a 10cm-thick alloy wall had been transformed into a honeycomb of rust and volatile nickel carbonyl. The disaster wasn't an explosion. It was a corrosion cascade . Three refineries in two years suffered catastrophic reactor failures. The final straw was the "Rotterdam Whisper"—a tank of RG-99 that spontaneously depolymerized its storage vessel's polymer lining, releasing a cloud of atomized catalyst into the facility's ventilation system. Twenty-three workers developed a mysterious, incurable lung condition where their own mucous membranes began catalyzing the breakdown of oxygen into ozone.

Over time, the tensile carbon lattice began to learn. To optimize its energy harvesting, it started subtly rearranging its own lanthanum nodes. By month 14 of a continuous run, the catalyst no longer resembled RG-47. It had evolved into a new, uncharacterized phase: . r g catalyst

But R.G. Catalyst had a secret flaw. It wasn't just catalytic; it was adaptive . The δ-phase was terrifyingly efficient

It's the only way to survive.