A predictive modelling tool that quantifies the commercial case from your real waste data — and a plasma gasification system that delivers exactly what the model predicts. One integrated platform. Bankable outcomes.
Four steps from your waste profile to an investor-ready project case — no consultants, no chemistry lectures, no heroic assumptions.
Define feedstock types, volumes, moisture content and composition — or work from typical industry profiles for your sector.
Compare hydrogen, SAF, syngas and power output scenarios side-by-side. See how yield, revenue mix and economics change with each configuration.
Adjust gate fee assumptions, offtake prices, capex phasing and carbon credit values. The platform recalculates in real time.
Generate decision-ready summaries for internal stakeholders, boards or project finance teams — without a consultant in the loop.
The software models it. The hardware delivers it.
We don't just process waste — we model it first. Our proprietary software analyses feedstock behaviour and directly configures our gasification system to deliver predictable, optimised outputs. The hardware is proven. The software is the control layer. Together, they remove uncertainty from waste-to-value and turn variable inputs into a bankable asset.
The software and the gasification system are not separate products. They are a single integrated system. The model configures the machine. The machine delivers what the model predicted.
The same operating envelope that underwrites 200+ submerged arc deployments in global steelmaking. Reformer-grade reliability, modelled conservatively, delivered to spec.
We do not lead with a single purity headline. We model your offtake spec, then configure the membrane and pressure-swing adsorption (PSA) train to deliver it. The CAPEX and OPEX deltas are surfaced in the modelling run before any commitment.
Every parameter set by the model — feedstock profile, output pathway, process configuration — is executed here. We use a submerged arc plasma system to generate temperatures exceeding 10,000°C inside a sealed chamber. At those temperatures, every organic molecule is completely broken apart at the atomic level.
What comes out is clean synthesis gas (syngas) — a mixture of hydrogen and carbon monoxide — plus a vitrified, glass-like slag from the inorganic materials. No ash. No dioxins. No tar. No residue requiring landfill.
The syngas feeds everything downstream: hydrogen, SAF via Fischer-Tropsch, ammonia via Haber-Bosch, renewable natural gas, or direct power. The process is modular. The output is configurable.
The temperature differential is not incremental. It is a fundamental physical difference that competing technologies cannot overcome through engineering optimisation alone.
The model configures the machine. The machine delivers what the model predicted. Every downstream partner is already contracted. NZP delivers controlled, predictable outcomes.
NZP holds US Patent 10,435,295. The patent protects core claims on the integration of software-based predictive modelling with plasma gasification system configuration — the central mechanism that makes bankable outcomes possible from variable feedstock inputs.
Software-hardware integration claims covering the direct configuration of gasification parameters from modelling outputs
Feedstock-to-output pathway modelling with real-time reconfiguration capability
Commercially validated through 200+ generation-one system deployments globally
Bring your waste data to a platform demo — and we'll show you exactly what your streams could generate, and the economics behind it. No consultants. No commitment. No chemistry lecture.
Offtake, gasification, Fischer-Tropsch and Haber-Bosch partners are already in place — the back end of the value chain is covered.