Zero-X Labs is a German deep-tech engineering firm. We design gas cleaning systems, build smart process controls, and integrate industrial infrastructure that works in the real world — not just on paper.
We're engineers who got tired of seeing good ideas die in PowerPoint. Zero-X Labs exists because industrial gas cleaning, process control, and system integration are too important to be done badly.
Based in Schoenefeld, Germany, our team designs, simulates, builds, and monitors industrial systems from start to finish. We don't hand you a report and walk away — we stay until the system runs, and we keep it running.
Syngapure is our proprietary gas cleaning technology. It strips tar, particulates, sulfur, chlorine, heavy metals, and ammonia from synthesis gas — making it clean enough for power generation, hydrogen production, and chemical processing.
The result: cleaner downstream output, less maintenance, and compliance with the strictest environmental standards. It's built for waste-to-energy, biomass conversion, and decentralized energy — the industries that need it most.
Every project starts with high-fidelity modelling. We run thermodynamic and fluid dynamics simulations in ANSYS before a single component is manufactured — so when the system goes live, it works.
It's more work upfront. But it means fewer surprises on-site, lower risk for our clients, and systems that perform the way they were designed to.
Our ProcessWe don't try to do everything. These are the areas where our team has the deepest expertise — and where we deliver the most value.
Our Syngapure technology removes multiple contaminants from synthesis gas in a single pass. Purpose-built for gasification, combustion, and waste-to-energy plants.
Most industrial facilities run on disconnected systems. We wire them together — sensors, controllers, data platforms — into one intelligent environment.
Our software lets you watch and control distributed assets from anywhere. Predictive alerts, real-time dashboards, and less time spent driving to sites.
Full CAD/CAT technical drawings and system architecture. We design what we build, and we build what we design — no handoff gaps.
ANSYS-based thermodynamic and fluid dynamics modelling. We test every scenario digitally before committing to steel. It saves time, money, and headaches.
Industrial IoT, sensor networks, and analytics platforms that turn raw equipment data into decisions. Not dashboards for their own sake — actual operational intelligence.
Every waste-to-energy plant, every hydrogen facility, every biomass conversion system needs gas that's actually clean enough to use. That's the problem we solve — and we solve it at the source, not downstream.
We work with partners across four sectors where precision engineering and reliable gas cleaning make the biggest difference.
Waste-to-energy systems, biomass conversion plants, decentralized power generation, and hydrogen production infrastructure.
Industrial sensor networks, real-time monitoring platforms, and the data architecture that ties distributed assets together.
Intelligent optimization, automated control systems, and remote management for facilities that can't afford downtime.
Municipal and industrial waste processing, gasification integration, and environmental compliance — from permitting to production.
We visit the site, talk to operators, and map every constraint before we open a design tool. Requirements first, always.
CAD drawings, system architecture, and ANSYS simulation. We test every scenario digitally so there are no surprises at commissioning.
Equipment assembly, sensor deployment, control system wiring, and data infrastructure setup. We're on-site until it's running.
Remote monitoring, predictive maintenance, and continuous optimisation. We don't disappear after handover — we keep the system performing.
Technical perspectives on gas cleaning, process control, and what we're learning as we build industrial systems for a cleaner future. Written by the people who do the work.
First Article Coming Soon →A plain-language look at our gas cleaning technology.
What system integration actually looks like on the ground.
How we manage distributed assets without being everywhere at once.
We work best with teams who know what they need built and want a partner who'll stay until it runs. If that sounds like you, let's talk.