Waste to Value Technology  ·  Model First. Process Second. Deliver with Certainty.
UK ETS expands to EfW — January 2026. Carbon liability is already on the clock.

From waste liability to engineered, bankable outcome.

Our platform models your feedstock, quantifies its value across multiple offtake pathways, and directly configures our system to deliver predictable outputs—before any capital is committed.

Real data in. Clear commercial answers out.

Waste Operators
Disposal costs are rising. Your contracts aren't. We change the arithmetic.

UK landfill tax £126/t and rising. EfW gate fees climbing. Mid-tier collectors are price-takers in a disposal market they don't control. We model your stream across six revenue pathways — H₂, SAF, power, carbon — and show you the bankable case before you commit.

Liability Holders
Model the exit before you sell the problem.

Coal ash, PFAS, legacy tailings — we model the offtake value, quantify what's bankable, and engineer the route to a cleared balance sheet.

Investors
Bankable commercial case. Before capital is on the table.

Run the project through the platform at no cost. See H₂ yield, EBITDA, payback period, and offtake configuration — before the first pound is deployed.

Reformer Operators SIDECAR
Hedge your hydrogen. Sidecar, not replacement.

For ammonia, fertiliser, chemicals and merchant H₂ producers running SMR or ATR. NZP supplies spec-compliant H₂ alongside your reformer. We carry feedstock, logistics and availability risk. You contract on €/kg and uptime — not narrative. See the sidecar model →
Model your waste → Speak to the Team

Any material. Any composition. Modelled first. Delivered with control.

Most technologies process waste.
We model it first.

  • Every deployment starts with your real feedstock data — not assumptions, not industry averages.
  • The commercial case is quantified and agreed before any capital is committed.
  • Software directly configures hardware. What we model is what we deliver.

Model first. Process second. Deliver with certainty.

— Syngas Optimisation Platform · Project View
Project Inputs
Feedstock type
Mixed commercial waste
Daily volume
850 tonnes / day
Target output
Hydrogen + Power
Deployment phase
Phase 1 → Phase 2
Scenario note
Payback of 5.8 years based on blended gate fee + offtake assumptions. Offtake partner path available.
H₂ Yield
72 kg/t
↑ Configured to offtake spec
EBITDA
74 %
↑ Gate fees + product
Payback
5.8 yrs
↑ Modular deployment
Scenario comparison — Revenue mix
H₂ only
H₂ + Power
SAF + H₂
Full mix
Commercial outputs
Gate fees€140 / tonne
SAF offtakeMajor partner — secured
Power profileBaseload, 24/7
Carbon creditsEligible
DeploymentPhased
How It Works

Four steps. Data in. Bankable outcome out.

01
Upload

Share your feedstock data — composition, volume, location. No proprietary format required.

02
Model

The platform runs every offtake pathway — H₂, SAF, power, carbon — against your actual data and quantifies each commercial outcome.

03
Configure

The software directly configures our plasma system for your feedstock. The model drives the hardware specification — no guesswork.

04
Deliver

We deploy. The outputs you modelled are the outputs you receive. Predictable, bankable, contractable.

Backed by & working with
ALTERNRG SMS GROUP TENOVA GE VERNOVA SIEMENS AIR PRODUCTS AIR LIQUIDE AON BP MARATHON PETROLEUM TENASKA BIOFUELS MAJOR ENERGY OFFTAKE PARTNER
What We Sell

Three ways to work with NZP.

We are not a consultancy, and we are not purely a technology licensor. We are a project structuring and delivery platform — with three distinct entry points depending on where you are.

Entry point 01

Model your stream

Free platform access. Input your waste data — types, volumes, composition — and get investor-grade commercial outputs. No cost, no commitment, no consultant required. Most clients start here.

For: waste operators, local authorities, feedstock partners
Entry point 02

Structure a project

NZP takes your waste stream from modelling to a fully-financed, operating plant. We bring the engineering, offtake, synthesis and financing partners. You bring the feedstock. Capital only deploys when the numbers are proven.

For: infrastructure investors, project developers, offtake partners
Entry point 03

Transfer a liability

For coal, IBA and PFAS operators: NZP structures a liability transfer agreement. Your open-ended regulatory obligation becomes our feedstock. You exit the liability and stop paying. We convert it into syngas, metals and vitrified slag.

For: coal operators, mine owners, IBA holders, PFAS-obligated sites

Not sure which applies? Start with a free model run — no commitment required. Book a demo →

Wondering what the system actually produces? See all output pathways →

How We Work

A capital commitment ladder — not a leap of faith

You don't commit real capital until Model 4. Everything before that is intelligence-gathering, de-risking, and building the commercial case at your pace.

01
Model

Your waste data — types, volumes, composition — run through the NZP platform. Real output scenarios, commercial value and project economics. See what's possible before touching a spreadsheet.

No cost · No commitment
02
Optimise

Quick-win improvements on existing sites and processes. Increase incineration efficiency or improve waste sorting economics before any larger moves. Minimal capital outlay.

Minimal capital · Fast return
03
De-risk

Pilot gasification pathways alongside existing operations. Build stakeholder and board confidence with phased deployment before any full capital commitment.

No capital leap required
04
Invest

Only here does real capital deploy — and offtake is already contracted. Scale to full production of hydrogen, SAF or syngas with the full delivery chain already in place.

Capital deployed · Offtake secured
The Platform

Real data in. Clear commercial answers out.

Four steps from your waste profile to an investor-ready project case — no consultants, no chemistry lectures, no heroic assumptions.

1

Upload or configure your waste profile

Define feedstock types, volumes, moisture content and composition — or work from typical industry profiles for your sector.

2

Model output scenarios

Compare hydrogen, SAF, syngas and power output scenarios side-by-side. See how yield, revenue mix and economics change with each configuration.

3

Run commercial and sensitivity analysis

Adjust gate fee assumptions, offtake prices, capex phasing and carbon credit values. The platform recalculates in real time.

4

Export investor-grade outputs

Generate decision-ready summaries for internal stakeholders, boards or project finance teams — without a consultant in the loop.

Commercial Summary — 850 TPD Mixed Commercial Waste
Annual gate fee revenue£43.7M
H₂ output (configured to spec — Industrial / Chemical / UHP)22,300 tonnes/yr
SAF offtakePartner secured
Carbon credits (est.)£8.1M/yr eligible
Phase 1 capex€15–25M modular
Payback period5.8 years
EBITDA margin74%

The software models it. The hardware delivers it.

Act 2 — The Execution Engine

UHTMG: the hardware that delivers what the model predicts.

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.

How the system works

Model first. Process second.
What is modelled is what gets delivered.

01
Ingest
Client uploads waste data
Any format, any composition
No pre-processing needed
02
Model
Platform simulates feedstock behaviour
and output scenarios
Syngas, H₂, SAF modelled live
03
Optimise
Commercial outcomes calculated
across selected offtake pathways
Bankable outputs produced
04
Execute
Model directly configures
the gasification system
to match feedstock profile

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.

What Is UHTMG
UHTMG

UHTMG is the execution engine of our modelling platform.
Ultra-High-Temperature, Modular Gasification Technology

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 — comparable to the surface of the sun — inside a sealed chamber. Waste goes in. 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 is the feedstock for everything that follows: hydrogen, SAF via Fischer-Tropsch synthesis, ammonia via Haber-Bosch, renewable natural gas, or direct power generation. The process is modular. The output is configurable. The underlying physics are unbeatable.

10,000°C
NZP Plasma Arc Operating Temperature
1,200°C
Conventional gasification
800°C
Pyrolysis systems

The temperature differential is not incremental. It is a fundamental physical difference that competing technologies cannot overcome through engineering optimisation alone.

UHTMG Technology — In Operation
From Data to Delivered Product

The full system — from feedstock data to contracted product

📊
Waste Data In
Any type
Any composition
Client's real data
Model &
Configure
Software models output
System configured
to match profile
Plasma Arc
Gasification
10,000°C
Submerged arc
NZP core IP
Clean Syngas
99% yield
50–55% H₂
Zero tar
Synthesis Partners
Fischer-Tropsch (SAF)
Haber-Bosch (NH₃)
H₂ separation
Offtake Partners
Contracted
Back-end
covered

The model configures the machine. The machine delivers what the model predicted. Every downstream partner — Fischer-Tropsch, Haber-Bosch, offtake — is already contracted. NZP does not sell components. We deliver controlled, predictable outcomes.

How NZP compares — and where we fit alongside existing technology decisions

We're not asking you to change your technology decision. We're offering to strengthen the financial model around it.

vs lower-temperature alternatives
  • ·Single-step gasification vs two-step processes — fewer failure points, lower operational complexity
  • ·CO₂ is retained as CO — a high-value syngas component, not emitted as waste
  • ·Proven commercial deployments globally vs emerging track records elsewhere in the market
  • ·Higher syngas yield per tonne input — directly improves project economics
High-temperature plasma expertise
  • ·Submerged arc plasma reaches 10,000°C+ — same temperature range as the most advanced commercial plasma systems, deployed at scale
  • ·NZP's team brings applied experience across Toxco and Hanjung commercial programmes
"We're not changing your existing technology decision. We're offering to strengthen your financial model."

Why can't someone else just build the same thing?

This is the moat question. The answer is: they can try, but they face four compounding gaps they cannot close quickly.

⏱️ Time

200+ generation-one systems. 25+ years of commercial operation. Process control, electrode management, chamber geometry, slag handling — this knowledge base cannot be acquired quickly.

People

Our senior technical team brings deep experience across commercial and government sectors — with decades in plasma gasification and ex-US government programme roles. This expertise is not on a hiring platform.

Partners

Equipment supply through submerged arc furnace technology (steel industry supply chain) and SMS/Tenova; power equipment through GE Vernova and Siemens; gas handling through Air Products and Air Liquide; synthesis partners for F-T and Haber-Bosch; insurance through AON; fuel buyers including BP, Marathon Petroleum, Ecoenergy, Mansfield Oil and Tenaska Biofuels. Offtake agreements in place. Building these relationships from scratch takes years — and they're already ours.

🔗 Integration

The real moat is not hardware or experience in isolation — it is the integration of predictive modelling with real-time process configuration. Competing technologies cannot reliably achieve consistent outputs from variable inputs. And every feedstock dataset run through our platform makes the model more accurate. A competitor starting today faces a hardware gap, a people gap, a partner gap, and a data gap. That advantage compounds.

Commercials

Why It Matters Commercially

Four capabilities that translate directly into competitive commercial advantage — and that competing technologies simply cannot match.

PFAS Destruction — the £multi-billion problem only we can solve

PFAS "forever chemicals" contain C-F bonds — the strongest bonds in organic chemistry. They require temperatures above 10,000°C to break. Every competing technology falls short. Only plasma arc gasification completely mineralises PFAS into stable, inert compounds. This is a rapidly growing regulatory obligation worth billions in addressable market.

Any waste. No sorting. No pre-treatment.

Ultra-high temperature tolerates moisture above 50%, mixed plastics, hazardous waste, medical waste, food, biomass — as received, without expensive drying or sorting. Competitors require costly pre-treatment infrastructure (€5–15M CAPEX) and still only accept narrow feedstock profiles. Our flexibility is a direct cost advantage.

Zero tar. 99% syngas yield. Cleanest feedstock in the industry.

Complete molecular dissociation at plasma temperatures prevents tar formation entirely — the Achilles heel of conventional gasification. Our syngas is 50–55% H₂, 45–50% CO, with no contamination. That purity is what makes downstream Fischer-Tropsch, Haber-Bosch and hydrogen separation economically viable at scale.

Vitrified slag — waste becomes a construction asset

Inorganic materials — metals, glass, minerals — melt into a dense, glass-like vitrified slag. Non-leaching. Construction-grade aggregate. Competitors produce ash that requires hazardous waste disposal (ongoing OPEX cost). Our slag generates a byproduct revenue stream and eliminates a disposal liability.

Get started

Model first.
Invest later.

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.

Platform Licence
Software for your existing site, available today — no technology change required.
Joint Venture
NZP technology combined with your planning pipeline and site access.
Offtake Integration
Plug your H₂ output directly into NZP's contracted network — no separate negotiation required.
Pipeline Partnership
NZP as technology partner across your UK portfolio — structured to scale.
How a modelling run works
Week 1
Share your waste profile and composition data
Week 2
NZP delivers modelled scenarios across all output mixes
Week 3
Review investor-grade outputs with your finance team
ESG & Regulatory Signals
✓ Verified carbon credits on every tonne processed ✓ Only commercially proven PFAS destruction pathway ✓ Scope 3 auditable outcomes for FMCG & waste generators ✓ UK SAF mandate aligned — 10% blend by 2030

We respond within one business day. Your details are never shared.

Offtake, gasification, Fischer-Tropsch and Haber-Bosch partners are already in place — the back end of the value chain is covered.