Waste to Value Technology · Model First, Invest Later

Unlock the untapped value in your waste streams.

NZP uses your actual waste data to model what high-value products your streams could generate — hydrogen, SAF, syngas — and the economics behind them. Model first, invest later.

Book a 20-minute demo See the platform →

No cost. No commitment. Just your data, run through the platform.

— Syngas Optimisation Platform · Project View

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

↑ 99.999% purity

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

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.

Upload or configure your waste profile

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

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.

Run commercial and sensitivity analysis

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

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 (99.999% purity)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%

Output Pathways

One platform. Multiple high-value outputs.

The platform models all viable output pathways from your feedstock. You choose the mix based on offtake availability and commercial priorities — not fixed engineering assumptions.

Green Hydrogen

Model hydrogen yield, purity and commercial value from your specific waste stream. Compare electrolysis alternatives — and show why a 24/7 feedstock-to-H₂ pathway beats intermittent solar-powered electrolysis on economics.

€3–6 / kg 99.999% purity 24/7 baseload Industrial offtake ready

️ Sustainable Aviation Fuel

Model SAF yield via Fischer-Tropsch synthesis from your syngas output, with a major energy company offtake agreement as the backstop. 80 million gallons per year at 1,000 TPD scale. ASTM D7566 certified pathway.

$3–5 / gal premium Offtake partner secured 80M gal/yr scale Drop-in fuel

Power Generation

75% self-powered operation with 25% exportable surplus. Add power generation as a Phase 1 revenue stream — no Fischer-Tropsch synthesis required. Immediate commercial return from commissioning.

Baseload renewable 75% self-powered Grid export revenue Lowest CAPEX path

RNG / Syngas

Model pipeline-quality renewable natural gas or industrial syngas outputs. Triple revenue from RFS credits, LCFS credits and gas commodity pricing. Direct pipeline injection using existing infrastructure.

RFS credits LCFS premium Existing grid Vehicle fuel ready

How We Work

A phased journey — at your pace, on your terms

We don't lead with technology evangelism. We lead with a no-cost, no-commitment modelling conversation using your actual waste data. Then we walk with you through each decision point.

Digital Modelling

Input your waste data — types, volumes, composition. The NZP platform models potential outputs, commercial value and project economics. See what's possible before touching a spreadsheet.

No cost · No commitment

Site Optimisation

Use the platform to identify quick-win improvements on your existing sites and processes. Increase incineration efficiency or improve waste sorting economics before bigger moves.

Low capital · Fast return

Stepwise Adoption

Build confidence with phased or hybrid technology deployment. Pilot gasification pathways alongside existing operations. Reduce risk. Build stakeholder confidence.

Proven pathways

Full Offtake Delivery

Scale to full production of hydrogen, SAF or syngas with credible, already-contracted offtake, gasification, Fischer-Tropsch and Haber-Bosch partners. The full delivery chain is covered.

Offtake partners secured

Why This Approach Works

Commercial clarity before capital commitment.

The sector has a long history of capital deployed ahead of commercial logic. NZP inverts that sequence entirely.

The waste-to-energy sector has destroyed billions in shareholder value. Major institutional investors have written off hundreds of millions across biomass and energy-from-waste plants. Established waste operators have exited the sector entirely after flagship facilities returned a fraction of their original capital commitment.

The failure mode is always the same: capital-first decisions made without adequate commercial modelling. Build first, hope the economics follow.

NZP inverts that sequence. Model the economics first. Validate the pathway with real data. Then deploy capital — in phases, with offtake already secured.

Old approach

Commission consultants to build a case
️ Commit £100M+ upfront before proof of yield
Watch economics shift during 3-year build cycle
Single-product dependency, no offtake optionality

NZP approach

Model with real waste data — no cost, no commitment
Modular Phase 1 from €15–25M — prove before scaling
Dynamic output mix — pivot as markets evolve
Offtake, F-T and Haber-Bosch partners in place — full value chain covered

"Our tool lets you explore that journey digitally before any capital commitment — model first, invest later. And when you're ready to move, the offtake and delivery partners are already at the table."

Mark Evans-Smith, NZP Commercial Lead

Who It's For

Built for the people who make the commercial call.

The NZP platform speaks to commercial and financial decision-makers first — the people who need to understand the economics before they can take a technology conversation to the board.

Waste Operators & Local Authorities

Understand the hidden commercial value in your existing waste streams without committing capital. Explore whether your volumes and mix can support a hydrogen or SAF pathway.

Book demo →

Infrastructure Investors & CFOs

Get investor-grade project economics from real feedstock data. Understand payback timelines, revenue diversification, capex phasing and downside scenarios — before the term sheet.

View financial model →

Strategic Partners & Developers

Use the platform to structure a viable project before approaching the engineering phase. Connect modelling outputs to our offtake, Fischer-Tropsch and Haber-Bosch delivery partners and establish the commercial logic for lenders.

Explore partnership →

Track Record

25+ years of commercial deployment. Not a pilot project.

The NZP platform is backed by three decades of real commercial deployment — not laboratory promises. This is what de-risks the conversation with investors, boards and regulators.

200+

Plasma systems operating worldwide

25+

Years proven commercial operation

10,000°C

Operating temperature — vs 1,200°C for conventional gasification

99.99%

Waste destruction efficiency

5–8 yrs

Payback period — multiple revenue streams

76%

EBITDA margins — full revenue mix

US Navy — USS Gerald R. Ford. Deployed since 2013.

If it's safe enough for an aircraft carrier, it's proven. The ultimate independent validation for technology and safety.

Independent Validation

Reviewed, approved and deployed by the world's most demanding authorities.

Our technology has been reviewed and approved by some of the most rigorous engineering and regulatory bodies in the world. That's what makes the commercial case credible to investors and partners.

️

Major Energy Offtake Partner — Signed Agreements in Place

A major European energy company is engaged as our offtake partner with signed agreements in place. Their due diligence validates the technology, commercial model and delivery pathway for SAF at scale.

US Navy & DoD Deployment

Deployed on USS Gerald R. Ford since 2013. Department of Defense safety and performance certification. The highest-stakes independent proof of operational reliability.

️

US EPA & Regulatory Validation

Reviewed and approved by the US EPA Office of Solid Waste, California Integrated Waste Management Board, Los Angeles and Dallas-Fort Worth municipal authorities.

Hitachi / Westinghouse Partnership

Equipment supply partnership with Hitachi/Westinghouse — backed by 25+ years of Japanese municipal facility operation since 2000. Proven supply chain and component reliability.

Global FMCG Consortium — Feedstock Modelling Underway

We are working with a global consortium of FMCG producers to recover commercial value from food and beverage manufacturing waste streams — including spent grain from beer production, dairy and ice cream waste, and other high-volume organic byproducts. Real feedstock data. Real modelled economics. Across multiple sectors simultaneously.

InEnTec Heritage — CTO Richard Malsby

Senior team includes InEnTec veterans. CTO Richard Malsby brings decades of gasification experience including ex-US government roles. Technology maturity: TRL 8–9. Not TRL 6 demos.

The Team

Built by people who've done it before.

Over 25 years of combined commercial deployment, capital markets experience and deep technology expertise — the NZP team has operated at the highest levels of industry and government.

Kevin Doyle

Chairman

✦ Dot-com era exit veteran — £2.4B transaction experience

✦ Former Chase Manhattan — capital markets architect

✦ Built and exited multiple technology ventures

✦ Brings the commercial framework NZP is built on

Jonathan Watt

Chief Executive Officer

✦ Leads NZP commercial strategy and partner development

✦ Deep expertise in energy infrastructure delivery

✦ Project finance and waste-to-value sector specialist

✦ Europe and Middle East deal execution experience

Mark Evans-Smith

Chief Growth Officer

✦ Drives market development and strategic partnerships

✦ Investor relations and business development lead

✦ Extensive UK and European energy sector network

✦ AI and technology ecosystem integration expertise

Richard Molsbee

Chief Technology Officer

✦ InEnTec veteran — UHTMG gasification pioneer

✦ Ex-US government gasification programme roles

✦ Decades of plasma arc system deployment

✦ TRL 8–9 — commercial systems, not lab demos

The Technology

We are, at our core, a plasma company.

UHTMG — UHTMG Technology — is the moat. The software makes it accessible. The combination is what no competitor can replicate.

What Is It

UHTMG

UHTMG Technology
Ultra-High-Temperature, Modular Gasification Technology

At its simplest: we use an electric plasma arc 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 Plasma to Product

The full delivery chain — and why every link is already partnered

️

Waste In

Any type
Any moisture
No sorting

→

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

Gasification, Fischer-Tropsch, Haber-Bosch and offtake partners are all in place. NZP does not sell components — we deliver the full chain.

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

This is the moat question. The answer is: they can try, but it takes 25+ years of operational learning to do it safely, reliably and commercially.

⏱️ Time

200+ 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 are InEnTec veterans — the pioneers of commercial plasma gasification. CTO Richard Malsby: decades in gasification, ex-US government. This expertise is not on a hiring platform.

Partners

Equipment supply through Hitachi/Westinghouse. Synthesis partners for F-T and Haber-Bosch. Offtake agreements in place. Building these relationships from scratch takes years — and they're already ours.

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.

FAQ

The questions we always get asked.

Straight answers. No chemistry lectures.

UHTMG — Ultra-High-Temperature, Modular Gasification Technology — uses a plasma arc to generate temperatures exceeding 10,000°C inside a sealed chamber. At these temperatures, any organic material is completely broken apart at the molecular level. The output is clean synthesis gas (syngas) — hydrogen and carbon monoxide — plus an inert, vitrified slag. No ash, no dioxins, no residue. The technology has been operating commercially for 25+ years across 200+ systems globally.

Traditional waste-to-energy projects commit £100M+ of capital before the economics are validated. NZP inverts that. Our software platform lets you input your actual waste data and see the full commercial model — yields, revenue mix, payback period, carbon credits — before a single pound is committed. Only when the numbers make sense do you move to the investment phase, with offtake partners already in place.

The platform supports hundreds of feedstock profiles — municipal solid waste (MSW), industrial waste, agricultural residues, spent grain, tyres, medical waste, PFAS-contaminated materials, and mixed industrial streams. Unlike conventional gasification, UHTMG requires no pre-sorting, no pre-treatment, and no specific calorific value. You bring your waste stream; the model handles the chemistry.

PFAS "forever chemicals" contain carbon-fluorine bonds — the strongest bonds in organic chemistry. Breaking them requires sustained temperatures above 10,000°C. Every competing technology — incineration, pyrolysis, hydrothermal processing — falls short. Only plasma arc gasification operating at UHTMG temperatures completely mineralises PFAS compounds into stable, inert substances. This is a rapidly growing regulatory obligation affecting thousands of industrial operators across 50+ countries.

The syngas produced by UHTMG is a configurable feedstock. Depending on the project economics and offtake agreements, it can be converted into: green hydrogen (via separation), sustainable aviation fuel or SAF (via Fischer-Tropsch synthesis), ammonia (via Haber-Bosch), renewable natural gas, or direct electricity generation. The NZP platform models all pathways simultaneously so you can compare the economics of each output scenario before committing.

NZP structures projects in four phases: (1) Software modelling — validate your waste stream and commercial case using our platform; (2) Pilot — deploy a modular unit at demonstration scale to prove yield with real feedstock; (3) Commercial — scale to full commercial throughput with offtake already contracted; (4) Expansion — replicate the model across additional sites or waste streams. Capital is deployed at each phase gate only when commercial milestones are met.

Equipment is supplied through Hitachi Energy and Westinghouse — two of the world's leading industrial technology groups. Fischer-Tropsch and Haber-Bosch synthesis partners are in place for downstream conversion. Offtake is contracted with a major energy partner (not named publicly at this stage). The full back-end of the value chain is covered — NZP brings the waste stream, the software, and the commercial architecture.

Sustainability & ESG

Every tonne of waste is a tonne of carbon avoided.

Plasma gasification doesn't just create value from waste — it eliminates the downstream carbon, landfill liability and toxic legacy that conventional disposal leaves behind.

Carbon Impact

Every tonne processed replaces fossil-derived energy and avoids landfill methane — a greenhouse gas 80x more potent than CO₂ over 20 years. NZP projects qualify for verified carbon credits across multiple registries, creating a secondary revenue stream that strengthens project economics.

PFAS Elimination

Plasma arc temperatures above 10,000°C are the only commercially proven method to completely destroy PFAS "forever chemicals" — breaking the C-F bond that no incineration or landfill system can touch. With 50+ countries now regulating PFAS disposal, this capability is rapidly becoming a mandatory requirement for waste operators.

Circular Economy

Waste enters the system and exits as hydrogen, SAF, power or construction-grade vitrified slag — nothing goes to landfill. The circular loop is complete: industrial waste becomes aviation fuel, green hydrogen or base materials, with zero residue requiring disposal and a byproduct that generates its own revenue.

UK Net Zero 2050 Alignment

NZP technology directly supports the UK's legally binding net zero 2050 target and the government's Sustainable Aviation Fuel mandate — 10% SAF blend by 2030, rising to 22% by 2040. Every NZP facility is a piece of that infrastructure.

PFAS Regulatory Wave

The EU PFAS restriction proposal covers over 10,000 substances. US EPA PFAS regulations are already in force. Waste operators face mounting liability — NZP provides the only technically validated destruction pathway at commercial scale.

ESG Reporting & Scope 3

Major corporations face increasing Scope 3 emissions obligations. Partnering with NZP allows FMCG producers and waste generators to demonstrate measurable, auditable waste diversion — with verified carbon outcomes that map directly to ESG disclosure frameworks.

Get started

Model first.
Invest later.

Bring your waste data to a 20-minute 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.