The Difference

A RADICAL DISRUPTOR

A system designed to do more

Most technologies in this space are built around a single outcome. Anaerobic digestion produces biomethane. Electrolysers produce hydrogen. RiPR is fundamentally different.

RiPR is a flexible gas conversion platform that produces both biomethane and hydrogen from the same process, alongside captured carbon dioxide and biochar. This gives customers immediate flexibility across multiple energy markets, while creating multiple commercial outputs from a single system.

Rather than forcing users to commit to one fuel pathway, RiPR enables decarbonisation today while preserving optionality for the future.

How is Equisera different?

Many existing approaches producing either biomethane or hydrogen face significant technical and commercial challenges. Our RiPR technology takes a radically different path, overcoming many of these barriers by offering a cleaner, more flexible solution that can produce both hydrogen and biomethane, whilst capturing carbon.

Carbon Negative

Our RiPR units are carbon-negative-ready and with a few additional steps will actively remove carbon from the atmosphere

Cost-effective

Hydrogen and biomethane from suitable feedstocks can compete with existing grey and blue hydrogen on price as well as natural gas.

Efficient

Only a fraction of the energy in the feedstock or syngas produced needs to be used to sustain the process

Robust

The process is inherently simple, with minimal feedstock preparation, making it more robust than many alternatives

Adaptable

The technology is flexible in being able to use a wide range of biogenic feedstocks, including waste products

No fossil fuel volatility

 Our RiPR fuels are fossil fuel replacement, so it is free from the price volatility that afflicts those options

Few waste tars or gases

Our RiPR process converts a high proportion of feedstock while producing lower levels of syngas contaminants, unlike many alternatives

Available materials

Our RiPR units are constructed from widely available metals and ceramics, requiring few rare catalyst or process materials

In a busy industry, we’re an outlier

Clear Hydrogen proves that there is a clean energy alternative to fossil fuels that has the potential to compete both on price and emissions.

Grey

Blue

Green

EQUISERA

Affordable

Carbon Neutral

Carbon Negative Ready

Renewable

Efficient

Adaptable

In a busy industry, we’re an outlier

Clear Hydrogen proves that there is a clean energy alternative to fossil fuels that has the potential to compete both on price and emissions.

Grey

Blue

Green

Affordable

Carbon Neutral

Carbon Negative Ready

Renewable

Efficient

Adaptable

DROP-IN TECHNOLOGY

Built for real-world operation

RiPR is engineered for industrial operation using a wide range of wet, mixed biogenic feedstocks, including materials that other technologies struggle to process.

The system does not rely on intermittent renewable electricity, large volumes of fresh water, or scarce catalyst materials. It produces low levels of tars and contaminants, keeping downstream processing simple, robust and cost-effective.

These design choices make RiPR reliable, efficient and well suited to deployment in industrial environments.

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Low angle view of a brick industrial chimney and building against a cloudy sky, showcasing urban architecture.

Feedstock Adaptability

RiPR requires minimal feedstock preparation and can process diverse biogenic materials, from agricultural residues and food waste to municipal and industrial by-products.

This flexibility reduces exposure to feedstock price volatility, avoids competition with food production and allows costs to fall over time as new waste streams are brought into use. It also future-proofs the system against reliance on any single input source.

Waste Sustainable Unsustainable Sewage sludge Brewery effluent Municipal solid waste Plastic waste Agricultural residues Forestry residues Algae Bioenergy crops Primary and secondary forest RiPR

Feedstock Adaptability

RiPR requires minimal feedstock preparation and can process diverse biogenic materials, from agricultural residues and food waste to municipal and industrial by-products.

This flexibility reduces exposure to feedstock price volatility, avoids competition with food production and allows costs to fall over time as new waste streams are brought into use. It also future-proofs the system against reliance on any single input source.

Waste Sustainable Unsustainable /*LABELS*/ Sewage sludge Brewery effluent Municipal solid waste Plastic waste Agricultural residues Forestry residues Algae Bioenergy crops Primary and secondary forest R i P R
/*CIRCLE */ /*CARBON ICONS*/ /*LABELS*/

The Carbon Cycle
THE CARBON CYCLE

How carbon is captured

Carbon in biogenic materials originates as atmospheric carbon dioxide, absorbed through photosynthesis and stored in biomass. In most processes, this carbon is eventually released back into the atmosphere when the material decomposes or is burned.

RiPR interrupts this cycle in two ways. Depending on feedstock and operating conditions, carbon is captured either as biogenic carbon dioxide within the process gas stream, or retained as solid carbon in the form of biochar. Captured carbon dioxide can be purified for industrial use or permanently stored, while biochar provides durable carbon sequestration that can be returned to soils or used in construction and industrial materials.

By capturing carbon in both gaseous and solid forms, RiPR removes carbon from the active carbon cycle, enabling energy production that reduces atmospheric carbon dioxide rather than adding to it.

A UNIQUE OPPORTUNITY

Proven, not theoretical

RiPR is well beyond the concept stage. Four successful prototypes have already been built, advancing the technology to Technology Readiness Level 6 using real biogenic feedstocks under operational conditions.

Our pilot plant, supported by Innovate UK, goes live in 2026, enabling continuous validation, independent testing with CPI and large-scale feedstock trials.

From 2029, modular RiPR units ranging from 1 MW to 25 MW will enter commercial production from our Eastington facility, supporting deployment across industrial, waste and infrastructure settings.

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