Galloxol® – CO₂ Capture
Modular carbon-capture with an environmentally friendly, biodegradable solvent and advanced heat recovery, delivering clean CO₂ from your own exhaust with low operating cost.
From idea to final delivery
Our complete process at a glance
This visual guide walks you through each phase, showing how we turn concepts into results.
How Our Carbon Capture Works
Step-by-step
Galloxol® makes carbon capture practical by following a clear, structured approach. From quenching to final purity check, each step is designed to ensure maximum CO₂ recovery, seamless integration with your process, and long-term operational reliability.
Routing CO₂ from flue gas
Hot flue gas from your boiler, kiln, CHP or process line is routed into the capture system. We size the inlet to your temperature, flow and composition.
Quench or Flue-gas condensing
Controlled quench drops temperature fast; condenser stage removes moisture and acid vapour as well as remaining dust.
Absorb and regenerate
In the absorber, solvent selectively captures CO₂. The rich solvent is regenerated to release product CO₂; lean solvent returns to the loop for continuous, stable operation.
Buffer storage
Spec-clean CO₂ is buffered as gas to ride through peaks and start–stop cycles. Online analysers and auto-divert protect quality and simplify audits.
(Optional) Liquefaction (enable long distance transport)
When compact inventory or tanker loading is needed, the liquefaction module condenses CO₂ to liquid and holds it in insulated vessels, small footprint, predictable supply.
Distribution (internal lines or tanker loading)
Use CO₂ on-site (MAP, freezing, mineralisation, CAS, e-fuels) or load to tankers for transfer. On-site CO₂ reduces dependence on external deliveries and price swings.
Benefits
Benefits of Galloxol® – CO₂ Capture
These outcomes map to daily tasks across sectors: horticulture enrichment, beverage carbonation, food MAP and chilling, chemical synthesis and pH control, curing and mineralisation and early e-fuel routes. Each item links cause to effect so operations, QA and planning can see where the gains come from.
On-site CO₂ you can plan around
Bringing capture onto your site turns a fluctuating external supply into a controllable utility. Galloxol® ties into familiar sources such as CHP and biomass boilers, so (biogenic) CO₂ is produced where it’s needed rather than depending on deliveries. That directly supports steady operation in sectors that consume CO₂ continuously.
Because the captured stream can be used internally or routed to other industries (food & beverage, construction materials, chemicals), or even to permanent storage, planners gain options to match demand, compliance needs, and commercial offtake. That “value from CO₂” framing is explicit in your brochures and is the practical reason sites prefer on-site capture.
Product cleanliness that simplifies QA
Galloxol® uses a biodegradable, non-toxic solvent with zero vapour pressure, so there are no traces of chemicals in the atmosphere or in the (biogenic) CO₂ product. For QA this removes a frequent headache of volatile amines: proving that solvent hasn’t carried into the product stream. Cleaner input data makes audits easier and acceptance faster.
That solvent behaviour also reduces the risk of downstream contamination in processes that contact product, packaging or greenhouse environments. In short, the chemistry choice itself is doing part of your quality assurance work every shift.
Smoother operations, fewer energy and solvent surprises
Galloxol® is engineered for high thermal efficiency with heat recovery, which cuts reliance on external heat and helps hold energy use down at the same time. Combined with the fact that no solvent losses need to be replaced, operating cost becomes more predictable month-to-month than with generic amine systems.
Those two levers, efficient heat use and low solvent loss, are why your materials position Galloxol® as low-OPEX. In daily practice, this translates into steadier budgets, simpler procurement and fewer emergency interventions around consumables.
Better environmental & safety profile by design
Unlike traditional amine systems, Galloxol®’s environmentally friendly, biodegradable solvent avoids harmful solvent emissions, improving the plant’s environmental footprint. This matters not just for corporate reporting, but for day-to-day safety and community impact around the site.
Because the solvent has negligible volatility/zero vapour pressure, routine operation is simpler: fewer fugitive-emission concerns and less burden on air monitoring programmes compared with volatile chemistries. That’s a concrete HSE gain as you scale capture.
Flexible routing: internal use, offtake, or storage
Captured (biogenic) CO₂ isn’t a dead end, it’s a feedstock. Your brochures explicitly describe routing the purified stream to internal users or other industries, and they also keep permanent storage open as a pathway. That flexibility lets you blend operational, commercial and compliance goals without redesigning the core capture skid.
In practice, that means decarbonization isn’t just a cost centre. You can align production campaigns with CO₂ users, shift volumes seasonally, or prove abatement via storage, all from the same Galloxol® platform. (This is an inference from the stated use/route options.)
Faster internal approvals with real-world proof
Decision makers weigh risk. Galloxol® benefits from named references and systems operating since 2019, plus a documented performance guarantee. That evidence base shortens internal approval cycles and de-risks first deployments.
You can point to plants in the Netherlands, Italy and Austria, and to the standard capacity band (≈500–5,000 kg/h) that those projects employ. This gives stakeholders confidence that scaling will follow a well-trodden path.
Bringing capture onto your site turns a fluctuating external supply into a controllable utility. Galloxol® ties into familiar sources such as CHP and biomass boilers, so (biogenic) CO₂ is produced where it’s needed rather than depending on deliveries. That directly supports steady operation in sectors that consume CO₂ continuously.
Because the captured stream can be used internally or routed to other industries (food & beverage, construction materials, chemicals), or even to permanent storage, planners gain options to match demand, compliance needs, and commercial offtake. That “value from CO₂” framing is explicit in your brochures and is the practical reason sites prefer on-site capture.
Galloxol® uses a biodegradable, non-toxic solvent with zero vapour pressure, so there are no traces of chemicals in the atmosphere or in the (biogenic) CO₂ product. For QA this removes a frequent headache of volatile amines: proving that solvent hasn’t carried into the product stream. Cleaner input data makes audits easier and acceptance faster.
That solvent behaviour also reduces the risk of downstream contamination in processes that contact product, packaging or greenhouse environments. In short, the chemistry choice itself is doing part of your quality assurance work every shift.
Galloxol® is engineered for high thermal efficiency with heat recovery, which cuts reliance on external heat and helps hold energy use down at the same time. Combined with the fact that no solvent losses need to be replaced, operating cost becomes more predictable month-to-month than with generic amine systems.
Those two levers, efficient heat use and low solvent loss, are why your materials position Galloxol® as low-OPEX. In daily practice, this translates into steadier budgets, simpler procurement and fewer emergency interventions around consumables.
Unlike traditional amine systems, Galloxol®’s environmentally friendly, biodegradable solvent avoids harmful solvent emissions, improving the plant’s environmental footprint. This matters not just for corporate reporting, but for day-to-day safety and community impact around the site.
Because the solvent has negligible volatility/zero vapour pressure, routine operation is simpler: fewer fugitive-emission concerns and less burden on air monitoring programmes compared with volatile chemistries. That’s a concrete HSE gain as you scale capture.
Captured (biogenic) CO₂ isn’t a dead end, it’s a feedstock. Your brochures explicitly describe routing the purified stream to internal users or other industries, and they also keep permanent storage open as a pathway. That flexibility lets you blend operational, commercial and compliance goals without redesigning the core capture skid.
In practice, that means decarbonization isn’t just a cost centre. You can align production campaigns with CO₂ users, shift volumes seasonally, or prove abatement via storage, all from the same Galloxol® platform. (This is an inference from the stated use/route options.)
Decision makers weigh risk. Galloxol® benefits from named references and systems operating since 2019, plus a documented performance guarantee. That evidence base shortens internal approval cycles and de-risks first deployments.
You can point to plants in the Netherlands, Italy and Austria, and to the standard capacity band (≈500–5,000 kg/h) that those projects employ. This gives stakeholders confidence that scaling will follow a well-trodden path.
Unique Selling Points
Key Advantages
Galloxol® brings clean, efficient (biogenic) CO₂ capture onto your own site: a biodegradable, non-toxic solvent with zero vapour pressure, high thermal efficiency with heat recovery, and modular capacity you can scale from 0.5 to 5 t/h per train. Proven projects and a performance guarantee de-risk adoption.
Proven & reliable
Cleaner by design
High thermal efficiency & low operating cost
Modular capacity, scale from 0.5–5 t/h
Fits your utilities & use cases
Carbon Capture for small and medium enterprises
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Applications
Tailored answers for every process
Whether you run a tomato greenhouse, a food packaging line, or sustainable fuels we are here to provide you a solution.
Proven Impact
Cut carbon, grow margins
Client success
Real results in real workplaces
Customers use our systems to secure CO₂ supply, stabilise operating costs and recover more energy from existing assets. Explore our cases to see how similar plants solved supply risk and improved performance.
Frequently asked questions
Need more clarity?
Below you’ll find quick answers to the questions we hear most, from feed-gas limits to maintenance routines. Expand any item for details; if you don’t see your question, our engineers are one click away.
All frequently asked questionsYes. Galloxol® connects to existing exhaust paths from CHP, biomass boilers or geothermal plants, so you’re not redesigning your utility island to get started. The modular skid format and compact plot needs keep service access clear and tie-ins straightforward, which reduces outage windows and disruption.
Because the process uses advanced heat integration, it takes advantage of available site energy and lowers dependence on external heat. That translates into lower operating cost and a smoother commissioning curve than generic amine retrofits.
Galloxol® uses a biodegradable, non-toxic solvent with zero vapour pressure. Your brochures explicitly state “No traces of chemicals in the atmosphere and CO₂,” which is why QA acceptance is easier than with volatile amines. In plain terms: the capture chemistry is designed to keep solvent out of the product stream.
Operationally, you’ll pair routine sampling with trend logs near the skid and use-points to maintain traceability. This shortens investigations and supports audits without adding complicated operator routines. (The quality promise hinges on the solvent’s non-volatility, not on constant polishing.)
Yes. The system is modular, so you can phase capacity and downstream equipment over time rather than over-invest on day one. Standard module bands cover ≈0.5–5 t/h (500–5,000 kg/h), which makes it natural to stage growth and keep the same control philosophy as volumes rise.
Many sites begin with a gaseous buffer for simplicity and add liquefaction later to increase on-site inventory or move CO₂ between buildings. That path protects cash flow and avoids stranded assets while you prove demand and offtake patterns.
Unlike generic amines, Galloxol®’s solvent is environmentally friendly and biodegradable, so there are no harmful solvent emissions and no solvent traces in product CO₂. That reduces environmental burden and simplifies compliance work compared with volatile amines.
Energy use is held down by high thermal efficiency with heat recovery and by avoiding solvent loss. Together, those factors underpin the low OPEX positioning you use in sales materials.
Yes. Your brochures list multiple operational systems in NL/DE/IT since 2019 and explicitly state a “Proven & Reliable Solution with Performance Guarantee.” Those references demonstrate scalability and de-risk first projects.
Named examples include DES B.V. (2019), Wijnen Crops B.V. (2021), FNXP LNG (2022), EmsFlower GmbH (pre-conditioning) and Merschl Gartenbau GmbH (operational by end 2025). Include the subset most relevant to your prospect’s sector on the page.
Galloxol® is offered in modular capacity bands of ~500 to 5,000 kg CO₂ per hour per train. That makes it easy to match current demand and expand later without rewriting SOPs or re-training operators.
As loads grow, you add trains or increase downstream storage rather than swapping the whole platform. The control approach and maintenance model remain consistent, so growth is a planned project—not a disruptive rebuild.
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