Hard-to-abate demand
Aviation, shipping, logistics, chemicals, and materials depend on high-density carbon-based molecules that cannot simply be replaced by batteries or direct hydrogen.
A new European carbon economy.
Auridium transforms renewable power, hydrogen and captured carbon into liquid energy carriers and molecular building blocks for sectors that cannot simply electrify.
About
Auridium was created to address one of the defining industrial challenges of our time.
We turn renewable energy, hydrogen, and captured carbon into liquid energy carriers and molecular building blocks for sectors where direct electrification is not sufficient, practical, or scalable.
Drop-in logic
Synthetic fuels and feedstocks can use existing industrial systems while replacing fossil carbon with renewable energy and captured carbon.
Industrial resilience
Europe needs new value chains that strengthen energy sovereignty, reduce fossil-import exposure, and convert renewable power into globally relevant products.
Scalable blueprint
Auridium is building production capacity and a repeatable development model for a new European carbon economy.
Read the full context
Auridium was created to address one of the defining industrial challenges of our time: how to defossilise essential sectors of the economy without weakening the systems that connect, supply, and sustain modern society.
Aviation, shipping, logistics, chemicals, and materials all depend on high-density carbon-based molecules. These molecules move people and goods across continents, enable global trade, and form the basis of countless products used every day. Replacing them is not simply a matter of electrifying everything. In many critical applications, batteries or direct hydrogen use will not be sufficient, practical, or scalable in the near term.
That is where synthetic fuels and feedstocks come in.
By combining renewable energy, hydrogen, and captured carbon, Auridium aims to transform clean electricity into liquid energy carriers and molecular building blocks that can be used in existing industrial systems. This enables large-scale defossilisation while preserving the functionality, reliability, and reach of today’s infrastructure.
The ecological case is clear: reducing dependence on fossil resources is essential for meeting climate goals and limiting the environmental impact of hard-to-abate sectors. But the economic case is just as important. Europe needs new industrial value chains that strengthen energy sovereignty, reduce exposure to fossil imports, create high-quality jobs, and convert renewable power into globally relevant products.
Auridium is built around this opportunity. We are not only developing production capacity for synthetic fuels and feedstocks; we are building a scalable blueprint for a new European carbon economy — one based on renewable energy, circular carbon, advanced technology, and long-term industrial resilience.
Our purpose is to make defossilisation practical, scalable, and economically productive — for the sectors where it matters most.
Product
Three products. One purpose.
Auridium transforms renewable energy, hydrogen, and captured carbon into synthetic liquid fuels and feedstocks for sectors that cannot easily move away from carbon-based molecules. From long-range aviation and cargo shipping to the materials industry, our platform is designed to turn eSAF, eDiesel, and eNaphtha into scalable building blocks for a new European industrial value chain.
Aviation connects people, economies, cultures, and ideas. It enables global trade, scientific exchange, family ties, and opportunities that cross borders. To preserve these connections in a carbon-constrained world, aviation needs scalable solutions that work not decades from now, but with the aircraft and infrastructure already in use today.
That is the promise of eSAF.
Produced from renewable energy, hydrogen, and captured carbon, eSAF can power long-range flight while significantly reducing dependence on fossil resources. It is compatible with today’s aviation system and addresses the segments of air transport where batteries or hydrogen aircraft are unlikely to provide near-term solutions at scale.
Auridium is built around this transition: transforming renewable power into high-value liquid energy for global mobility.
But we are not merely building production capacity. Auridium is developing a replicable blueprint for a new European eSAF value chain — integrating renewable energy, carbon sourcing, hydrogen production, fuel synthesis, certification, logistics, and offtake into a scalable industrial model.
In doing so, eSAF becomes more than a fuel. It becomes an industrial opportunity for Europe: combining advanced engineering, clean energy, resilient supply chains, and next-generation production technologies. By scaling this value chain, we can strengthen European energy sovereignty, create high-quality jobs, and support long-term economic stability.
Auridium exists to help make sustainable long-distance flight possible — through innovation, industrial scale, and a defossilised aviation fuel value chain made for the real world.
Global shipping connects industries, continents, and supply chains. It moves the raw materials, components, food, energy systems, and finished goods that modern economies depend on. To preserve this backbone of global trade in a carbon-constrained world, shipping needs scalable solutions that can work with existing assets, infrastructure, and operational realities.
That is the promise of eDiesel.
Produced from renewable energy, hydrogen, and captured carbon, eDiesel can provide a synthetic liquid fuel pathway for heavy-duty transport and maritime applications, particularly where long distances, high energy demand, and operational flexibility make batteries or pure hydrogen challenging in the near term.
Auridium is built around this transition: transforming renewable power into high-value liquid energy for industrial mobility.
But we are not merely building production capacity. Auridium is developing a replicable blueprint for a new European synthetic fuels value chain — integrating renewable energy, carbon sourcing, hydrogen production, fuel synthesis, certification, logistics, and offtake into a scalable industrial model.
In doing so, eDiesel becomes more than a fuel. It becomes an industrial opportunity for Europe: strengthening resilient supply chains, supporting cleaner logistics, reducing dependence on fossil resources, and enabling advanced clean-tech manufacturing at scale.
Auridium exists to help make defossilised cargo transport possible — through innovation, industrial scale, and synthetic liquid fuels made for the real world.
Plastics are everywhere: in medical devices, packaging, electronics, vehicles, buildings, renewable energy systems, and countless everyday products. The challenge is not simply to abandon carbon-based materials, but to replace their fossil origins with circular and renewable carbon sources.
That is the promise of eNaphtha.
Produced from renewable energy, hydrogen, and captured carbon, eNaphtha can serve as a fossil-free feedstock for the chemical industry. It can enter established refining and petrochemical value chains and help produce lower-carbon plastics, synthetic materials, and chemical intermediates without requiring society to rebuild the entire materials system from scratch.
Auridium is built around this transition: transforming renewable power and captured carbon into high-value molecular building blocks for Europe’s industrial base.
But we are not merely building production capacity. Auridium is developing a replicable blueprint for a new European synthetic carbon value chain — integrating renewable energy, carbon sourcing, hydrogen production, synthesis, downstream processing, certification, logistics, and industrial offtake into a scalable model.
In doing so, eNaphtha becomes more than a product. It becomes an industrial opportunity for Europe: enabling green plastics, strengthening chemical sovereignty, supporting high-quality jobs, and reducing dependence on fossil raw materials in one of the economy’s most strategic sectors.
Auridium exists to help make defossilised materials possible — through innovation, industrial scale, and synthetic carbon feedstocks made for the real world.
Projects
Our first plant. Europe’s next synthetic fuels blueprint.
Project Skyforge is Auridium’s first large-scale development project and the initial catalyst of our defossilisation journey. It is designed not only to produce synthetic fuels and feedstocks, but to teach us how to develop, build, operate, finance, certify, and scale integrated PtL facilities in the real world. By bringing technology, ecology, economics, regulation, and operations into one learning-by-doing project, Project Skyforge becomes the foundation for a repeatable blueprint for future eSAF, eDiesel, and eNaphtha plants across Europe.
Technology
Project Skyforge integrates the core technical building blocks of synthetic fuel production: renewable power, hydrogen, carbon sourcing, synthesis, downstream processing, storage, and plant operations. Every interface has to work as one system — reliably, efficiently, and at industrial scale.
Ecology
Every molecule must be designed for credible defossilisation. Project Skyforge allows us to validate emissions reductions, circular carbon logic, resource efficiency, feedstock integrity, and sustainability compliance under real operating conditions.
Economics
Large-scale PtL plants need more than technology. They require bankable input costs, robust offtake structures, risk allocation, financing logic, and a pathway to competitive production. Project Skyforge helps us understand and optimise the commercial model for scale-up.
Regulation & operations
Certification, permitting, reporting, fuel classification, plant reliability, ramp-up behaviour, and long-term mandate exposure are part of the project architecture from day one. By solving these questions in the first plant, Project Skyforge creates the practical basis for a replicable European rollout.
From first plant to European rollout
First-of-a-kind facility
Project Skyforge is the first industrial implementation of Auridium’s integrated synthetic fuels platform — turning renewable energy, hydrogen, and captured carbon into high-value liquid molecules for hard-to-abate sectors.
Development through deployment
By developing, building, and running the facility ourselves, we generate practical knowledge that cannot be produced on paper: permitting logic, process integration, ramp-up behaviour, operating reliability, cost drivers, supply-chain realities, and market interfaces.
Blueprint creation
The goal is not a one-off plant. Project Skyforge is the foundation for a replicable development model: a structured blueprint for future facilities that can be adapted, improved, financed, and deployed across multiple European sites.
European scale-up
Each new plant can build on the lessons of the last. This is how Project Skyforge becomes more than a production asset: it becomes the first step toward a scalable European value chain for defossilised fuels and feedstocks.
Partners
Built for collaboration across the value chain.
Synthetic fuels and feedstocks only scale when energy, industry, finance, logistics, public institutions and offtakers move together.
Offtakers
Airlines, shipping operators, logistics groups and chemical companies need credible synthetic molecules to decarbonise core operations and product portfolios.
Energy partners
Renewable power, hydrogen, water, grid access and storage determine both the environmental quality and the cost base of production.
Carbon suppliers
Reliable, sustainable carbon sourcing is central to turning captured carbon into circular fuels and feedstocks at industrial scale.
Technology providers
Electrolysis, synthesis, refining, control systems and certification know-how must be combined into robust industrial projects.
Infrastructure capital
Long-lived assets require capital partners that understand staged development, project risk, regulation and industrial scale-up.
Public institutions
Policy, permitting, infrastructure planning and market design are decisive for building resilient European value chains.
Contact
Let’s discuss synthetic fuels and feedstocks.
For industrial partnerships, offtake discussions, supplier introductions, investment conversations or public-sector dialogue, contact Auridium directly.