Skip links

Make the ethanol pie bigger

Time to get policy discussions aligned to fit what ethanol actually is, does and will do.

Who we are

About the alliance

The Climate Ethanol Alliance is a global partnership representing interests in Europe, the US, and Asia. Its mission is to advance renewable ethanol as an alternative to oil and promote evidence- and science-based policymaking to decarbonize transport. 

With over two decades of real-world evidence, ethanol has proven to be a viable alternative to oil. Continuous innovation in technology, advancing the bio-based economy, has resulted in valuable benefits for the climate, rural development, farming, energy independence, and air quality. 

The Climate Ethanol Alliance brings together bioethanol producers, service providers, and input suppliers to support the climate action goals of the Paris Agreement and facilitate the accelerated transition of the transport sector towards low carbon. 

Founding members

Supporting members

Priorities

Revisiting the
image of ethanol

Evidence-based policymaking, informed by over a decade of real-world experience, is essential. Revisiting and rebranding ethanol is crucial – ethanol is more than just good enough and it is cost-effective too.

High octane fuels

The introduction of HOFs is necessary and E20 will need to be standardized with octane increased.

Fermentation Carbon
Capture and Storage

The ethanol industry is ideal for CCS. Policy frameworks should acknowledge its cost-effectiveness in carbon removal.

Trade policy is not part of the mandate

Policy

Climate challenges and mitigation options

What can ethanol bring

Way forward

There is a need for policies that deliver and actions that work.

Replacing oil by 2030

Ethanol immediately helps countries meet their climate goals and provides an immediate, near-term solution to climate change, hence its use should increase globally in a sustainable manner. Ethanol is just one technology with the potential to displace large quantities of oil. The difference with most other technologies is that ethanol is available now at scale and is the principal source of oil displacement across the world.

Electrification and ethanol offer the best prospect of replacing oil in quantity for several decades ahead. Electrification is growing rapidly from a low base but has a long way to go to achieve scale and is not applicable to vehicles on the road today running on liquid fuels. Both technologies are needed to achieve climate targets. 

The potential in ethanol should be tapped, and it can be achieved in a sustainable manner. Ethanol use should be allowed to increase, roughly in line with historic trends, and when electrification reaches scale, sometime well after 2030, ethanol plants or biorefineries are not threatened with closure. The ethanol industry is developing other bio-based products that enable it to contribute at another level to climate targets. Ethanol can replace oil in fuel tanks; but it can also replace oil in biomaterials like plastics, which electricity cannot. Pursued intelligently, there is no tension between ethanol and electrification of transport. 

E20/E30

The evidence base for high octane fuels bringing climate mitigation, fuel economy and financial benefits is growing. Recognizing these potential benefits is important for society. They need to be given appropriate priority in their own rights to ensure the potential is not lost to society. Standardization of fuels with 20% or 30% ethanol blended (E20 or E30), would ensure that octane is increased in the final fuel.

These blends should be introduced by
2025 to facilitate the optimization of engines by 2030, bringing additional climate benefits.
 

Carbon removal

Carbon Capture and Storage (CCS) has been available for decades, yet progress remains below what is necessary or projected. The cost of climate measures is crucial, and CCS has remained expensive. Since costs are relatively high for most CCS pathways, it is crucial that the least expensive options advance promptly, demonstrating the technology’s robustness and establishing a tangible role for CCS in climate change mitigation.

Fermentation results in biogenic CO2, thereby saving on capture costs at biorefineries and enabling a cost-effective carbon removal pathway. Policy frameworks need to acknowledge fermentation carbon removal as low-hanging fruit necessary for the development of CO2 infrastructure.
 

Resources

Fighting for a sustainable energy future

This website uses cookies to improve your web experience.