Collaborative Tasks

Develop kinetic models predicting new fuel blend effects on combustion, enabling cleaner, more efficient engine simulations.

Sustainable fuels like ammonia and hydrogen enable net-zero combustion engines but require tailored exhaust aftertreatment solutions.

Advance understanding of fossil, bio, and e-fuel combustion to develop ultra-efficient, low-emission engines for hard-to-electrify sectors.

Advance understanding of fossil, bio, and e-fuel combustion to develop ultra-efficient, low-emission engines for hard-to-electrify sectors.

Investigate hydrogen and green vector fuels to develop optimal combustion technologies supporting a global shift from carbon fuels.

Advance scientific understanding of fuel jet formation and mixing to design efficient, low-carbon, clean combustion systems.

Support co-development of renewable fuels and engines for transport sectors, enabling flexible, net-zero, petroleum-compatible energy solutions.

Enhance understanding of solid fuel conversion to develop flexible, efficient, and cleaner combined heat and power solutions.

Advance understanding of soot formation, oxidation, and toxicity to predict and reduce emissions across diverse combustion systems.

Analyze technology, energy security, and emissions trade-offs to identify cost-effective, science-driven decarbonization strategies worldwide.