The transportation sector is currently responsible for 27% of greenhouse gas emissions nationwide, half of which come from passenger vehicles.  The internal combustion engine will likely remain a significant drive train for passenger vehicles in the near future so it is critical to make both fuel and engine efficiency a priority. According to research done by the Argonne National Laboratory, the National Renewable Energy Laboratory, and Oak Ridge National Lab, fuels that blend between 25 to 40 percent ethanol with conventional gasoline, instead of the current 10% ethanol blend, can lead to greater fuel efficiency and lower overall greenhouse gas emissions.  Key findings from a recent Environmental and Energy Study Institute study: High Octane Fuels: Challenges & Opportunities include:

EESI gives a nice summary of octane and its relationship to fuel economy:

The octane rating is a measure of a fuel’s ability to avoid knock. Knock occurs when fuel is prematurely ignited in the engine’s cylinder, which degrades efficiency and can be damaging to the engine. Before the introduction of unleaded gasoline in the mid-1970s, these ‘antiknock’ properties were provided by lead. The 1990 Clean Air Act amendments fully banned the use of lead in gasoline in the United States. Today, the octane boost to prevent knocks is provided by gasoline aromatics, which comprise more than 25 percent by volume of each gallon of gasoline.8 The primary sources of octane are petroleum refinery products, and ethanol. At most retail gasoline stations, three octane grades are offered, 87 (regular), 89 (mid-grade) and 91-93 (premium). The higher the octane number, the more resistant the gasoline mixture is to knock. Use of higher octane fuels enables higher compression ratios, turbocharging, downsizing/downspeeding, all of which enable greater engine efficiencies. Currently, high-octane fuel is marketed as ‘premium,’ but future combustion engines may require higher octane fuels to reach even greater engine efficiencies and higher mile-per-gallon ratings. At ORNL, researchers are investigating the benefits of ethanol as a renewable octane provider.

Challenges remain, including:

  • “The Blend Wall”
  • Market Penetration
  • Coordination of vehicles and fuels

The blend wall is the threshold where the total volume of ethanol used surpasses 10 percent. This will require investment in gasoline infrastructure and compatible vehicles to utilize an E15, E25, and or an E40 blend.  Also, owners of a large number of gas stations are unlikely to begin offering ethanol blends above 10% until there is market penetration of about 20% of retail fueling stations.  Vehicle manufacturers can optimize engine efficiency to suit various octane levels, but this has to be timed with the rollout of higher octane fuels.  Vehicles that are not compatible with higher octane fuels can suffer from poor performance and even engine damage.  Investments and decisions about fuel availability and infrastructure on the one hand and vehicle development on the other are made by private players in different industries, so coordination is difficult.