Nobody else chiming in I'll throw out there some thoughts..
U4.2TM
http://www.vpracingfuels.com/tech_tune.aspThe latest generation of our U4 based fuels, this fuel is a direct pour-in replacement for pump gas, with little to no jetting changes required - +2 main jets and +2 pilot jets at the most. Makes power equivalent to U4 with no sticky residue and a less pungent odor. Designed for stock and modified 2-stroke and 4-stroke applications. U4.2 passes AMA amateur fuel rules and is perfect for club level racing, CCS, WERA and AFM. U4.2 makes up to 6% more power than pump gas.
* Color: Blue
* Oxygenated: Yes
* Motor Octane 102
* Specific Gravity: .784 at 60? F
Says little to no jetting changes +/- 2 main and or 2 pilot.
It says makes up to 6% more power than pump gas, but are the engines built with that much compression and etc. to actually make that 6% ? You could add more timing, I guess...
I'm no expert just thinking this through my own self...
Full read:
http://www.popularhotrodding.com/tech/0901phr_difference_between_pump_race_gas/index.htmlPump Gas Versus Race Gas
Octane rating is defined as the resistance to detonation a fuel has in an internal-combustion engine. The higher the number, the more resistance it has. That is why engines with higher compression require higher-octane fuel. As a result of its resistance to detonation, it has a resistance to burn as well. This resistance to burn is a non-issue in motors tuned to the edge; the edge being just before detonation occurs. When a pump-gas engine is subjected to a higher-octane race fuel, it may result in a decrease in power from an incomplete burn.
Oxygenated Fuel
The theory is the more fuel you can pass through an engine and completely burn, the more power you can make. The fuel has to be matched with air to create a burnable mixture. Without a power adder such as a blower or a turbo, air is hard to add. That is where oxygenated fuel is helpful. It contains a higher percent of oxygen, creating a quicker, more efficient burn. In the state of California, 91-coctane pump fuel is oxygenated, so the gains between the two fuels due to oxygenation wouldn't be notable.
The Results
91 Octane Versus 100 Octane
The first test was to compare the difference between 91 and 100 octane without making any changes from the 91-octane baseline. The engine, with pump gas, responded the best to 37 degrees total advance, and 71/77 jetting. The same tune, with 100-octane fuel, showed no change. Through the same tuning processes used to find the most power from 91 octane, we were able to get up to 7 lb-ft of torque between 3,800 and 5,000 rpm. Horsepower gains were similar from 4,600 and 5,500 rpm. The only change made was going from 77 to 79 jets for the secondaries. At $60 for a 5-gallon can, I personally think that 7 horsepower worth of extra acceleration can more cost effectively come from lightweight parts.
100 Octane Versus 118 Octane
The first test we did with the 118-octane fuel was with the settings that worked best for 100 octane. We saw an across-the-board loss in horsepower and torque. Again, using the same procedure, we found that the 91 octane's best settings were the best for 118 as well. That meant returning the secondary jet size to 77.
Conclusion
Filling your tank with high-octane fuel, when your engine runs fine with 91 octane, is a waste of money. In this engine's case, minimal gains were achieved after a dozen dyno tests were made, and would be too small to notice at the track. The higher 118-octane fuel made less power than both the 110 and 91 octane. It would be interesting next time to see what effects the fuel has on a boosted engine. We would expect to see more impressive changes there.
Tuck\o/
