Yep that's all correct, there were a few lines that needed to be replaced with E85 rated lines, it wasn't a big task though.
For my setup I have an ethanol content sensor so I can run regular and ethanol based fuels, and I upgraded my fuel pump and injectors, as you need about twice as much fuel volume per combustion compared to regular unleaded.
To answer the "Why" of the parent post, typically it's because you can get more power out of a vehicle with ethanol.
The reason you can get more power out of ethanol fuels, is because the aforementioned increased volume of fuel cools the combustion temperature. Ethanol brings some of it's own oxygen, hence why you can combust that extra fuel without adding more air.
Lowering combustion temperatures reduces the tendency for an engine to "knock" or "ping". Knocking is when the flame front is uneven, which gives a poorly timed and high peak pressure combustion that can lead to catastrophic failure.
Most turbocharged or supercharged engines are "knock limited" meaning you could produce more power if you could eliminate the risk of knocking. This only gets worse as turbo/superchargers increase intake air temperatures, which increases combustion temperature, increasing the tendency to knock. So by using ethanol fuels, you decrease combustion temperatures and get back the ability to push the engine further using other parameters.
For my setup I have an ethanol content sensor so I can run regular and ethanol based fuels, and I upgraded my fuel pump and injectors, as you need about twice as much fuel volume per combustion compared to regular unleaded.
To answer the "Why" of the parent post, typically it's because you can get more power out of a vehicle with ethanol.
The reason you can get more power out of ethanol fuels, is because the aforementioned increased volume of fuel cools the combustion temperature. Ethanol brings some of it's own oxygen, hence why you can combust that extra fuel without adding more air.
Lowering combustion temperatures reduces the tendency for an engine to "knock" or "ping". Knocking is when the flame front is uneven, which gives a poorly timed and high peak pressure combustion that can lead to catastrophic failure.
Most turbocharged or supercharged engines are "knock limited" meaning you could produce more power if you could eliminate the risk of knocking. This only gets worse as turbo/superchargers increase intake air temperatures, which increases combustion temperature, increasing the tendency to knock. So by using ethanol fuels, you decrease combustion temperatures and get back the ability to push the engine further using other parameters.