That's just it - nothing was going to be wasted. The exhaust comes out at some velocity/pressure (being pushed by the exhaust behind it) and you are sticking a turbine in front of it and making the engine push that exhaust through to spin the turbine. It is an added restriction. And the conversion from flowing gas to spinning turbo happens at some efficiency (below 100%). Then the compressor side pressurizes intake air at some efficiency (below 100%).billgiacheri wrote: I basically thought the engine acted as an air pump and it used the wasted exhaust air to turn the turbine. I can see that this would potentially restrict exhaust flow but I also thought that a certain amount of backpressure helped the engine.
Now in my father in law's truck, we could technically stage an experiment. Drive 100 miles down the highway with the engine in normal operation. And maybe make sure there are hills to get into the throttle a little. Record fuel economy. Then, open the wastegate completely and repeat. My hypothesis is that the fuel economy will be better when the turbo is out of the loop as much as possible. It is not a perfect test because the wastegate plumbing itself is still more restrictive than the exhaust would be if there were no turbo at all (plus the intake side still sucks through the turbo, unless you re-plumb that as part of the test), but it's the closest thing I can think of.
And it kind of makes sense. If you are running closed loop, so air fuel ratios are constant, and you are running a constant load (constant horsepower) why would you get better fuel economy with the turbo making some boost pressure? You are doing all that conversion and forcing exhaust through the turbine when the engine could expel the exhaust naturally and ingest air naturally to make that power. Even if the energy to spin the turbo were 100% free, why would an engine be more efficient breathing through a turbo? All a turbo does is force air into the engine. You still need to add fuel.
But that's not even the controversial theory. What is maybe less cut and dry is to take engine A, a turbo 4 cylinder putting out 250 hp at peak, and engine B, a naturally aspirated V6 putting out 250 hp at peak. Which uses less fuel to make 250 hp? All of the BSFC data you can find online says the N/A V6 will use less fuel to make 250 hp. The turbo 4 may be more efficient at making, say, 45 hp, which is why it may get better fuel economy, because it spends more time making 45 hp than 250.