Hi,
I stumbled onto the Trawler Forums while looking for information on Becker rudders, and started reading this thread as I have considered de-turboing my main engine. I finally registered in the hope of dispelling a couple of common myths about turbocharges.
#1 - Turbodiesels are inherently less fuel efficient: They're not, as evidenced by commonly available data. As for why, a common (and partially correct) assumption is that the smaller engine size for a given power level leads to reduced mechanical losses. There is a different and more important explanation, tough: A significant portion of the mechanical energy generated by the piston is lost to pumping air through the engine. Because a centrifugal impeller compressor is much more efficient than a piston pump at these low delta-p numbers, adding a turbo to any given diesel engine (and dropping compression by a point or two) tends to yield a fuel efficiency increase around 2-3% for a given power level.
2 - Turbocharging an engine leads to increased EGTs: Anyone who has lost a turbo on a non-compensated engine knows how wrong that is (EGTs instantly go through the roof). In fact, just adding a turbo to an engine (as above) will lead to higher lambda, which leads directly to lower EGT. That being said, turbocharged engines are generally able to sustain higher EGTs by maintaining combustion efficiency at higher power densities, as well as having marginally better piston cooling for a given EGT, which is why turbodiesels tend to run hotter exhaust.
3 - Turbodiesels wear out quicker: Again, empirical evidence suggests otherwise. Take my main engine as an example; It's a FIAT 8281 17 liter V8 @ 500-ish hp. The same engine delivers 310 bhp @ 1700 rpm NA (16:1 compression, injection fixed at 18 degrees btdc). The continuous duty turbo version (no intercooler) delivers 370 bhp @ 1800 rpm, with 15:1 compression and injection start 26 degrees btdc. The latter configuration has a typical TBO of 25k hours, and I know of one concrete example that ran almost 50k hours on a set of rings (although that was pushing it). That's quite a bit, no? Furthermore, a lot of medium speed marine engines have scheduled liner replacement at 50k hours, and they're all turbocharged these days.
That being said, the turbocharger itself has a much shorter life span than the engine, and you'd be lucky to get 10k hours out of one. Short cycling without pre-heating and pre-lubrication drastically reduces that number, and I've seen plenty of pleasure use turbos die "natural" deaths before they reach 1.500 hours. I actually murdered my own turbos even sooner than that, by a lot of really short run cycles (<1hr), hence the interest in de-turboing despite the expected drop in fuel economy.
