OvermodThat would be wise; I'm surprised someone like Volker hasn't taken the time yet to compile the data in one place.
Highly amusing in that Railway Age story to watch Ainsworth and his minions try as hard as they can to avoid having to say anything containing the number "265" or the letter "H" by itself.
Someone might want to link some of the previous discussion about why a 4-stroke compression-ignition engine was inherently more fuel-efficient than a GM 2-stroke, and list the reasons why the difference can be less pronounced (but probably still present in typical locomotive uses). I would prefer that someone else lead off because I will forget or miss something important. Proportional pilot injection using EFI is an important consideration.
Hello there,
one way to get the fuel consumption is to look for BSFC (brake-specific fuel consumption, I think). This number is variable with engine speed (RPM), and it is often expressed as grams per kW-hr
I have seen a diagram about the C175-16 where BSFC plays between 225 and 205 grams, at full throttle is consuming 210 grams for a total output of 2.8 MW.
The 20V R4000 43L from MTU has the same BSFC as the C175-16, giving 3 MW power output, while the 12V model consumes 207 grams for 2.4 MW.
The EMD 710G-16 has been referenced at 203 grams for 3.2 MW (yes, this is lower fuel consumption than the 4-stroke engines above)
N.F.
FWIW, 225g/kwhr is equivalent to 0.370lb/hp-hr, 203g/kwhr is equivalent to 0.334 lb/hp-hr.
I vaguely recall the C175-16 as running at a significantly higher speed than the 710G-16, which may account for the higher BSFC.
erikem I vaguely recall the C175-16 as running at a significantly higher speed than the 710G-16, which may account for the higher BSFC.
You are correct, the EMD 2 strokes max out at 850-950 RPM, depending on the engine. Full throttle on the C175 is 1800 RPM.
Greetings from Alberta
-an Articulate Malcontent
SD70Dude You are correct, the EMD 2 strokes max out at 850-950 RPM, depending on the engine. Full throttle on the C175 is 1800 RPM.
Does someone have a link to papers with the fuel consumtion of C175-16 and C175-20 in locomotive service? All I found are C175s in stationary generator set.
The fuel consumption differs from standby to prime to continuous service and for 50 Hz and 60 Hz. None of them were Tier 4.
Here is a link to a data sheet of the MTU 4000 R03 series:
https://mtu.cwshops.com/print/3232331_MTU_Rail_spec_4000_03.pdf
It contains fuel consumption at rated power and best point.
Theoretically a four-stroke diesel engine should have better fuel efficiency than its two-stroke counterpart. To really prove it the engines should be otherwise designed to the same specifics: Bore, stroke capacity, power, rpm etc.
In 1998 and 1999 the CARB initiated emission tests to find the influence of different diesel fuels: https://www.arb.ca.gov/fuels/diesel/102000swri_dslemssn.pdf
Tested were three UP 9-44CW and three BNSF SD70MAC. Starting on page 75 the results including fuel consumption are gathered. I have only looked into the "CARB Fuel" section and here the SD70MAC uses marginally less fuel. But it looks like the difference in this case is within the measuring accuracy.Regards, Volker
I knew that the EMD's max out about 950RPM, but wasn't sure about the C175's. Thanks for the info.
1800rpm would imply smaller cylinder bores and shorter strokes than the 710's, which would increase the surface area to volume ratio, which in turn implies greater heat loss through the cylinder walls. The smaller cylinders and higher speed would likely increase the frictional losses for a given power output. both effects would lead to higher BSFC.
My recollection is that some ship diesels have BSFC below 0.30 lb/hp-hr.
Think the 710 engine is 900 RPM maximum. Just the 645F3 was 950 RPM.
The C175 may be 175 mm bore?
timzThe C175 may be 175 mm bore?
You are right, the C175 has 175 mm bore and 220 mm stroke.Regards, Volker
16-710-G3C, 16-710-G3C-T2, 16-710-G3C-T3 are all 950rpm
Now one would assume a two stroke engine has a certain fuel efficiency, however you will find the two stroke engine is more thermally efficient than a four stroke engine of equal size and material construction.
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