Tier 4 with EMD's 710 engine.

Leo_Ames

... has EMD finally managed Tier 4 with the 710 without it?

To my knowledge this was never a particularly difficult problem.  Not only is there relatively adequate space for the necessary apparatus, but the duty cycle for most marine service seldom if ever requires operation producing the 'outlying' conditions that caused the locomotive installations to fail testing (I don't remember the actual details, but they weren't difficult to find on the Web).

As it turns out there is a rather substantial silver lining in the adoption of DEF in diesel engines: since the approach can knock down substantially all the NOx that would have been emitted by the engine, there is no point in retaining the idiot modifications up to now that have been taken to reduce NO formation in engine operation.  So we can go back to high charge pressure, much hotter peak chamber pressures, no stupid and hard-to-maintain EGR ... all the things that make a diesel engine run more effectively and fuel-efficiently ... and not only have a better and much more reliable engine but perhaps compensate for a significant amount of the DEF bill with the fuel savings.

Perhaps the industry whiners about the costs of DEF are hoping to get the Government to 'fund the mandate' (at least, in part) of adopting DEF on freight railroads.  That might explain why more hasn't been done to actually optimize things from an engineering standpoint...

http://s7d2.scene7.com/is/content/Caterpillar/CM20170712-52832-51137

Be advised this is a PDF download, and you may have no warning or feedback from your browser about this: just a blank page that doesn't seem to produce anything.  Repeatedly clicking will happily download multiple 1.4MB copies!

Just click once and look in your downloads folder.

I'm resurrecting an old thread I just learned of via a link in another thread in this forum.

I posted some CAD layouts on my Flickr page showing work I directed starting in August 2010 when I was hired back to EMD to design a locomotive around the best information at that time as to what it would take to make the 710 Tier 4 compliant. As the layouts show, this huge aftertreatment system, consisting of a Diesel Oxidation Catalyst (DOC) and Selective Catalytic Reduction (SCR) requiring Diesel Exhaust Fluid (DEF), as well as an EGR system, was believed to be necessary to meet Tier 4. At this time, EMD had spent little effort in testing this arrangement, only having built some test applications of the EGR system into some UP locos. The plan was to build a mule of this complete system but it hadn't been done yet to know exactly what was required, but engineering management wanted to see if this could be feasibly fit into a locomotive. 

Working with a terrific CAD designer, we made an arrangement that worked but it wasn't pretty. The loco is 30" longer than a SD70ACe and incorporates an integral fuel tank that allows the engine to be depressed into the top of the fuel tank which let us meet the clearance diagram we were working to. The engine included a new design oil pan that was extended under the alternator to allow for the isolation of the engine/alternator assembly on rubber mounts, eliminating the need for the isolated cab. (This feature was carried over to the 1010J arrangement.) The Flickr page is here:

https://www.flickr.com/photos/167589084@N07/albums/72177720297563787

I started work on this project on the same day that Progress Rail/Caterpillar took over EMD from the investment company that had bought it from GM so any help from CAT had not started yet. 

Looking at the marine 710 application in the link above shows the size and the components needed to meet Tier 4 are greatly reduced in size compared to what I was working with - that equipment does look feasible for a 6 axle loco; I hope someone at EMD has worked on a 710 freight loco with SCR.

After about 1.5 years working on this and refining the loco arrangement, the decision was made that SCR/DEF would not be a part of this loco as the RR's insisted. Further, in consultation with CAT experts, a 710 with massive EGR would use 5-10% more fuel than a 4 stroke engine so the 710 was dropped and the development of the 1010J engine began as a crash program. At that pause while the engine was developed, I moved back to truck design doing the HTCR-6 fabricated frame design for the Tier 4 locomotive as well as the 4-axle articulated GBB truck for the Brazilian SD70ACe-BB.

Dave

Thank you, Dave, for your continued insight.

bogie_engineer

 I hope someone at EMD has worked on a 710 freight loco with SCR.

 

http://www.nsdash9.com/rosters/4800.html

Good to see, being out almost 2 years now any info on how it's performing? If they can fit it to a GP, an SD with a 16 should be relatively easier.

Does Chris still post here? I suppose I can ask on Loconotes.

Since it originally was behind my creation of this thread, I thought it worth noting that Interlake Steamship's Mark W. Barker is in the final stages of fitting out and should be undergoing sea trials later this spring.

When she enters service early this summer or late spring, she'll be the first US flagged Great Lakes freighter to enter service in almost 40 years. 

Tugs have been called to assist the new MV Mark W. Barker. Looks like the start of her sea trials today.

The pictures of her in Drydock across from the Blough and then pictures of the SS Badger in the same drydock a month later are very comparatively interesting. SHe's not the biggest by a long shot.

Also, it's so weird in 2022 to think of these major industrial manufacturing things happening in Sturgeon bay, gateway to Chicagoan's northern playground. 

YoHo1975

The pictures of her in Drydock across from the Blough and then pictures of the SS Badger in the same drydock a month later are very comparatively interesting. SHe's not the biggest by a long shot.

 

Also, it's so weird in 2022 to think of these major industrial manufacturing things happening in Sturgeon bay, gateway to Chicagoan's northern playground.