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Why do Diesel Engines Idle in the Cold Weather?

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Why do Diesel Engines Idle in the Cold Weather?
Posted by MontRailLink on Monday, December 3, 2007 4:56 PM
Some friends and I were talking about diesel engines and one was surprised to hear that diesel engines remain idling during cold weather with the recent price of fuel.  When questioned we thought that the answer was due to several factors such as:  1.  Diesel engines don't have anti-freeze so they'd freeze up if not kept running and 2. Diesel engines in cold weather are hard to start due to cold oil in the sump.  Can any of you confirm/deny the reasons stated above for keeping diesel engines idling in cold weather or add any others we may not know about.  Thanks.
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Posted by YoHo1975 on Monday, December 3, 2007 8:19 PM

I believe that Diesel fuel has a higher freezing point then gas. #2 turns to jelly if left in superlow temperatures, so there's actually a heater in the fuel tank or some such and by running the engine it doesn't get a chance to gel up.

 

I may be full of it on that though. 

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Posted by Rodney Beck on Tuesday, December 4, 2007 3:25 AM

The engine is left idleing because (1) they do not have anti-freeze, (2) the cost of fuel is cheap compaired to haveing a locomotive down for freeze up i.e. the engine block could crack and the whole engine has to be replace.

 

Rodney

 

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Posted by Dakguy201 on Tuesday, December 4, 2007 6:01 AM
The newest engines monitor their coolant temperature, the brake air pressure and such, and will start themselves should one of the variables fall below the prescribed minimum.  They will then run until everything is back to the prescribed levels and shut themselves off.  Warning lables on these engines warn that they may start unexpectedly, and there is also a buzzer that indicates the engine is about to come to life. 
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Posted by oltmannd on Tuesday, December 4, 2007 6:53 AM
 YoHo1975 wrote:

I believe that Diesel fuel has a higher freezing point then gas. #2 turns to jelly if left in superlow temperatures, so there's actually a heater in the fuel tank or some such and by running the engine it doesn't get a chance to gel up.

 

I may be full of it on that though. 

No, you're very close.  There are 3 main worries.  One is the coolant freezing.  Antifreeze isn't generally practical in EMD and GE engines because of how likely water leaks are versus the damage caused when antifreeze gets in the lube oil.

The two other reasons are the fuel.  Diesel fuel has two critical temps to worry about - the cloud point and the pour point.  The cloud point is the temp where parafin (wax) in the fuel crystalizes.  You can spec the cloud point to be lower in the winter, but it'll cost you more for the fuel.  The fuel will still flow, but the parafin crystals will clog the fuel filter.

The pour point is the temp the fuel turns to a gel and won't flow at all.  You can spec the pour point, too, but the lower you spec it, the more it costs you.  The most common method refiners use to reduce the pour point is blending with #1 fuel oil (kerosene and/or jet fuel).

Even with the engines left idling, keeping the fuel system happy requires some technology.  The engines all have fuel pumps that supply a steady flow to the engine with significant return to the tank, even when in notch 8.  This flow is warmed by passing thru the injectors (high pressure pump on GEs) before going back to the tank.  In very cold climates, this is not enough to keep the fuel in the tank above the cloud point, so most road use fuel preheater which are heat exchangers between the fuel suppy line (upstream of the filters) and the engine cooling system.  UP also uses a "hot well" partition in the fuel tank to keep the fuel near the suction line warm.  The fuel return line is directed to the hot well.

There actually is a fourth worry.  A stone cold engine is difficult to start.  Not because of cold lube oil or fuel so much as lousy combustion. You can either specify high cetane rating or use ether to assist.  One is expesive and the other can be dangerous and risky.

The autostart and APU systems are the current state of the art with regard to cold weather shutdown.

-Don (Random stuff, mostly about trains - what else? http://blerfblog.blogspot.com/

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Posted by Anonymous on Tuesday, December 4, 2007 7:43 AM

I really do hate having to get out of my nice warm switcher to go around and start all the engines around our shop when it starts to get cold, but in turn i also hate having to put them back in the shop because trhey got too cold and dumped their water.

 

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Posted by chefjavier on Tuesday, December 4, 2007 9:36 PM
 oltmannd wrote:
 YoHo1975 wrote:

I believe that Diesel fuel has a higher freezing point then gas. #2 turns to jelly if left in superlow temperatures, so there's actually a heater in the fuel tank or some such and by running the engine it doesn't get a chance to gel up.

 

I may be full of it on that though. 

No, you're very close.  There are 3 main worries.  One is the coolant freezing.  Antifreeze isn't generally practical in EMD and GE engines because of how likely water leaks are versus the damage caused when antifreeze gets in the lube oil.

The two other reasons are the fuel.  Diesel fuel has two critical temps to worry about - the cloud point and the pour point.  The cloud point is the temp where parafin (wax) in the fuel crystalizes.  You can spec the cloud point to be lower in the winter, but it'll cost you more for the fuel.  The fuel will still flow, but the parafin crystals will clog the fuel filter.

The pour point is the temp the fuel turns to a gel and won't flow at all.  You can spec the pour point, too, but the lower you spec it, the more it costs you.  The most common method refiners use to reduce the pour point is blending with #1 fuel oil (kerosene and/or jet fuel).

Even with the engines left idling, keeping the fuel system happy requires some technology.  The engines all have fuel pumps that supply a steady flow to the engine with significant return to the tank, even when in notch 8.  This flow is warmed by passing thru the injectors (high pressure pump on GEs) before going back to the tank.  In very cold climates, this is not enough to keep the fuel in the tank above the cloud point, so most road use fuel preheater which are heat exchangers between the fuel suppy line (upstream of the filters) and the engine cooling system.  UP also uses a "hot well" partition in the fuel tank to keep the fuel near the suction line warm.  The fuel return line is directed to the hot well.

There actually is a fourth worry.  A stone cold engine is difficult to start.  Not because of cold lube oil or fuel so much as lousy combustion. You can either specify high cetane rating or use ether to assist.  One is expesive and the other can be dangerous and risky.

The autostart and APU systems are the current state of the art with regard to cold weather shutdown.

Mr. Dictionary:

How's does Alaska Railroad keep it's fuel tanks from freezing at -20F {Outside}?

Javier
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Posted by Railway Man on Tuesday, December 4, 2007 10:26 PM
 chefjavier wrote:
 oltmannd wrote:
 YoHo1975 wrote:

I believe that Diesel fuel has a higher freezing point then gas. #2 turns to jelly if left in superlow temperatures, so there's actually a heater in the fuel tank or some such and by running the engine it doesn't get a chance to gel up.

 

I may be full of it on that though. 

No, you're very close.  There are 3 main worries.  One is the coolant freezing.  Antifreeze isn't generally practical in EMD and GE engines because of how likely water leaks are versus the damage caused when antifreeze gets in the lube oil.

The two other reasons are the fuel.  Diesel fuel has two critical temps to worry about - the cloud point and the pour point.  The cloud point is the temp where parafin (wax) in the fuel crystalizes.  You can spec the cloud point to be lower in the winter, but it'll cost you more for the fuel.  The fuel will still flow, but the parafin crystals will clog the fuel filter.

The pour point is the temp the fuel turns to a gel and won't flow at all.  You can spec the pour point, too, but the lower you spec it, the more it costs you.  The most common method refiners use to reduce the pour point is blending with #1 fuel oil (kerosene and/or jet fuel).

Even with the engines left idling, keeping the fuel system happy requires some technology.  The engines all have fuel pumps that supply a steady flow to the engine with significant return to the tank, even when in notch 8.  This flow is warmed by passing thru the injectors (high pressure pump on GEs) before going back to the tank.  In very cold climates, this is not enough to keep the fuel in the tank above the cloud point, so most road use fuel preheater which are heat exchangers between the fuel suppy line (upstream of the filters) and the engine cooling system.  UP also uses a "hot well" partition in the fuel tank to keep the fuel near the suction line warm.  The fuel return line is directed to the hot well.

There actually is a fourth worry.  A stone cold engine is difficult to start.  Not because of cold lube oil or fuel so much as lousy combustion. You can either specify high cetane rating or use ether to assist.  One is expesive and the other can be dangerous and risky.

The autostart and APU systems are the current state of the art with regard to cold weather shutdown.

Mr. Dictionary:

How's does Alaska Railroad keep it's fuel tanks from freezing at -20F {Outside}?

My, how arrogant.  But never matter.  The system as described works the same.  And by the way, operating temperature in Alaska is -60F.

RWM

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Posted by nbrodar on Wednesday, December 5, 2007 9:42 AM

Let us not forget the most important reason, to keep the cabs warm, so the toliets don't freeze. Smile [:)]

Nick

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Posted by Randy Stahl on Wednesday, December 5, 2007 7:15 PM
 nbrodar wrote:

Let us not forget the most important reason, to keep the cabs warm, so the toliets don't freeze. Smile [:)]

Nick

That can get ugly !!! Especially if they have the Microphor toilets!
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Posted by oltmannd on Thursday, December 6, 2007 8:56 AM
 nbrodar wrote:

Let us not forget the most important reason, to keep the cabs warm, so the toliets don't freeze. Smile [:)]

Nick

Conrail used to put antifreeze in the toilets!

Frozen toilets aren't too messy.  It's when they start to thaw....Shock [:O]

-Don (Random stuff, mostly about trains - what else? http://blerfblog.blogspot.com/

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Posted by nbrodar on Thursday, December 6, 2007 9:43 AM
 oltmannd wrote:
 nbrodar wrote:

Let us not forget the most important reason, to keep the cabs warm, so the toliets don't freeze. Smile [:)]

Nick

Conrail used to put antifreeze in the toilets!

Frozen toilets aren't too messy.  It's when they start to thaw....Shock [:O]

Can you say EEEEEWWWWW!  

I remember anti-freezing the toilets.  My current employer doesn't. Randy can probably answer this better, But I'm pretty sure antifreeze doesn't work with the Microphoe units.

Nick

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Posted by oltmannd on Thursday, December 6, 2007 11:21 AM
 nbrodar wrote:
 oltmannd wrote:
 nbrodar wrote:

Let us not forget the most important reason, to keep the cabs warm, so the toliets don't freeze. Smile [:)]

Nick

Conrail used to put antifreeze in the toilets!

Frozen toilets aren't too messy.  It's when they start to thaw....Shock [:O]

Can you say EEEEEWWWWW!  

I remember anti-freezing the toilets.  My current employer doesn't. Randy can probably answer this better, But I'm pretty sure antifreeze doesn't work with the Microphoe units.

Nick

My current employer had other toilet issues.....Ashamed [*^_^*]

Those Micorphot toilets are like little sewage treatment plants on wheels.  I think you're right about antifreeze - it'd kill the little digester beasties.

-Don (Random stuff, mostly about trains - what else? http://blerfblog.blogspot.com/

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Posted by Randy Stahl on Thursday, December 6, 2007 5:29 PM
 oltmannd wrote:
 nbrodar wrote:
 oltmannd wrote:
 nbrodar wrote:

Let us not forget the most important reason, to keep the cabs warm, so the toliets don't freeze. Smile [:)]

Nick

Conrail used to put antifreeze in the toilets!

Frozen toilets aren't too messy.  It's when they start to thaw....Shock [:O]

Can you say EEEEEWWWWW!  

I remember anti-freezing the toilets.  My current employer doesn't. Randy can probably answer this better, But I'm pretty sure antifreeze doesn't work with the Microphoe units.

Nick

My current employer had other toilet issues.....Ashamed [*^_^*]

Those Micorphot toilets are like little sewage treatment plants on wheels.  I think you're right about antifreeze - it'd kill the little digester beasties.

The microphors had immersion heaters to keep the water from freezing in the freshwater tank . The reliability of the heaters was dubious , when they froze they naturally expanded.... expanded into the electrical cabinet , cab, cab heater pipes etc. They were most difficult to remove from older GE's as they were jammed between the rear cab wall and the main electrical cabinet wall.... oh and they are made of stainless steel .. forget about cutting them out !

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Posted by Randy Stahl on Thursday, December 6, 2007 5:30 PM
 nbrodar wrote:
 oltmannd wrote:
 nbrodar wrote:

Let us not forget the most important reason, to keep the cabs warm, so the toliets don't freeze. Smile [:)]

Nick

Conrail used to put antifreeze in the toilets!

Frozen toilets aren't too messy.  It's when they start to thaw....Shock [:O]

Can you say EEEEEWWWWW!  

I remember anti-freezing the toilets.  My current employer doesn't. Randy can probably answer this better, But I'm pretty sure antifreeze doesn't work with the Microphoe units.

Nick

There is still anti freeze in the crappers , just not glycol , still hurts when it splashes on your parts.

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Posted by selector on Thursday, December 6, 2007 7:38 PM

At one time is was said that the worst thing you could to do a diesel engine was to start it.  So, the wisdom was, once you get it started, never turn it off...with one or two exceptions, such as critical maintenance.  The reasoning was that rebuilding/replacing a damaged diesel was much more costly in the long run than letting it idle for hours.  The internal parts would take a beating much like a gas engine does on start-up before tolerances are improved by the right temps and before lube can coat all the appropriate surfaces.

Has the technology changed sufficiently that this is no longer an issue?

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Posted by WSOR 3801 on Thursday, December 6, 2007 7:38 PM
 nbrodar wrote:

Let us not forget the most important reason, to keep the cabs warm, so the toliets don't freeze. Smile [:)]

Nick

 

There is also the matter of the air brake system in the cab.  If the air freezes up the brakes will do goofy things, or not work at all.  There are a number of check valves beneath the floor that can get jammed with even small pieces of ice on the lines.  If the moisture traps (spitter valves) on the main res don't work so good, or the crew shuts them off, the ice in the lines gets worse. 

Mike WSOR engineer | HO scale since 1988 | Visit our club www.WCGandyDancers.com

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Posted by Paul Milenkovic on Thursday, December 6, 2007 8:07 PM

oh and they are made of stainless steel .. forget about cutting them out !

I know this is a family forum, but a (cough, cough) ceramic privy (cough, cough) is considered the height of engineering overdesign, and some males of the human species with overactive imaginations use that metaphor to describe some females of the human species such as a certain Mr. Lionel Ritchie who had a hit song about a fired-clay structure.

But stainless steel.  Forget about brick!  Something that dulls cutting tools and only softens when exposed to a torch.  Is the GE locomotive stainless-steel commode going to provide a new metaphor?

If GM "killed the electric car", what am I doing standing next to an EV-1, a half a block from the WSOR tracks?

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Posted by erikem on Friday, December 7, 2007 12:12 AM
 selector wrote:

At one time is was said that the worst thing you could to do a diesel engine was to start it.  So, the wisdom was, once you get it started, never turn it off...with one or two exceptions, such as critical maintenance.  The reasoning was that rebuilding/replacing a damaged diesel was much more costly in the long run than letting it idle for hours.  The internal parts would take a beating much like a gas engine does on start-up before tolerances are improved by the right temps and before lube can coat all the appropriate surfaces.

Has the technology changed sufficiently that this is no longer an issue?

My understanding is that modern diesel engines have an electric lube oil pump. The pump is supposed to be run a few seconds before cranking the engine making sure that the bearings are properly lubricated. In addition to reducing wear, this also reduces the torque needed to start the engine. 

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Posted by selector on Friday, December 7, 2007 12:09 PM
Okay, that makes sense.  The pressurization of the main lube system prior to start-up would reduce wear considerably.  Thanks, erikem.
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Posted by samuelpc on Saturday, December 8, 2007 8:04 PM

my understanding is that the eletrical oil pump is for the turbo only, and does not feed the main gallerys .   the mains are fed once the engine is started

 

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Posted by Railway Man on Sunday, December 9, 2007 1:18 AM

Correct -- on an EMD the prelube pump is just for the turbo.

The more important concern about startup and shutdown than lubrication of the prime mover (except for the turbo) is expansion and contraction of the crankcase, which can lead to coolant leaks around the seals.  In the good old days when fuel was cheap it was more economical to leave the engine running to avoid the problems of leaks, the time it took to start the engine and wait for it to come up to operating temperature before putting it under load, and worry about the batteries not having enough oomph to get it started -- along with the freezeup, fuel gelling, and oil gelling difficulties.  Today the engine designs are much more tolerant of frequent startup and shutdown, and assuming the ambient temperature is not sub-freezing it's more economical to go through shutdown and startup if the locomotive isn't going to be needed for 4 or more hours.

RWM

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Posted by oltmannd on Monday, December 10, 2007 9:11 AM
 Railway Man wrote:

Correct -- on an EMD the prelube pump is just for the turbo.

The turbo "soakback" pump is primarily for cooling the turbo bearing after the engine is shut down.  There is little load on the turbo bearing on startup, so no real need to pre-lube.  Even the main and conrod bearings in the engine, which do have a pretty high load on start up, have enough residual lube so that you don't need to prelube until you are shut down for roughly a day.

-Don (Random stuff, mostly about trains - what else? http://blerfblog.blogspot.com/

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Posted by Railway Man on Monday, December 10, 2007 11:43 AM

You're absolutely correct.  I could claim faulty memory but I should have just pulled the manual off the shelf and refreshed my memory.

RWM

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Posted by ibeddows on Monday, December 10, 2007 3:11 PM
Alaska, according to recent Trains mag, idles their engines in the 3rd or 4th notch in the severe cold weather to keep them warm enough.
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Posted by anotheroldbiker on Monday, December 10, 2007 4:49 PM

Slightly off topic, but....

Does anyone know why diesel cars and trucks don't have similar gelling problems? Or how they overcome it?

          /Bob
 

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Posted by loco99 on Monday, December 10, 2007 6:57 PM

On an ES44 Prelube ---  is for Main Bearings, Turbo and Power Assemblies. 

Another comment: Rail roads are installing Automatic Start Engine Systems which disable auto Stop if  Out Side Temperature is below <45 F

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Posted by Railway Man on Monday, December 10, 2007 10:08 PM
 anotheroldbiker wrote:

Slightly off topic, but....

Does anyone know why diesel cars and trucks don't have similar gelling problems? Or how they overcome it?

          /Bob
 

Oh they do!  But winter blend fuels are used to overcome it, to a point.

The key measurement is cloud point, the temperature at which waxes start to form in the fuel and clog fuel filters.  Clouding will generally not occur until ambient temperature is 5-10F belowe the cloud point.  #2 diesel has a cloud point between 20F and 40F depending on how it is refined.  #1 diesel has a cloud point typically around -40F, which is sufficient for almost the very coldest climates.  Even so, many diesel vehicle designs for vehicles that might end up in cold climates have a fuel heater/bypass system so when the vehicle is running, some fuel is heated and recirculated to the fuel tank.

#1 diesel has a lower energy content (95% of #2), is more expensive to refine, and has diminished lubricating qualities compared to #2.  Highway diesel during winter months is a blend of #2 and #1 depending upon time of year and climate of the locale; sometimes in northern latitudes straight #1 is marketed side-by-side with winterized blend for those who want it/  Generally a 50-50 blend is good enough for all but the very coldest locales.  The danger is filling up a large tank at a low latitude and driving due north.

Here's more than most want to know:

http://www.exxon.com/USA-English/GFM/Products_Services/Fuels/Diesel_Fuels_FAQ.asp

RWM

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Posted by CNW 6000 on Wednesday, December 12, 2007 11:50 AM
 chefjavier wrote:
 oltmannd wrote:
 YoHo1975 wrote:

I believe that Diesel fuel has a higher freezing point then gas. #2 turns to jelly if left in superlow temperatures, so there's actually a heater in the fuel tank or some such and by running the engine it doesn't get a chance to gel up.

 

I may be full of it on that though. 

No, you're very close.  There are 3 main worries.  One is the coolant freezing.  Antifreeze isn't generally practical in EMD and GE engines because of how likely water leaks are versus the damage caused when antifreeze gets in the lube oil.

The two other reasons are the fuel.  Diesel fuel has two critical temps to worry about - the cloud point and the pour point.  The cloud point is the temp where parafin (wax) in the fuel crystalizes.  You can spec the cloud point to be lower in the winter, but it'll cost you more for the fuel.  The fuel will still flow, but the parafin crystals will clog the fuel filter.

The pour point is the temp the fuel turns to a gel and won't flow at all.  You can spec the pour point, too, but the lower you spec it, the more it costs you.  The most common method refiners use to reduce the pour point is blending with #1 fuel oil (kerosene and/or jet fuel).

Even with the engines left idling, keeping the fuel system happy requires some technology.  The engines all have fuel pumps that supply a steady flow to the engine with significant return to the tank, even when in notch 8.  This flow is warmed by passing thru the injectors (high pressure pump on GEs) before going back to the tank.  In very cold climates, this is not enough to keep the fuel in the tank above the cloud point, so most road use fuel preheater which are heat exchangers between the fuel suppy line (upstream of the filters) and the engine cooling system.  UP also uses a "hot well" partition in the fuel tank to keep the fuel near the suction line warm.  The fuel return line is directed to the hot well.

There actually is a fourth worry.  A stone cold engine is difficult to start.  Not because of cold lube oil or fuel so much as lousy combustion. You can either specify high cetane rating or use ether to assist.  One is expesive and the other can be dangerous and risky.

The autostart and APU systems are the current state of the art with regard to cold weather shutdown.

Mr. Dictionary:

How's does Alaska Railroad keep it's fuel tanks from freezing at -20F {Outside}?

By idling in notch 3.

Dan

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Posted by anotheroldbiker on Thursday, December 13, 2007 10:43 AM

Interesting. Thanks for your response.

          /Bob
 

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