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wrong.this is a 465c.i.
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wrong.this is a 465c.i.
but in stock cast form the block its self is not going to take it.
We have a winner - the reason for the added power of the LDS comes from two things: Increased air flow / pressure and the advancement of the COD point (commencement of delivery)An internal - combustion engine is nothing more that a large air pump (compressor) to move more air you must increase intake air by turbo / blower or cam timing . Could the cam timing gears be diferent from one to another. The LDS could have advanced cam timing over the LDT.
See, now I think THAT is interesting. Know anything more about these billet blocks?I have read about one person who tractor pulls with a 478 billet block because he broke so many stock ones.
This too! Thanks for posting.We have a winner - the reason for the added power of the LDS comes from two things: Increased air flow / pressure and the advancement of the COD point (commencement of delivery)
When you guys are debating this engine you have to remember one thing - IT IS NOT A DIESEL.
The MAN design which they ironically called the M-System or Whisper engine - it is a hypercycle engine; the combustion chamber in the top of the piston is designed to do one thing - create turbulence.
This piston style creates what is called squish - the majority of the piston top is flat (very unlike any other large diesel which now uses ORCA type piston crowns) the M-system uses almost 80% of the piston top for squish - as the piston approaches TDC the air velocities in the chamber can reach nearly 400ft/sec as the air is inverted and forced into the chamber. This combined with the inlet port design creates very high swirl rates allowing fuel to be poorly atomized and even deposited onto the floor and walls of the piston crown chamber.
Because of the poor atomization the fuel takes longer to evaporate and become entrained in the air charge - this slower flame front creates the characteristic lack of diesel knock in these engines (hence the whisper namesake) - to combat this the swirl and squish rates are driven very high, this creates very high velocity air flow which improves the uptake of the fuel.
This also allows for the burning of multiple fuel types in a compression ignited engine - if you were to try and modify a typical diesel to burn any range of fuels that the hypercycle engine can feed on you will blow the head off and likely brake the crank - a standard compression ignited arrangement will never allow you to run gasoline at 22:1 compression ratio if it is fully atomized - the charge will detonate long before the piston passes TDC.
To gain high turning efficency you need to apply the peak firing gas pressure some 3 to 7 degrees after TDC to maximize the tangential turning effort and minimize the load on the main bearings.
Any type of engine using diesel fuels needs to have an excess of air - in large machines it is close to 2.5:1 between the supplied and required air for combustion - now think what else this air does: provides cooling
The reason you have high EGT is the deficit in air - when you turn up the pump you begin to drive the engine into creating more power - the exhaust gas comes out with high velocity and volume - this drives the turbine and thus the compressor wheel of the turbocharger harder and faster as they are linked by the rigid drive shaft.
The problem arises when you ask the compressor wheel to pump more air - the turbocharger is designed around a specific air amount - go to either side of this plot and the output falls off - if you are really good you can overload the compressor so severly that you get component stall (or barking) this is instability in the compressor where it is reaching the point at which the compressor cannot overcome the booster pressure already in the engine manifold and it is easier for the wheel to in effect cavitate than it is to pump more air - this is a transient state as the barking is the noise created by the system resetting itself.
It is very violent and hard on the compressor; if done enough times the compressor blades will experiance a fatigue failure and you will destroy the turbocharger.
The gist of this novel is this - to get more power you need more fuel - to burn more fuel and not thermally overload the engine you need more air...
Advancing the timing raises the firing pressure, adding fuel raises the EGT - adding excess air cools it down - advance and additional fuel makes power - larger turbocharger (or a charge air cooler) keeps it alive.
HTH
Matt
See it even happens to the big boys - engine overloaded by placing larger propellers on a tug - surged for 8 hours then exploded - EGT was through the roof...
The last pic is a 320mm piston with a traditional top - a swell in the middle with a trough all around the avoid the spray of the injection nozzle...
What's with all the attitude guys? This isn't the kind of thing I'm used to seeing around here. I don't think this guy ha posted anything that warrants the kind of response he's received. ...
examples:... i still don't understand the differences in piston design between the MF and (for example) small Cummins.
http://www.steelsoldiers.com/showthread.php?43459-ldt-465-1c-vs-lds-465-multifuels-3.html#post484694............................
what do the MF pistons look like?
awesome, thanks.... They are flat topped, with a round "hole" in the center and a "ramp" that swirls into the hole. ...
ok, read the 'Principles of Operation' as described in TM-9-2815-204-35. that helps explain the combustion process and what the swirl is supposed to be doing....to me, mechanically the combustion chambers (piston bowls) do not appear to be significanly different. ...
When you guys are debating this engine you have to remember one thing - IT IS NOT A DIESEL.
It is by Continental's definition a compression ignition engine; how is that not a diesel?
The MAN design which they ironically called the M-System or Whisper engine - it is a hypercycle engine; the combustion chamber in the top of the piston is designed to do one thing - create turbulence.
This piston style creates what is called squish - the majority of the piston top is flat (very unlike any other large diesel which now uses ORCA type piston crowns) the M-system uses almost 80% of the piston top for squish - as the piston approaches TDC the air velocities in the chamber can reach nearly 400ft/sec as the air is inverted and forced into the chamber. This combined with the inlet port design creates very high swirl rates allowing fuel to be poorly atomized and even deposited onto the floor and walls of the piston crown chamber.
Because of the poor atomization the fuel takes longer to evaporate and become entrained in the air charge - this slower flame front creates the characteristic lack of diesel knock in these engines (hence the whisper namesake) - to combat this the swirl and squish rates are driven very high, this creates very high velocity air flow which improves the uptake of the fuel.
This also allows for the burning of multiple fuel types in a compression ignited engine - if you were to try and modify a typical diesel to burn any range of fuels that the hypercycle engine can feed on you will blow the head off and likely brake the crank - a standard compression ignited arrangement will never allow you to run gasoline at 22:1 compression ratio if it is fully atomized - the charge will detonate long before the piston passes TDC.
There have been a number of non M-chamber multifuel engines over the years; multifuel operation does not appear to require anything beyond high compression ratio (according to the Taylor bible etc).
To gain high turning efficency you need to apply the peak firing gas pressure some 3 to 7 degrees after TDC to maximize the tangential turning effort and minimize the load on the main bearings.
Any type of engine using diesel fuels needs to have an excess of air - in large machines it is close to 2.5:1 between the supplied and required air for combustion - now think what else this air does: provides cooling
The reason you have high EGT is the deficit in air - when you turn up the pump you begin to drive the engine into creating more power - the exhaust gas comes out with high velocity and volume - this drives the turbine and thus the compressor wheel of the turbocharger harder and faster as they are linked by the rigid drive shaft.
The problem arises when you ask the compressor wheel to pump more air - the turbocharger is designed around a specific air amount - go to either side of this plot and the output falls off - if you are really good you can overload the compressor so severly that you get component stall (or barking) this is instability in the compressor where it is reaching the point at which the compressor cannot overcome the booster pressure already in the engine manifold and it is easier for the wheel to in effect cavitate than it is to pump more air - this is a transient state as the barking is the noise created by the system resetting itself.
It is very violent and hard on the compressor; if done enough times the compressor blades will experiance a fatigue failure and you will destroy the turbocharger.
The gist of this novel is this - to get more power you need more fuel - to burn more fuel and not thermally overload the engine you need more air...
Advancing the timing raises the firing pressure, adding fuel raises the EGT - adding excess air cools it down - advance and additional fuel makes power - larger turbocharger (or a charge air cooler) keeps it alive.
HTH
Matt
See it even happens to the big boys - engine overloaded by placing larger propellers on a tug - surged for 8 hours then exploded - EGT was through the roof...
The last pic is a 320mm piston with a traditional top - a swell in the middle with a trough all around the avoid the spray of the injection nozzle...
Based on what I have read, the multifuel block is weak and the number six tends to break loose. There are a few threads on the tractor pulling sites which talk about. IIRC, the tractor puller was breaking ~5 blocks per season and went to a billet block.See, now I think THAT is interesting. Know anything more about these billet blocks?
Well, in this case/thread, perhaps the fact the the OP(relative newb) starts a thread, states he is gonna get to the bottom of this issue, then proceeds to post "facts" that are not correct or relevant. Then drops off and never comes back to follow up.
And then in this thread, another newb comes along, makes incredible statements (without stating details such as reason why, end goal, budget....).
This pattern continues time and time again. Eventually the long term forum members see this and grow tired of it. The comments are not made to "crush" their dreams, we're just a bit more down to earth. ie. what the heck you gonna do with a 3000 rpm 300hp engine in an M35a2? Let's talk about brake, trans, t-case, tire mods, needed to go along with this plan.
Understood, however you can be a little more civil. There have been numerous talks about brakes, trans, t-case, etc. There is not reason to exclude engine discussion.
Quite simply, if you never owned a muli-fuel engine, you just don't have any experiance or understanding of what your dealing with.
I hope that you don't really beleive this. I am sure that major diesel engine designers who have never "owned" a multifuel know about the M-combustion chamber and multifuel design. Owning does not make you an expert. There have been "new" developments in understanding that challenged (and corrected) long standing "experts."
I would grudgingly admit that it is a very very close relative to what we normally call a Diesel - but just as a 2 stroke marine engine does not use the Diesel Cycle (it uses an Otto Cycle) although most people call them diesels - the hypercycle is different mainly because of the high compression ratio - 16 or 17:1 is common on most diesels and we have 22:1 hereMy comments in red:
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