In short, because the upper half spends more time with the hottest gasses than the lower half. The greatest heat loads are where the majority of combustion takes place, the highest combustion temperatures are reached, and where the hot gasses are in contact with the cylinder wall for the longest period of time, which would be in the upper half of the cylinder. By the time the combustion gases contact the lower part of the cylinder they have expanded and cooled considerably therefore the lower cylinder walls absorb far less heat. Cooling from scavenge air is most likely negligible. From air cooled lawnmowers to liquid cooled automotive engines you'll notice the cylinder head and the upper cylinder half have the largest/most cooling fins or have the greatest internal cooling water flow compared to the rest of the engine.
Air from the turbocharger is cooled in the charge air cooler before it enters the air receiver space. Typically this reaches 180+ degrees after the TC and is cooled to 50 degrees.
Ellen, I'm not sure who told you such a thing, but consider these facts. Low speed marine diesel engines are some of the most efficient internal combustion engines in the world, meaning that they extract the maximum amount of power from the minimum amount of fuel. In doing so, the achieve a level of combustion that reduced the amount of unburned hydrocarbons that exit the engine as exhaust gas. when you consider that a large jet aircraft consumes as much fuel per hour of operation as a large ship, I think that you can readily see that there is likely significantly more fuel being burned every day by commercial aircraft world wide than by ships. If you are interested in actually finding the answer to your question, I would be happy to point you towards primary data sources.
So amazing, to see such a massive part of our driving forces of today's industry.
Great videos with lots of useful info and guidance for marine engineers
Great video with lot's of information, thanks!.
Super clear !
great information and technology
Informative and interesting, thanks.
Great video folks!
Man, this is a great video! lol
An Excellent tutorial regarding the MAN Diesel?.
great job
Also, not centigrade, just Celsius.
What type new piston ring now instoled better?
Increase idle speed range 750 900 1050 rpm armonic torq super silent engine check turbocharguer vgt flywheel rear (housing box gear no used) balancing flywheel plome (maybe wheel tyres) exahust manifould liquid cooler
Not “degrees Kelvin”, just Kelvins.
Does the scavenge air cool down the lower part of the cylinder liner? The cooling jacket is only covering the upper part of the liner.
In short, because the upper half spends more time with the hottest gasses than the lower half.
The greatest heat loads are where the majority of combustion takes place, the highest combustion temperatures are reached, and where the hot gasses are in contact with the cylinder wall for the longest period of time, which would be in the upper half of the cylinder. By the time the combustion gases contact the lower part of the cylinder they have expanded and cooled considerably therefore the lower cylinder walls absorb far less heat. Cooling from scavenge air is most likely negligible. From air cooled lawnmowers to liquid cooled automotive engines you'll notice the cylinder head and the upper cylinder half have the largest/most cooling fins or have the greatest internal cooling water flow compared to the rest of the engine.
Air from the turbocharger is cooled in the charge air cooler before it enters the air receiver space. Typically this reaches 180+ degrees after the TC and is cooled to 50 degrees.
Frans Romeijn I'm guessing that's degrees celsius?
master7chief yes thats Celsius.
Very goud
Please, can you add Italian subtitles?
Greek also . Thank's.
I'm told that most of the Pollution in the world is owing to the diesel engines on ships. I wonder what they will do about that?
Bull crap
Ellen, I'm not sure who told you such a thing, but consider these facts. Low speed marine diesel engines are some of the most efficient internal combustion engines in the world, meaning that they extract the maximum amount of power from the minimum amount of fuel. In doing so, the achieve a level of combustion that reduced the amount of unburned hydrocarbons that exit the engine as exhaust gas. when you consider that a large jet aircraft consumes as much fuel per hour of operation as a large ship, I think that you can readily see that there is likely significantly more fuel being burned every day by commercial aircraft world wide than by ships. If you are interested in actually finding the answer to your question, I would be happy to point you towards primary data sources.
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