- #1
yudzark
Are large two stroke engines with cross-head bearings reversible?
Nidum said:Just aside - anyone ever tried to kickstart a big 1950's vintage British motorbike ? Many a luckless rider got propelled quite violently into the nearest hedge when the engines on these tried to start the wrong way .
Nidum said:Some kinds of large engine can be designed to be reversible but I don't understand the significance of cross head bearings in this question ? What is it that you actually want to know ?
I apologise for my lingo error. BTW I wanted to know about the technological developments over the years in reversing mechanism.
Although I used crosshead bearing as an engine specification. And I do know that it plays no part in reversing the engine.
Hmmm. Looks like a crankshaft, con rod, and piston here. (VERY big ones! Ocean going vessel?)yudzark said:If you look closely at my profile picture, it is the x-head you will be looking at.
Yes it is an ocean going vessel.Tom.G said:Hmmm. Looks like a crankshaft, con rod, and piston here. (VERY big ones! Ocean going vessel?)
The maritime industry uses turbochargers and not superchargers, we compress the exhaust gas and reuse it in scavenging the engine and we also use exhaust gas to run Economiser gas boiler in a waste heat recovery system.Rx7man said:The biggest reasons any two stroke can't be reversed is if they have a supercharger for scavenging, and/or if they have a gear pump to pressure lubricate the bottom end... If the oil pump runs backward you won't get oil (piston style pumps would still work correctly though), and if the supercharger works backward, things will get weird really quickly!
yudzark said:The maritime industry uses turbochargers and not superchargers, we compress the exhaust gas and reuse it in scavenging the engine and we also use exhaust gas to run Economiser gas boiler in a waste heat recovery system.
The bottom end bearing is lubricated from drilled holes in the crankshaft, oil is sent by an external pump(screw pump) outside the engine, the bearing has wedges to sustain elastohydrodynamic lubrication as an oil film.
The crosshead bearing is lubricated by a telescopic pipe(MAN B&W design) or articulating pipe(SULZER/Wartsilla design).
What you said is correct and holds true for 4-stroke engines without a cross-head bearing. The process is totally different in a large two-stroke engine used on a ship.
Nidum said:
Rx7man said:I just cannot figure out how the presence or absence of a crosshead bearing has any relation to the reversibility of an engine. it slides back and forth the same way regardless of engine direction.
I just provided a few examples of engineering designs that would be detrimental to operating in reverse.
I'd like to add that 2 stroke engines with valves (Detroit) will also not run properly in reverse because the gas flow is going to be completely wrong
A reversible two stroke engine is an internal combustion engine that completes one power cycle in two strokes of the piston (one upward and one downward). It is called "reversible" because it can operate in both forward and reverse directions.
A reversible two stroke engine works by using the upward and downward motion of the piston to create a suction and compression of air-fuel mixture in the combustion chamber. Ignition of the mixture then creates an explosion, which pushes the piston downward and generates power.
Some advantages of a reversible two stroke engine include its simplicity, compact size, and high power-to-weight ratio. It also has fewer moving parts, making it more reliable and easier to maintain.
Reversible two stroke engines are commonly used in small, lightweight vehicles like scooters, motorcycles, and snowmobiles. They are also used in lawn mowers, chainsaws, and other small power tools.
One of the main limitations of a reversible two stroke engine is its efficiency. It tends to consume more fuel and produce more emissions compared to four stroke engines. It also has a limited speed range and is not suitable for larger vehicles.