(→‎Types: fixed references again)
Tag: n
(page cleanup)
(8 intermediate revisions by 5 users not shown)
Line 1: Line 1:
A '''internal combustion engine''' is a type of [[thermal motor]] in which the a [[fuel]] is [[deflagration|combusted]] in [[piston]]s, [[turbine blade]] or trough a [[propulsive nozzle]].
A '''internal combustion engine''' is a type of [[thermal motor]] in which the a [[fuel]] is [[deflagration|combusted]] in [[piston]]s, [[turbine blade]] or through a [[propulsive nozzle]].


==Types==
==Types==
Most popularly used internal combustion engines are "gasoline" or "Otto-type" engines (engines using the [http://en.wikipedia.org/wiki/Four-stroke_engine Otto-cycle]. Otto-type or spark-ignition engines use a spark (provided trough a spark plug, powered by a [[battery]] or [[magneto]]) to deflagrate the fuel. Batteries require electronics (ie printed circuit board), whereas magneto's use a magnet to immediatelly convert rotational energy to electricity. The latter are thus sturdier and preferred in most cases. Advanced systems using batteries can be more fuel-efficient though.
[[File:4StrokeEngine_Ortho_3D_Small.gif|thumb|right|200px|Otto-cycle: used in 4-stroke gasoline engines]]
[[File:Diesel_Engine_(4_cycle_running).gif|thumb|right|200px|Diesel-cycle: used in 4-stroke Diesel engines]]
Most popularly used internal combustion engines are "gasoline" or "Otto-type" engines (engines using the [http://en.wikipedia.org/wiki/Four-stroke_engine Otto-cycle]. Otto-type or spark-ignition engines use a spark (provided through a spark plug, powered by a [[battery]] or [[magneto]]) to deflagrate the fuel. Batteries require electronics (ie printed circuit board), whereas magneto's use a magnet to immediatelly convert rotational energy to electricity. The latter are thus sturdier and preferred in most cases. Advanced systems using batteries can be more fuel-efficient though.


"Diesel engines" are a entirely different type of engine.<ref>[http://www.carbibles.com/fuel_engine_bible.html Diesel engine overview 1]</ref><ref>[http://www.dummies.com/how-to/content/how-do-diesel-engines-work.html Diesel engine overview 2]</ref><ref>[http://en.wikipedia.org/wiki/Diesel_engine Diesel engine overview 3]</ref><ref>[http://auto.howstuffworks.com/diesel1.htm Diesel engine overview 4]</ref> Diesel engines use the Diesel cycle. <ref>[http://www.tpub.com/eqopbas/12535_files/image020.jpg Diesel-cycle 1]</ref><ref>[http://visual.merriam-webster.com/images/transport-machinery/road-transport/types-engines/diesel-engine-cycle.jpg Diesel-cycle 2]</ref>. As clear in the cycle, the inlet only introduces pure air, and not a air/fuel mix. A additional, seperate, fuel inlet is also present, the outlet is the same as with Otto-engines. For their ignition, they rely on compression-ignition.
"Diesel engines" are a entirely different type of engine.<ref>[http://www.carbibles.com/fuel_engine_bible.html Diesel engine overview 1]</ref><ref>[http://www.dummies.com/how-to/content/how-do-diesel-engines-work.html Diesel engine overview 2]</ref><ref>[http://en.wikipedia.org/wiki/Diesel_engine Diesel engine overview 3]</ref><ref>[http://auto.howstuffworks.com/diesel1.htm Diesel engine overview 4]</ref> Diesel engines use the Diesel cycle. <ref>[http://www.tpub.com/eqopbas/12535_files/image020.jpg Diesel-cycle 1]</ref><ref>[http://visual.merriam-webster.com/images/transport-machinery/road-transport/types-engines/diesel-engine-cycle.jpg Diesel-cycle 2]</ref><ref>[http://www.animatedengines.com/diesel.html Diesel engine cycle animation]</ref>. As clear in the cycle, the inlet only introduces pure air, and not a air/fuel mix. A additional, separate, fuel inlet is also present, the outlet is the same as with Otto-engines. For their ignition, they rely on compression-ignition.


Note that contrary to popular belief, the 2 types are not restricted to run on either petrol (gasoline) or diesel. The diesel engine for example was initially designed to run on peanut oil (a type of [[biofuel]]. It is [[ICE fuel conversion|still capable of running on this biofuel]] (as well as many other biofuels) although some tweaking is generally necessary to circumvent some current limitations (since the initial Diesel-engine, Diesel engines produced today typically use direct or unit-direct injection rather than [http://en.wikipedia.org/wiki/Diesel_engine#Indirect_injection indirect injection]). Gasoline engines are typically a lot more restrictive in regards to the fuels they can run on (principally only ethanol, some gaseous biofuels (wood gas, oxyhydrogen, hydrogen, nitrous oxide, ...).
Note that contrary to popular belief, the 2 types are not restricted to run on either petrol (gasoline) or diesel. The diesel engine for example was initially designed to run many types of fuels (including peanut oil, which is a type of [[biofuel]]). It is [[ICE fuel conversion|still capable of running on this biofuel]] (as well as many other biofuels) although some tweaking is generally necessary to circumvent some current limitations (since the initial Diesel-engine, Diesel engines produced today typically use direct or unit-direct injection rather than [http://en.wikipedia.org/wiki/Diesel_engine#Indirect_injection indirect injection]). Gasoline engines are typically a lot more restrictive in regards to the fuels they can run on (principally only ethanol, some gaseous biofuels (wood gas, oxyhydrogen, hydrogen, nitrous oxide, ...).


Besides Otto-engines (often of the line-engine type), several other Otto-types too exist. An overview is given at [[Comparison of IC motors]]
Besides Otto-engines (often of the line-engine type), several other Otto-types too exist. An overview is given at [[Comparison of IC motors]]
==Extra notes==
<!--Copied this section from "Improving_system_efficiency_by_combining_engines" as section is useful to both articles-->
Note that a differentiation needs to be made between Diesel engines. In general, we can distinguish 2 main types: the 4-stroke Diesel engine and the 2-stroke Diesel engine. Both need to have [[indirect injection]] as direct/unit-direct injection does not allow the use of low-grade fuels (ie low-quality plant oils, ...) The 4-stroke Diesel engine equipped with indirect injection only attains a efficiency of 35%, whereas the 2-stroke Diesel engine (of the [[2-stroke Diesel engine|uniflow crosshead type]]) can attain 50% efficiency, and run on any type of liquid fuel.<ref>[http://en.wikipedia.org/w/index.php?title=Two-stroke_diesel_engine&printable=yes 2-stroke Diesel engine capable of running on any type of liquid fuel]</ref> Note that the 2-stroke Diesel engine is only useful for stationary applications, as they are very heavy. They have been used in ships, as in these vehicles, the extra weight of the engine doesn't matter as much as in ground vehicles, as vehicles on water [http://en.wikipedia.org/wiki/Archimedes'_principle already experience a weight reduction]. Regardless, they are nonetheless best not used for this as weight still plays a role (although a lesser one).
Also note that the high efficiencies can only be reached when they attain their optimal speed/load ratio, see [[Electric and hybrid electric vehicles]]


==References==
==References==
Line 20: Line 28:


==External links==
==External links==
* [http://en.wikipedia.org/wiki/Crosshead Crosshead linkage]: Engines using a crosshead linkage are significanly more able to withstand the forces of the piston and thus more durable  
* [http://en.wikipedia.org/wiki/Crosshead Crosshead linkage] and [http://commons.wikimedia.org/wiki/File:Crosshead_vs_trunk.svg Trunk piston engines]: Engines using a crosshead linkage and trunk pistons are significanly more able to withstand the forces of the piston and thus more durable; the first type is a 2-stroke engine, the other a 4-stroke engine


[[Category:Energy conversion]]
[[Category:Energy conversion]]

Revision as of 12:28, 17 July 2013

A internal combustion engine is a type of thermal motor in which the a fuel is combusted in pistons, turbine blade or through a propulsive nozzle.

Types

Otto-cycle: used in 4-stroke gasoline engines
Diesel-cycle: used in 4-stroke Diesel engines

Most popularly used internal combustion engines are "gasoline" or "Otto-type" engines (engines using the Otto-cycle. Otto-type or spark-ignition engines use a spark (provided through a spark plug, powered by a battery or magneto) to deflagrate the fuel. Batteries require electronics (ie printed circuit board), whereas magneto's use a magnet to immediatelly convert rotational energy to electricity. The latter are thus sturdier and preferred in most cases. Advanced systems using batteries can be more fuel-efficient though.

"Diesel engines" are a entirely different type of engine.[1][2][3][4] Diesel engines use the Diesel cycle. [5][6][7]. As clear in the cycle, the inlet only introduces pure air, and not a air/fuel mix. A additional, separate, fuel inlet is also present, the outlet is the same as with Otto-engines. For their ignition, they rely on compression-ignition.

Note that contrary to popular belief, the 2 types are not restricted to run on either petrol (gasoline) or diesel. The diesel engine for example was initially designed to run many types of fuels (including peanut oil, which is a type of biofuel). It is still capable of running on this biofuel (as well as many other biofuels) although some tweaking is generally necessary to circumvent some current limitations (since the initial Diesel-engine, Diesel engines produced today typically use direct or unit-direct injection rather than indirect injection). Gasoline engines are typically a lot more restrictive in regards to the fuels they can run on (principally only ethanol, some gaseous biofuels (wood gas, oxyhydrogen, hydrogen, nitrous oxide, ...).

Besides Otto-engines (often of the line-engine type), several other Otto-types too exist. An overview is given at Comparison of IC motors

Extra notes

Note that a differentiation needs to be made between Diesel engines. In general, we can distinguish 2 main types: the 4-stroke Diesel engine and the 2-stroke Diesel engine. Both need to have indirect injection as direct/unit-direct injection does not allow the use of low-grade fuels (ie low-quality plant oils, ...) The 4-stroke Diesel engine equipped with indirect injection only attains a efficiency of 35%, whereas the 2-stroke Diesel engine (of the uniflow crosshead type) can attain 50% efficiency, and run on any type of liquid fuel.[8] Note that the 2-stroke Diesel engine is only useful for stationary applications, as they are very heavy. They have been used in ships, as in these vehicles, the extra weight of the engine doesn't matter as much as in ground vehicles, as vehicles on water already experience a weight reduction. Regardless, they are nonetheless best not used for this as weight still plays a role (although a lesser one).

Also note that the high efficiencies can only be reached when they attain their optimal speed/load ratio, see Electric and hybrid electric vehicles

References

Template:Reflist

See also

External links

  • Crosshead linkage and Trunk piston engines: Engines using a crosshead linkage and trunk pistons are significanly more able to withstand the forces of the piston and thus more durable; the first type is a 2-stroke engine, the other a 4-stroke engine
Cookies help us deliver our services. By using our services, you agree to our use of cookies.