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==got rid of GM diesel info==
there was info about an upcoming GM diesel engine and I deleted it. This article is on gasoline engines, NOT diesel... <span style="font-size: smaller;" class="autosigned">—Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/72.85.55.206|72.85.55.206]] ([[User talk:72.85.55.206|talk]]) 14:39, 15 October 2008 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->

==Later systems==
I went ahead and altered the additional information about Ford's DI system.
*While Ford made a press release concerning their direct injection system in 2001, it did not enter the marketplace until 2003. (correct me if I'm wrong)
*Bringing up concept vehicles is trivial to the scope of this article.
*Removed the EcoBoost main page redirect, all the other engines are highlighted.
*For consistency I grouped the Ford products with each other.

Also I believe without the modifications that portion of the article becomes biased towards Ford's products. <span style="font-size: smaller;" class="autosigned">—Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/69.65.224.246|69.65.224.246]] ([[User talk:69.65.224.246|talk]]) 17:28, 17 July 2009 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->

:In 2001 Ford released materials including information of a 1.1-liter engine under testing equipped with DI. All dates in that section pertain to the manufactures release of the technology to the marketplace. http://media.ford.com/article_display.cfm?article_id=9493 Ford released their system to the marketplace in 2003. [[Special:Contributions/69.65.224.246|69.65.224.246]] ([[User talk:69.65.224.246|talk]])

I beg to differ, concept vehicles is the best way to demonstrate product development. Isn't trivial. Redirect isn't main article. Chronologically do as well consistency. Biased there's not, all modifications about Ford engines representation of factual information. Please do not remove referenced information from articles. Thank you. --[[User:Tomcha|Tomcha]] ([[User talk:Tomcha|talk]]) 19:30, 17 July 2009 (UTC)

::This is not a Ford specific article, no need to mention a 2001 Ford engine that was not in production. And no need to specifically single out the EcoBoost engine. Ford's concept vehicles are already discussed in Ford specific pages which again this article is not. Thanks [[Special:Contributions/69.65.224.246|69.65.224.246]] ([[User talk:69.65.224.246|talk]])

Need to mention that a system conception is primary for objective facts of all developments, direct injection. --[[User:Tomcha|Tomcha]] ([[User talk:Tomcha|talk]]) 16:24, 19 July 2009 (UTC)

::::The article clearly pertains to production engines, not everything bit of Ford minutiae. <span style="font-size: smaller;" class="autosigned">—Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/69.65.224.246|69.65.224.246]] ([[User talk:69.65.224.246|talk]]) 22:56, 19 July 2009 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->

You are wrong. Please do not remove relevant referenced fact from articles. Thank you. --[[User:Tomcha|Tomcha]] ([[User talk:Tomcha|talk]]) 18:43, 20 July 2009 (UTC)

:Ford doesn't build a production 3-cyl engine. this isn't an article to detail Ford concepts and non-production engines. [[Special:Contributions/69.65.224.246|69.65.224.246]] ([[User talk:69.65.224.246|talk]]) 07:12, 28 July 2009 (UTC)

All right, concepts engines. Please do not assume ownership of articles. If you aren't willing to allow your contributions to be edited extensively or be redistributed by others, please do not submit them. Thank you. --[[User:Tomcha|Tomcha]] ([[User talk:Tomcha|talk]]) 20:19, 28 July 2009 (UTC)

:not assuming ownership, none of the other editors have ever attempted to include any manufactures concept cars or non production engines, or focus on any single manufacturer so heavily adding any bit of trivial information, there is zero relevance in a general DI article to include engines from concept vehicles. Again please do not remove tags without discussion. [[Special:Contributions/69.65.224.246|69.65.224.246]] ([[User talk:69.65.224.246|talk]]) 20:32, 28 July 2009 (UTC)
::also it has been pointed out to you in the [[Ford EcoBoost engine]] article that the Bobcat engine isn't a two-stroke engine, yet you choose to revert factual edits. That and all the bits of Ford information you are adding to this article can already be found in that same article. [[Special:Contributions/69.65.224.246|69.65.224.246]] ([[User talk:69.65.224.246|talk]]) 20:38, 28 July 2009 (UTC)
:: V8 EcoBoost (Bobcat) is a two-injection stroke engine, uses E85 injection and gasoline injection. --[[User:Tomcha|Tomcha]] ([[User talk:Tomcha|talk]]) 20:45, 28 July 2009 (UTC)
:::Again you have been told by two editors that the Bobcat engine isn't a two-stroke engine. Clearly you do not know what a two stroke engine is. [[Special:Contributions/69.65.224.246|69.65.224.246]] ([[User talk:69.65.224.246|talk]]) 21:00, 28 July 2009 (UTC)


I am a little concerned with this part of the article ->
"Twin-fuel engines

Code named Bobcat the new twin-fuel engine from Ford. It is based on a 5.0L V8 engine block, but it uses E85 cylinder injection and gasoline port injection. The engine was co-developed with Ethanol Boosting Systems, LLC of Cambridge, Massachusetts, which calls its trademarked process DI Octane Boost. The direct injection of ethanol increases the octane of regular gasoline from 88-91 octane to more than 150 octane. The Bobcat project was unveiled in Department of Energy and Society of Automotive Engineers in April 2009.[41][42]"

Ethanol does not have that high of an octane, and mixing it with gas would not cause that... perhaps a ethanol/water mixture could reach that level, but if that is the case it should state it.

For the record. Ethanol's octane is 129 according to http://en.wikipedia.org/wiki/Ethanol <span style="font-size: smaller;" class="autosigned">—Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/67.177.147.18|67.177.147.18]] ([[User talk:67.177.147.18|talk]]) 20:10, 18 October 2009 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
:Wikipedia does not publish original research or original thought, [[WP:OR]]. --[[User:Tomcha|Tomcha]] ([[User talk:Tomcha|talk]]) 19:01, 22 October 2009 (UTC)

==Article needs graphics==
This article needs an animated schematic.

If it can be done for nuclear reactors ([[http://en.wikipedia.org/wiki/File:PressurizedWaterReactor.gif Pressurized Water Reactor]] and [[http://en.wikipedia.org/wiki/File:BoilingWaterReactor.gif Boiling Water]] have them, then surely fans of the auto industry, which is
much larger, can do one. [[User:Wikip rhyre|rhyre]] ([[User talk:Wikip rhyre|talk]]) 10:44, 9 November 2009 (UTC)

== WWII aircraft engine unlisted ==

According to [[Nakajima Ki-84]] page, the fighter used a direct injection version of the [[Nakajima Homare]] engine.[[Special:Contributions/92.58.53.99|92.58.53.99]] ([[User talk:92.58.53.99|talk]]) 22:39, 5 August 2010 (UTC)

== more explanation ==

The "theory or operation" section needs a new starting paragraph that explains in some detail the statement from the intro: "The gasoline is highly pressurized, and injected via a common rail fuel line directly into the combustion chamber of each cylinder, as opposed to conventional multi-point fuel injection that happens in the intake tract, or cylinder port."

It does not make sense to begin a "theory of operation" with the effects or consequences (advantages) of the technology whose workings have not yet been explained. [[Special:Contributions/65.200.157.179|65.200.157.179]] ([[User talk:65.200.157.179|talk]]) 19:23, 14 January 2011 (UTC)


== carbon build up ==
== carbon build up ==
Line 77: Line 23:


I added that most of the carbon buildup comes from blow-by past the piston rings (or the crankcase oil itself, if fossil based), not from air through the air intake filter. Products of combustion steadily leak past the piston rings into the crankcase. This pressure has to go somewhere so it's routed into the intake plenum. Some engines have separators to remove liquid component of this mixture but they might not work as designed under all situations. So a mist of fossil/synthetic oil and blowback carbon gradually cooks onto the hot intake valves and manifold. <small class="autosigned">—&nbsp;Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/204.128.192.34|204.128.192.34]] ([[User talk:204.128.192.34|talk]]) 02:30, 12 March 2016 (UTC)</small><!-- Template:Unsigned IP --> <!--Autosigned by SineBot-->
I added that most of the carbon buildup comes from blow-by past the piston rings (or the crankcase oil itself, if fossil based), not from air through the air intake filter. Products of combustion steadily leak past the piston rings into the crankcase. This pressure has to go somewhere so it's routed into the intake plenum. Some engines have separators to remove liquid component of this mixture but they might not work as designed under all situations. So a mist of fossil/synthetic oil and blowback carbon gradually cooks onto the hot intake valves and manifold. <small class="autosigned">—&nbsp;Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/204.128.192.34|204.128.192.34]] ([[User talk:204.128.192.34|talk]]) 02:30, 12 March 2016 (UTC)</small><!-- Template:Unsigned IP --> <!--Autosigned by SineBot-->

== Merge proposal with Stratified charge engine ==

Since no-one appears to have started a discussion on the proposed merger of [[Stratified charge engine]] into this article, I shall begin the discussion:

'''Oppose:''' The concepts may be related, but they are not identical. Two notable stratified charge systems, Honda's [[CVCC|Compound Vortex Controlled Combustion (CVCC)]] from 1975 to 1983 and Piaggio's system as used in the [[Vespa]] ET2, use carburetors to vapourize the fuel. [[User:SamBlob|Sincerely, SamBlob]] ([[User talk:SamBlob|talk]]) 13:40, 27 May 2013 (UTC)

* '''Oppose''' It's nonsense to even suggest this. We might as well merge clutch and carburettor. [[User:Andy Dingley|Andy Dingley]] ([[User talk:Andy Dingley|talk]]) 17:26, 27 May 2013 (UTC)


== Clarification needed ==
== Clarification needed ==
Line 122: Line 60:


::* {{u|Johannes Maximilian}}: Thanks for all the info, and for your patience in carefully explaining the topic. I'll make some changes to the article. Feel free to make changes or discuss further if there's any issues. <p> Just to explain my edit regarding item #1, I am wary about making global statements based on a few German engines. If there are examples from U.S. or Asian manufacturers, I'm happy for the wording to be broader. On the other hand, I have moved the stratified charge paragraph from the intro, because it is less widespread than I'd previously thought. Hope this is ok. <p> PS Thankfully I found some stats on GDI usage in [[Stratified charge]], so that ticks #5 off off the list. Also, that is quite amusing about the naming of the Volkwagen BAD engine! Cheers, [[User:1292simon|1292simon]] ([[User talk:1292simon|talk]]) 23:40, 9 November 2019 (UTC)
::* {{u|Johannes Maximilian}}: Thanks for all the info, and for your patience in carefully explaining the topic. I'll make some changes to the article. Feel free to make changes or discuss further if there's any issues. <p> Just to explain my edit regarding item #1, I am wary about making global statements based on a few German engines. If there are examples from U.S. or Asian manufacturers, I'm happy for the wording to be broader. On the other hand, I have moved the stratified charge paragraph from the intro, because it is less widespread than I'd previously thought. Hope this is ok. <p> PS Thankfully I found some stats on GDI usage in [[Stratified charge]], so that ticks #5 off off the list. Also, that is quite amusing about the naming of the Volkwagen BAD engine! Cheers, [[User:1292simon|1292simon]] ([[User talk:1292simon|talk]]) 23:40, 9 November 2019 (UTC)

:::* So it turns out that VW's ''Fuel Stratified Engines'' are no longer actually stratified?! Wow, that is quite a revelation! Thanks for fixing up my mistake, sorry I assumed from the name that they still used a stratified charge mode. Cheers, [[User:1292simon|1292simon]] ([[User talk:1292simon|talk]]) 08:31, 11 November 2019 (UTC)

::::Yes indeed, VW's Fuel Stratified Injected (FSI) engines are not stratified anymore (stratification has been mostly disabled in the ECU), and the Turbo Stratified Injected (TSI) and Turbo Fuel Stratified Injected (TFSI) engines have actually never been stratified in the first place. This is why their pistons have a differently shaped piston bowl (it doesn't have the swirl cavity). In fact, even some ''FSI'' engines have never been stratified! Starting from somewhat in between 2002 and 2004 (I don't know the exact year), VW (or well, Audi) disabled stratification from the factory, and replaced the pistons in their FSI engines that used to have the swirl cavitiy piston bowl, with pistons that have a more traditional otto cycle four stroke petrol engine piston bowl (Germanic languages fortunately come with unlimited length compund words). There is some interesting information on this in Richard van Basshuysen (ed.): Ottomotor mit Direkteinspritzung und Direkteinblasung: Ottokraftstoffe · Erdgas · Methan · Wasserstoff. 4th edition, Springer, Wiesbaden 2017, ISBN 978-3-658-12215-7. pp. 436. Apparently, only in the Audi A3 8P, the 1.6 and 2.0 litre FSI engines were actually stratified, but only until 2006/2007, when they were discontinued in favour of the newly introduced homogeneous 1.8 litre TFSI direct injected and the (then already existing) homogeneous 1.6 litre port injected engines. But anyways, over here, people rather bought the [[Unit injector|Pumpe-Düse]] engines... Best regards, --[[User:Johannes Maximilian|Johannes]] ([[User_Talk:Johannes Maximilian|Talk]]) <small>([[Special:Contribs/Johannes Maximilian|Contribs]]) ([[User:Johannes Maximilian/Articles2|Articles]])</small> 15:47, 11 November 2019 (UTC)

::::* Thanks Johannes. It is fascinating how few of the "FSI" engines actually used a stratified charge mode! Cheers, [[User:1292simon|1292simon]] ([[User talk:1292simon|talk]]) 07:56, 12 November 2019 (UTC)

== ECOTEC automatic transmission specs ==

2010 Spec's [[Special:Contributions/49.177.232.8|49.177.232.8]] ([[User talk:49.177.232.8|talk]]) 02:55, 13 October 2023 (UTC)

Latest revision as of 08:23, 14 February 2024

carbon build up

[edit]

Users of various forums talk of carbon build up due to direct injection. Here's an example article on the subject from Edmunds, written in 2011 Edmunds - Direct Injection Fouls Some Early Adopters. Is there solid research anywhere into this alleged drawback of direct injection? It's easy to find anecdotal evidence from individuals on forums, most of it "friend of a friend" but I'm having a hard time finding hard research. 75.158.93.71 (talk) 17:37, 10 June 2013 (UTC)[reply]

I added that most of the carbon buildup comes from blow-by past the piston rings (or the crankcase oil itself, if fossil based), not from air through the air intake filter. Products of combustion steadily leak past the piston rings into the crankcase. This pressure has to go somewhere so it's routed into the intake plenum. Some engines have separators to remove liquid component of this mixture but they might not work as designed under all situations. So a mist of fossil/synthetic oil and blowback carbon gradually cooks onto the hot intake valves and manifold. — Preceding unsigned comment added by 204.128.192.34 (talk) 02:30, 12 March 2016 (UTC)[reply]

Clarification needed

[edit]

The merger proposal has been rejected but I think some clarification is needed concerning Gasoline direct injection, Stratified charge engine and Turbo fuel stratified injection. Are the following statements correct?

Comments please. Biscuittin (talk) 18:14, 9 May 2014 (UTC)[reply]

  • delete all. All three articles are crap that convey nothing and are so badly written that an honest clean start would be an improvement. Stratified charge engine is particularly awful as it's hopelessly confused with the Diesel cycle.
BTW, TFSI is a stratified charge engine(sic) with a turbocharger and an Audi badge.
'Stratified charge' BTW has been in commercial use since the days of Prosper L'Orange. It was most noted around 1990, when there was considerable interest (and a lot of money was wasted on snake oil salesmen) in using stratified charge as a means of achieving a lean burn engine – at that time, a really lean burn engine. This never happened. We should distinguish though between "engines with some degree of stratification" (common and old tech for diesels, as a means of improving initial combustion and establishing the flame front), "lean burn engines of crazy optimism" (they never happened, and they certainly couldn't be done with the control systems of 25 years ago) and the sort of thing that is increasingly common over the next few years, where some rational degree of stratification is used to give advantages to the overall combustion (and so improve efficiency and emissions, more than just making the engine run more smoothly). I don't think WP is capable of explaining any of this though. Andy Dingley (talk) 19:51, 9 May 2014 (UTC)[reply]
Since you are the expert, perhaps you could re-write the articles. Biscuittin (talk) 22:16, 9 May 2014 (UTC)[reply]
I can't be arsed. Wikipedia is too broken to waste time on. Maybe too broken to fix at all. Andy Dingley (talk) 22:27, 9 May 2014 (UTC)[reply]
Why do you post here then? Biscuittin (talk) 09:32, 10 May 2014 (UTC)[reply]
Because it's quick and easy to post here. Rewriting stratified charge would take a few evenings at least, time I just don't have.
It fails the basic WP editing model: you can't write an article on stratified charge by just googling up a few sentences and pasting them in in order. Instead someone needs to understand the principles of what stratified charge could be used to achieve, to thoroughly understand topics like fuel injection and the Otto / Diesel cycles, to avoid the confusions that have already made it into this article, and then to construct a sensible narrative for the overall article. Fragments like "The Mercedes 300SL had gullwing doors" just aren't important in explaining such a narrative – and what's in here already about the 300SL's fuel injection is no better. TFSI shouldn't even be an article - it's an Audi label for their current state of the art. It should be part of an overall narrative on stratified charge, where it can fit into that narrative and add something to it. However it's easier to write, "I like Audis. A car mag used "Audi", "stratified charge" and "<buzzword>" on the same page. OMG!" in the traditional WP fashion. Andy Dingley (talk) 10:14, 10 May 2014 (UTC)[reply]
I have done some tidying up on Stratified charge engine and added a merge tag to Turbo fuel stratified injection. I agree that a lot more references are needed and I will see what I can find. Biscuittin (talk) 11:53, 10 May 2014 (UTC)[reply]

Stratified charge details

[edit]

Hi Johannes Maximilian. Thanks for adding all the well-sourced info to this article, it is a good improvement.

I have some questions/comments about a few details please:

  1. Regarding "which is why most car manufacturers have abandoned the stratified charge concept", could we have some examples of production engines which previously used stratified charge but now don't?
  2. Is it also possible to get some examples of engines which use wall-guided, air-guided and spray-guided injection? It would be helpful to show whether there are trends over time for/against each method.
  3. In the "Charge Modes" section, I believe that "Combined mode" is more of an operating strategy for stratified engines, rather than a separate mode. Therefore I would like to move the text from Combined Mode into Stratified Charge Mode (with wording tweaks so that it fits nicely)
  4. The "Homogeneous charge mode" section states that a lambda of 1 is mostly used. Could you please supply quotes to support this? I think it should be explained which engines use a lambda of 1 (eg after a particular year or for some markets), given that lean A-F mixtures are common on indirect injection petrol engines at low loads.
  5. If you have any statistics on current GDI usage, it would be great if "approximately 45% expected production for model year 2015" could be updated with something more recent (and less speculative!).

Thanks, 22:23, 8 November 2019 (UTC)

Hello 1292simon, thank you for your comments.
  1. Car manufacturers often make different engines for different markets (for example: BMW offered the direct injected N53 engine in coutries with low sulphur fuel availability only, in markets with bad fuel quality, they put a completely different engine (manifold injected N52) in cars they sold at the time). I have recently talked to one of the engineers who developed the Mercedes-Benz M 256 engine, and he told me that it uses a homogeneous charge almost all the time, and that Daimler has pretty much abandoned the stratified charge concept. The engine runs on a leaner (but still homogeneous) mixture when it burns the soot in the particulate filter, but only on one cylinder at a time, and it is not "very" lean, rather , so it doesn't burn its valves. The predecessor, the M 276 series, used a stratified charge mode, but well, instead of making the M 276 into a homogenous mixture engine, they decided to develop an entirely new one. So I'd argue that it's hard to say whether or not engine manufacturers "update" their existing engines – some use different engines in the first place, some develop new ones, and then there are these manufacturers like Volkswagen who keep updating their existing engines over the course of several decades. And interestingly, there was a variant of the VW EA 111 engine (1.6 FSI, 81 kW) that came with a stratified charge mode from the factory, but after one of the inspections at VW, they updated the ECU to use a homogeneous mode instead. That was, because the engine was not running smoothly enough, and because it had very bad throttle response. Also, it needed 98 RON petrol in order to function properly, and many people just put in the wrong fuel... The engine code of this particular engine is "BAD". I wonder whether or not that is coincidence...
  2. Some of the books that I have give some examples. The general trend is towards the spray-guided injection, because it offers the best engine efficiency.
  3. I would not mind a combination of the "combined mode" and "stratified mode" sections. I have not done so to make it more clear that there are several different operating strategies.
  4. In Richard van Basshuysen, Fred Schäfer (ed.): Handbuch Verbrennungsmotor. 8th edition, Springer, Wiesbaden 2017, ISBN 978-3-658-10901-1, Chapter 12, p. 647: „Bei den ersten Direkteinspritzsystemen wurde mittels Schichtung von Kraftstoff und Luft durch Einspritzung während der Kompressionsphase ein relativ mageres Gemisch eingestellt mit einer fetten Gemischwolke in der Nähe der Zündkerze, die eine sichere Entflammung gewährleistet. (...) Die Mehrzahl der heute in Serie befindlichen Direkteinspritzsysteme werden stöchiometrisch betrieben.“ "The first direct injection systems used fuel and air stratification by injecting the fuel into the compression stroke to obtain a relatively lean mixture with a rich cloud of mixture near the spark plug in order to achieve good ignition properties. (...) Nowadays, most series production direct injection systems use a stoichiometric mixture." A stoichiometric mixture means , so I think it's safe to say that in the homogeneous mode, is used. We don't need to be super precise since we want to explain how it works, and it is a completely different and difficult story why doesn't exist in a real eninge (well it does, but hardly).
  5. I agreee, the statistics should be updated. However, I don't have any at hand. In Austria, more than 50 % of all all passenger cars (does not include lorries and agricultural/industrial vehicles) have Diesel engines, in Hungary, virtually every car you see is either a Suzuki Swift MA or one of the former Eastern Bloc heroes (Trabant 601, Škoda 742, Dacia 1300, Жигули), and all of these have carburetted engines. But well, personal and subjective claims don't count in Wikipedia articles. Best regards, --Johannes (Talk) (Contribs) (Articles) 12:35, 9 November 2019 (UTC)[reply]
  • Johannes Maximilian: Thanks for all the info, and for your patience in carefully explaining the topic. I'll make some changes to the article. Feel free to make changes or discuss further if there's any issues.

    Just to explain my edit regarding item #1, I am wary about making global statements based on a few German engines. If there are examples from U.S. or Asian manufacturers, I'm happy for the wording to be broader. On the other hand, I have moved the stratified charge paragraph from the intro, because it is less widespread than I'd previously thought. Hope this is ok.

    PS Thankfully I found some stats on GDI usage in Stratified charge, so that ticks #5 off off the list. Also, that is quite amusing about the naming of the Volkwagen BAD engine! Cheers, 1292simon (talk) 23:40, 9 November 2019 (UTC)[reply]

  • So it turns out that VW's Fuel Stratified Engines are no longer actually stratified?! Wow, that is quite a revelation! Thanks for fixing up my mistake, sorry I assumed from the name that they still used a stratified charge mode. Cheers, 1292simon (talk) 08:31, 11 November 2019 (UTC)[reply]
Yes indeed, VW's Fuel Stratified Injected (FSI) engines are not stratified anymore (stratification has been mostly disabled in the ECU), and the Turbo Stratified Injected (TSI) and Turbo Fuel Stratified Injected (TFSI) engines have actually never been stratified in the first place. This is why their pistons have a differently shaped piston bowl (it doesn't have the swirl cavity). In fact, even some FSI engines have never been stratified! Starting from somewhat in between 2002 and 2004 (I don't know the exact year), VW (or well, Audi) disabled stratification from the factory, and replaced the pistons in their FSI engines that used to have the swirl cavitiy piston bowl, with pistons that have a more traditional otto cycle four stroke petrol engine piston bowl (Germanic languages fortunately come with unlimited length compund words). There is some interesting information on this in Richard van Basshuysen (ed.): Ottomotor mit Direkteinspritzung und Direkteinblasung: Ottokraftstoffe · Erdgas · Methan · Wasserstoff. 4th edition, Springer, Wiesbaden 2017, ISBN 978-3-658-12215-7. pp. 436. Apparently, only in the Audi A3 8P, the 1.6 and 2.0 litre FSI engines were actually stratified, but only until 2006/2007, when they were discontinued in favour of the newly introduced homogeneous 1.8 litre TFSI direct injected and the (then already existing) homogeneous 1.6 litre port injected engines. But anyways, over here, people rather bought the Pumpe-Düse engines... Best regards, --Johannes (Talk) (Contribs) (Articles) 15:47, 11 November 2019 (UTC)[reply]

ECOTEC automatic transmission specs

[edit]

2010 Spec's 49.177.232.8 (talk) 02:55, 13 October 2023 (UTC)[reply]