Talk:Air-fuel ratio
From Wikipedia, the free encyclopedia
Can someone put the air fuel ratio into laymans terms? If the ratio is 14.7 to 1 and air weighs .0807 lbs per cubic foot, and gasoline weighs 46.24 lbs per cubic foot, then what is the % of fuel to air, presuming the fuel is gasoline? I think is should be about 5% fuel to air. Hhilliard (talk) 14:18, 12 May 2008 (UTC)
Contents |
[edit] Stoichiometric Ratio
Someone might want to look into stoichiometric AF ratio a little more. I understand it to be 14.6 and not 14.7, as per Heywood
 |
This article is within the scope of WikiProject Chemistry, which collaborates on Chemistry and related subjects on Wikipedia. To participate, help improve this article or visit the project page for details on the project. | ||
|
Article Grading: The article has not been rated for quality and/or importance yet. Please rate the article and then leave comments here to explain the ratings and/or to identify the strengths and weaknesses of the article.. |
|||
marine engine air fuel ratio on large container vessels - probable design faults attributable to stochiometric air requirement caused extensive damages like scuffiing , sudden severe wear and assosciated commercial losses to due to its effect on ship's schedule is becoming more and more common.
[edit] Proposed Merger
It’s been added to Wikipedia:Proposed mergers to gain a little more attention and help it merge faster. AeroKnight 18:18, 24 September 2006 (UTC)
"air/fuel mixture is approximately 14.7 times the mass of air to fuel"
Sentence is ambiguouly structured. After reading this part of the sentence it is not clear to me what that means. The mixture has more mass than air to fuel? Is it 14.7 : 1 or 1 : 14.7?
[edit] Stoich Redirect?
How prevelant is the "stoich" abbreviation for Air-fuel ratio? I've always known "stoich" as a shortened versio of stoichiometry. Google seems to agree, if you search for "stoich", it brings up "See results for: stoichiometry". If no one has any reasonable objections, I will change the redirect in a few days. Brien Clark 07:41, 3 January 2007 (UTC)
[edit] Equivalence Ratio - Atomic mass of O = 8?
In the calculation of the equivalence ratio, we ca read that the mass of O2 is 2 times 8... BUT the atomic mass of O is 16g/mol so it would be 2*16 instead of 2*8. Morever, it is repeated several times while for the other masses (H and C) it's the good value.
Thanks for explaining me why it is not 16 and if it was a mistake, would you correct it?
Regards, Yannick
[edit] Please Comment on this
Why does a lean mixture run hot?? If fuel is added to improve cooling, the release of unburned hydrocarbons (soot) into the air would be very large. It would overwhelm the catalytic converter.
I do not buy the argument that fuel vaporization contributes to engine cooling, if there is not a corresponding increase in hydrocarbon emission.
This is a common question, and one to which I have not yet found a satisfactory answer. Could you add a few sentences on this subject to your entry?
Thanks,
Dave 70.231.147.222 09:26, 27 April 2007 (UTC)
[edit] Proposed changes
I plan of making some changes to the article. Before I do that I would like to know your suggestions on them.
[edit] Equivalence ratio section
Update the equivalence ratio section by making the oxidizer to be more specific, in this case air. The article should be talking about air and fuel mixtures, but equivalence ratio is a more broader concept, since it does not restrict the oxidizer definition to air or oxygen. It would be better to have a separate article for it. -- Myth (Talk) 20:01, 4 July 2007 (UTC)
[edit] Fuels
Most of the article assumes that the fuel is a hydrocarbon. While this maybe true for most applications, I believe the definition does not have anything to do with it. It would be better if the article also reflects this where ever possible be more general in the definition of the fuel. -- Myth (Talk) 20:01, 4 July 2007 (UTC)
[edit] Other terms used section
Should AFR be again mentioned here? -- Myth (Talk) 20:01, 4 July 2007 (UTC)
[edit] Effect on temperature for rich/lean mixtures
Someone recently added the explanation as to why rich / lean mixtures have lower temperature than stoichiometric mixtures. While the explanation is correct, it does not belong here. A more appropriate section for such explanation will be the adiabatic flame temperature article. As such this explanation should be removed from this article and moved to the flame temperature article. -- Myth (Talk) 20:01, 4 July 2007 (UTC)
I disagree strongly that the information as to why rich and lean mixtures have lower combustion temperatures does not belong on this page. On 27 April, on this page, Dave wrote "Please comment on this." He asked how rich mixtures can run cool without depositing excessive soot throughout the exhaust system. He said "This is a common question." In the 2 months since then no-one has posted any information in response to Dave's questions. Clearly this is a common question, but one that doesn't have a common answer. Any discussion about stoichiometric mixture must be accompanied by some information about why this mixture burns hotter and produces more power than mixture strengths either side of stoichiometric. Dolphin51 12:56, 6 July 2007 (UTC)
- First of all, rich mixture can achieve higher temperature than stoichiometric mixture (This is because CO2 has higher specific heat capacity than CO). So even though less energy is released in case of rich mixture, it is easier to raise temperature of the mixture. Furthermore, this largely depends on the fuel we are using. Here we assumed it is a hydrocarbon.
- Secondly, a "common question" is a relative term. The reason why I proposed to move it the adiabatic flame temperature article is because it more appropriate for discussing temperature changes and would be easier to explain it in detail there.
- Just because "Dave" asked a question here and no one answered it for two months, does not make it necessary to include that explanation here. It will just make the article too cluttered with bits and pieces of information.
- btw I am also not totally convinced that we should move the explanation, but I would like to discuss it further, before I make up my mind. Thanks. -- Myth (Talk) 18:13, 6 July 2007 (UTC)
Hi Myth. Thanks for your prompt response. My view is that, seeing the article has such a strong focus on the concept of stoichiometric mixture the article should present the complete picture. Stoichiometric mixture is more than just an academic concept in chemistry. It has an intensely practical application in that carburettors and fuel injection systems are designed to deliver charge that is close to the stoichiometric mixture, rather than very rich or very lean. Until recently this article revealed only that fuel injection systems aim to achieve stoichiometric mixture; and that stoichiometric mixtures burn very hot (presumably hotter than other mixtures.) These pieces of information beg the question "Why?" Good question. A reader thinking intuitively might imagine that the highest temperature (and the highest power) would be achieved with maximum rich mixture. You and I know that isn't so. My experience indicates that this really is a paradox. I have read a statement by a very competent practitioner who wrote that with rich mixtures, the exhaust gas contains unburnt fuel!
My view is that in any document where stoichiometric mixture is mentioned the explanation must carry on far enough to give the reader an understanding of the two major processes that cause combustion temperature and power output to vary with mixture strength, and to display a maximum that is neither fully rich nor fully lean - those two major processes are dilution by excess air, and the contribution made by carbon monoxide. You say that it is easier to explain the process in detail in the context of adiabatic flame temperature. The reader who is new to the concept of fuel-air ratio is not ready to understand the process to the level of detail that you are able to provide. He or she is looking for some information of the same level of difficulty as "air-fuel ratio", and that isn't rocket science. I agree the article is cluttered at present. Let's get rid of the extraneous information about n-heptane, iso-octane, alkanes, detergents, oxygenators, MTBE and ethanol. These things are not essential to an introductory article about air-fuel ratio (certainly not in the 3rd paragraph.) And on the matter of fuels, let's assume we are talking exclusively about hydrocarbons. So far the article is focussing on internal combustion engines and I'm not aware of any such engine that burns something other than hydrocarbons. Best regards Dolphin51 12:23, 7 July 2007 (UTC)
- Well then it would be better to move the discussion about temperature to a separate section in the article. We can also include small details like why lean mixtures are preferred in IC engines especially because of better performance and lower NOx emissions.
- Also it would be better not exclusively talk about hydrocarbons, reason being fuels like hydrogen are likely to be used extensively in future. Also the temperature variation with air-fuel ratio is valid for most of the fuels, so it is not necessary to restrict the article to hydrocarbons. -- Myth (Talk) 22:34, 7 July 2007 (UTC)
[edit] AFR for solid fuels
I suggest adding info or a link to info about the AFR for a typical grade of coal, or perhaps if there are significant differences, various grades of coal, coke, etc. GilesW (talk) 13:41, 10 March 2008 (UTC)
[edit] stock ECU information incorrect
This statement "Vehicle manufacturers do not provide a means of altering predefined fuel maps making such alterations impossible without replacing the stock ECU with a customizable system." is incorrect. I'm just deleting it for now.
Vehicles at least back into the 80's (Ford and GM included) have ECU's that can be remapped with a chip. Many more modern vehicles can be flashed through the OBD-II port or by other means. --167.102.224.45 (talk) 13:08, 18 March 2008 (UTC)
