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- ...they are emitted to the [[Earth's atmosphere|atmosphere]] from the final [[flue gas stack]] (commonly referred to as a chimney). It is very important not to cool the11 KB (1,721 words) - 08:08, 15 March 2024
- {{r|Flue gas stack}}2 KB (250 words) - 09:18, 6 March 2024
- ...eatment in dust removal and other equipment before being vented from the [[flue gas stack]]. Ambient air is blown through the second, smaller sector by a [[centrifug16 KB (2,561 words) - 09:49, 28 July 2023
- Prior to the advent of strict environmental protection regulations, tall [[flue gas stack]]s (i.e., chimneys) were built to disperse rather than remove the sulfur di17 KB (2,700 words) - 07:31, 20 April 2024
- *{{pl|Flue gas stack}}9 KB (1,159 words) - 17:35, 14 March 2024
- {{r|Flue gas stack}}4 KB (522 words) - 21:09, 11 January 2010
- :;*[[Flue gas stack|Stack]] height determination,7 KB (1,030 words) - 11:53, 2 February 2023
- ...us, the carbon dioxide in the raw natural gas ends up in the incinerator [[flue gas stack]].11 KB (1,750 words) - 09:37, 6 March 2024
- ...tant emissions. For example: the emissions from a [[combustion]] furnace [[flue gas stack]].8 KB (1,251 words) - 09:37, 6 March 2024
- ...lower density than the ambient air. For example, the emissions from the [[flue gas stack]]s of industrial furnaces are buoyant because they are considerably warmer ...pollutant emissions (for example, the emissions from a combustion furnace flue gas stack). Point sources are also characterized as being either elevated or at groun19 KB (2,906 words) - 10:19, 30 July 2023
- ...lower density than the ambient air. For example, the emissions from the [[flue gas stack]]s of industrial furnaces are buoyant because they are considerably warmer ...pollutant emissions (for example, the emissions from a combustion furnace flue gas stack). Point sources are also characterized as being either elevated or at groun19 KB (2,906 words) - 10:19, 30 July 2023
- ...me=Bishop/><ref name=Beychok/> The air may be provided by [[Flue gas stack#flue gas stack draft (draught)|natural draft]] or by forced aeration using large fans or b11 KB (1,588 words) - 10:16, 4 July 2023
- ...ns and data involving plumes from typical combustion sources such as the [[flue gas stack]]s from [[steam-generating boiler]]s burning [[fossil fuel]]s in large [[po15 KB (2,295 words) - 11:45, 2 February 2023
- ...ns and data involving plumes from typical combustion sources such as the [[flue gas stack]]s from [[steam-generating boiler]]s burning [[fossil fuel]]s in large [[po15 KB (2,338 words) - 11:43, 2 February 2023
- ...0-5809-642-4}}></ref>which uses the so-called ''stack effect'' of a tall [[flue gas stack]] or other enclosed structure where the warm inside air ''naturally'' rises19 KB (3,006 words) - 11:11, 21 February 2018
- ...0-5809-642-4}}></ref>which uses the so-called ''stack effect'' of a tall [[flue gas stack]] or other enclosed structure where the warm inside air ''naturally'' rises19 KB (3,006 words) - 17:53, 3 February 2018
- | 28. [[Flue gas stack]] ...e gas then exits to the atmosphere via tall [[flue gas stack]]s. A typical flue gas stack may be about 150 to 250 metres tall to disperse the remaining flue gas comp46 KB (7,021 words) - 12:42, 11 July 2023
- ...for an adequate combustion air supply as well as adequate [[Flue gas stack|flue gas stack draft]].31 KB (4,959 words) - 15:21, 8 April 2023
- ...for an adequate combustion air supply as well as adequate [[Flue gas stack|flue gas stack draft]].31 KB (4,959 words) - 15:20, 8 April 2023
- ...pollution emissions|emissions]], such as scrubbers upstream of the tall [[flue gas stack]]s on power plants and other industrial facilities, [[catalytic converter]]26 KB (3,985 words) - 09:16, 6 March 2024