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...example, the [[concentration]] of [[nitrogen oxides]] (i.e., NOx) in the [[flue gas]] from an industrial [[furnace]] can be converted to a [[mass]] flow rate e ...n]] by volume = 10 ppmv = (10 volumes of NOx) / (10⁶ volumes of flue gas)

...reheating the combustion air with heat recovered from the hot combustion [[flue gas]]es (see the adjacent diagram). ...the air being heated, there is some small leakage (between the sectors) of flue gas into the air.

{{r|Flue gas stack}}

{{r|Flue gas}}

...wer Plant.jpg/credit|{{Four Corners Power Plant.jpg/credit}}<br/>|}}Before flue gas desulfurization was installed, the emissions from this power plant in [[New {{Image|Flue Gas Desulfurization.jpg|right|300px|Large flue gas desulfurization unit}}

...dioxide]] (CO₂) and [[nitrogen]] (N₂). Although the flue gas has been through two stages of [[Cyclone separator|cyclones]] (located with ...routing the regenerator flue gas through an expansion turbine. After the flue gas exits the regenerator, it is routed through a secondary catalyst separator

...s from the steam reforming process used in [[ammonia production]] or the [[flue gas]]es from [[Conventional coal-fired power plant|power plants]]. Both H<sub>2

...s from the steam reforming process used in [[ammonia production]] or the [[flue gas]]es from [[Conventional coal-fired power plant|power plants]]. Both H<sub>2

*{{pl|Flue gas desulfurization}} *{{pl|Flue gas emissions from fossil fuel combustion}}

...us, the carbon dioxide in the raw natural gas ends up in the incinerator [[flue gas stack]].

...where special burner designs are used to remove [[nitrogen oxides]] and [[flue gas desulfurization]] systems are used to remove [[sulfur dioxide]] from the co

...[[nitrogen]] (N₂) and 21 volume percent oxygen, the resultant [[flue gas]] from the combustion of a fuel will contain nitrogen plus the products of ...source of the oxygen, nitrogen is by far the largest part of the resultant flue gas.

...tant emissions. For example: the emissions from a [[combustion]] furnace [[flue gas stack]]. ...rom a source, such as ash [[Entrainment (engineering)|entrained]] in the [[flue gas]] emitted from a [[coal|coal-fired]] furnace. Secondary PM is produced in

{{r|Flue gas stack}}

{{r|Flue gas emissions from fossil fuel combustion}}

...[[electrostatic precipitator]]s used to remove that ash from the boiler [[flue gas]], and for creating a [[Vacuum (science)|vacuum]] pressure in [[steam turbi

...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 w ...wer Plant.jpg/credit|{{Four Corners Power Plant.jpg/credit}}<br/>|}}Before flue gas desulfurization was installed, the emissions from this [[conventional coal-

...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 w ...wer Plant.jpg/credit|{{Four Corners Power Plant.jpg/credit}}<br/>|}}Before flue gas desulfurization was installed, the emissions from this [[conventional coal-

* [[Venturi scrubber]]s used in [[flue gas desulfurization]] systems.

...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 fan