WHAT IS AN AIRBLAST ATOMIZER?
Airblast atomizer explained, how it works?
An airblast atomizer employs a simple concept whereby fuel at low pressure is arranged to flow over a lip located in a high-velocity airstream. As the fuel flows over the lip it is atomized by the air, which then enters the combustion zone carrying the fuel droplets along with it. Minimum drop sizes are obtained by using designs that provide maximum physical contact between the air and the liquid.
In particular, it is important to ensure that the liquid sheet formed at the atomizing lip is subjected to high-velocity air on both sides.
This not only gives optimum atomization, but also prevents fuel from depositing on solid surfaces.
The airblast atomizer has some very significant advantages in its application to gas turbine combustors. For example, the fuel distribution is dictated mainly by the airflow pattern, and hence the outlet temperature traverse is fairly insensitive to changes in fuel flow.
Combustion is characterized by the absence of soot formation, resulting in relatively cool liner walls and a minimum of exhaust smoke. As another advantage, the component parts are protected from overheating by the air (at compressor outlet temperature) flowing over them.
The major practical disadvantages are rather narrow stability limits and poor atomization quality at startup, owing to the low air velocity through the atomizer.
Both these problems can be solved (albeit at the expense of a more complicated fuel system) by combining the airblast atomizer with a pilot pressure-swirl atomizer. By this means, the merits of the pressure-swirl atomizer at low fuel flows, namely, easy lightup and wide stability limits, are combined with all the virtues of airblast atomization (notably a soot-free exhaust) at high-fuel flow rates.
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