Dispersed Phase and Separated Flows
In dispersed phase flows one phase consists of discrete elements, such as droplets in a gas medium or bubbles in a liquid. The discrete elements are not connected. In a separated flow, the two phases are separated by a line of contact. An annular flow is a separated flow in which there is a liquid layer on the pipe wall and a gaseous core. In other words, in a separated flow one can pass from one point to another in the same phase while remaining in the same medium.
Gas–liquid flows occur in many applications. The motion of bubbles in a liquid, as well as droplets in a conveying gas stream, are examples of gas–liquid flows. Bubble columns are commonly used in several process industries. Atomization to generate small droplets for combustion is important in power generation systems. Also, droplet formation and impaction are important in spray forming for materials processing. Steam-water flows in pipes and heat exchangers are very common in power systems such as fossil fuel plants and nuclear reactors. Gas–liquid flows in pipes can assume several different configurations ranging from bubbly flow to annular flow, in which there is a liquid layer on the wall and a droplet-laden gaseous core flow. Cavitation is a typical example of such flows. The flow of a liquid through a pipeline system may occur in vast applications in industry. These liquid-free zones may have a huge impact on the atomization efficiency of injectors (Fig.) or in cases of naval applications, may implode near the engine’s surfaces causing severe damages.