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Particles in inertial separators are focused into a tiny portion of the gas flow or are separated by impingement onto a surface by changing the direction of the flowing gas’ velocity, which causes the particle trajectories to pass over the gas streamlines.
The cyclone is by far the most common type of inertial separator. In a cyclone, the gas experiences some sort of vortex motion, causing the gas acceleration to be centripetal.
As a result, the particles move centrifugally in the direction of the cyclone’s exterior.
The Global Inertial Particle Separation market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2022 to 2030.
The development of inertial microfluidics has made it feasible to separate particles more effectively than sheath flow control and external force generators, as well as to miniaturise the equipment and make it simpler to use.
These structures were designed to add additional inertial effects, such as Dean flow, in order to manipulate particles more precisely.
The serpentine channel, one of these channel topologies, is picking the interest of an increasing number of academics due to its compact footprint, straightforward parallelization, and the ability to multiply processing efficiency.
The particles swing along the channel centerline as a result of this occurrence, which should make it possible to precisely manipulate passive particles.
By adjusting the particle size and Reynolds number, the effects of particle focusing are examined in order to establish the ideal focusing circumstances.
Finally, an attempt is made to examine the capabilities of curved channels by separating particles into two sizes.
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