화학공학소재연구정보센터
Chemical Engineering Science, Vol.56, No.3, 735-739, 2001
Droplet size distribution in a continuous oscillatory baffled reactor
We report our experimental investigation of droplet size distribution (DSD) in a continuous oscillatory baffled reactor (COBR). The droplet experiments were carried out over a range of oscillation amplitudes and frequencies and for three different net flow Reynolds numbers in the absence of surfactants and coalescence inhibitors. Our experimental results show that the oscillation amplitude and frequency play a more dominant role in controlling the mean droplet size and size distribution than the net flow. A correlation linking the mean droplet size, d(32), with energy dissipation due to fluid oscillation, epsilon, and energy dissipation due to net flow, epsilon (n), has been established.