화학공학소재연구정보센터
Chemical Engineering Science, Vol.171, 599-613, 2017
Using semidefinite programming to calculate bounds on particle size distributions
Many chemical engineering processes involve a population of particles with a distribution of sizes that changes over time. Because calculating the time evolution of the full particle size distribution (PSD) is computationally expensive, it is common to instead calculate the time evolution of only finitely many moments of the distribution. The problem with moments is that they provide only a summary description of the PSD. In particular, they do not contain enough information to answer industrially relevant questions such as: How many particles are there in the size range [a, b]? What is the shape of the distribution? What is its D10? While these questions cannot be answered exactly, in this paper, we demonstrate that one can efficiently calculate rigorous bounds' on the answers by solving semidefinite programs. To the best of the authors' knowledge this natural application of semidefinite programming to PSDs has, until now, gone unnoticed. (C) 2017 Elsevier Ltd. All rights reserved.