ABSTRACT
Separation tests on a high-sulfur-coal sample were carried out using a water-only cyclone (WOC) with a three-stage cone (also named a tri-cone water-only cyclone). The lower size limits of deashing and desulfurization were determined to be 0.098 mm and 0.045 mm, respectively. According to a float-and-sink analysis of various size fractions in the overflow and underflow, the Ecart probable (Ep) value as well as the separation density increased as the lower size fractions decreased. According to dynamic analysis, terminal hindered-settling velocities of spherical particles in the radial direction were obtained and an equation to estimate the lower removal size limits of heavy minerals was developed. With the help of numerical simulations of water–air two-phase flow fields in a tri-cone water-only cyclone (TWOC) and a conventional hydrocyclone, the role of the three-stage cone in the separation process was analyzed.
Funding
This work was financially supported by the National Natural Science Foundation of China (NSFC) (No. 51174214), the National Program on Key Basic Research Project (973 Program) of China (No. 2012CB214904), the National Science-Technology Support Plan Project of China (No. 2012BAA04B02), and the Guidance Plan Project of China National Coal Association (No. MTKJ2013-347).