Title :
Flow and thermal fields in channels between corotating disks
Author :
Torok, Dennis F. ; Gronseth, Rosanne
Author_Institution :
Control Data Corp., Minneapolis, MN, USA
Abstract :
Flow and thermal fields in disk packs are analyzed numerically. These flows are a subset of enclosed rotating cavity flows in which the disks are rotating with the same angular velocity and contained within a fixed cylindrical shroud. The axisymmetric model under consideration consists of a pair of corotating disks with mid-line symmetry. The corotating disks are assumed to be fully shrouded. Computed velocity and temperature fields in the gap between corotating disks are given for a 5.25-in. disk geometry drive. Estimates of disk windage for corotating disks were found to be 30 to 40% of those obtained for a rotor/stator geometry.<>
Keywords :
cooling; hard discs; 5.25 in; angular velocity; corotating disks; cylindrical shroud; disk packs; disk windage; mid-line symmetry; rotating cavity flows; temperature fields; thermal fields; Angular velocity; Assembly; Computational geometry; Computer crashes; Disk drives; Magnetic heads; Material storage; Solids; Stress; Temperature;
Journal_Title :
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
