Primary zone dynamics in a gas turbine combustorFluid mechanical investigations simulating the flow in the primary zone of a gas turbine combustor are presented using three generic test rigs: (1) rotating pipe yielding a swirling jet of air; (2) primary zone model with a single swirler and various primary jet configurations, operated with air; and (3) two rectangular models of a (stretched-out) annular combustor with five swirlers in the backwall and with various primary jet configurations, one operated with air and the other with water. Concentration measurements are obtained using laser sheet imaging techniques and velocity measurements using a laser Doppler velocimeter. The results show recirculation zones, intense mixing, instabilities of the interacting jets and the presence of large random vortical motions. The flowfields are shown to exhibit bimodal behavior, have asymmetries despite symmetrical geometry and inlet conditions and display strong jet/swirler and swirler/swirler interactions.
Document ID
19900036593
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Sullivan, J. P. (Purdue Univ. West Lafayette, IN, United States)
Barron, D. (Purdue Univ. West Lafayette, IN, United States)
Seal, M. (Purdue Univ. West Lafayette, IN, United States)
Morgan, D. (Purdue Univ. West Lafayette, IN, United States)
Murthy, S. N. B. (Purdue University West Lafayette, United States)