The VRT gas turbine combustor - Phase IIAn innovative annular combustor configuration is being developed for aircraft and other gas turbine engines. This design has the potential of permitting higher turbine inlet temperatures by reducing the pattern factor and providing a major reduction in NO(x) emission. The design concept is based on a Variable Residence Time (VRT) technique which allows large fuel particles adequate time to completely burn in the circumferentially mixed primary zone. High durability of the combustor is achieved by dual-function use of the incoming air. In Phase I, the feasibility of the concept was demonstrated by water analogue tests and 3D computer modeling. The flow pattern within the combustor was as predicted. The VRT combustor uses only half the number of fuel nozzles of the conventional configuration. In Phase II, hardware was designed, procured, and tested under conditions simulating typical supersonic civil aircraft cruise conditions to the limits of the rig. The test results confirmed many of the superior performance predictions of the VRT concept. The Hastelloy X liner showed no signs of distress after nearly six hours of tests using JP5 fuel.
Document ID
19920071411
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Melconian, Jerry O. (SOL-3 Resources, Inc. Reading, MA, United States)
Mongia, Hukam C. (General Motors Corp. Allison Gas Turbine Div., Indianapolis, IN, United States)
Nguyen, Hung L. (NASA Lewis Research Center Cleveland, OH, United States)