Doppler global velocimetry for the analysis of combustor flows

The principle of Doppler global velocimetry (DGV) and a DGV system optimized for time averaged three-component velocity measurements is described in this paper. Furthermore, the design of the different components of the DGV-system as well as the manner of its operation is presented. lumetric, time averaged, three-component velocity distribution was acquired in the isothermal flow of a low NOx, staged combustion chamber sector from Rolls-Royce Deutschland. The combustor was developed within the German public-funded Engine 3E program. On the basis of the collected data, the complex flow phenomena in the combustor could be analyzed in detail and supported by CFD calculations. ntly developed, pulsed Nd:YAG laser now enables planar, time-averaged, three-component DGV application in combusting flow fields. Measurements were carried out in a single-nozzle, kerosene combustion chamber model, operated under atmospheric pressure. The successful measurements demonstrated the capability of DGV as a new tool for combustion research. It was possible to separately measure the gas velocity and the velocity of the fuel droplets, a promising capability of DGV for two phase flow analysis.