Characterization of flow in a scroll duct
Abstract
A quantitative, flow visualization study was made of a partially elliptic cross section, inward curving duct (scroll duct), with an axial outflow through a vaneless annular cutlet. The working fluid was water, with a Re(d) of 40,000 at the inlet to the scroll duct, this Reynolds number being representative of the conditions in an actual gas turbine scroll. Both still and high speed moving pictures of fluorescein dye injected into the flow and illuminated by an argon ion laser were used to document the flow. Strong secondary flow, similar to the secondary flow in a pipe bend, was found in the bottom half of the scroll within the first 180 degs of turning. The pressure field set up by the turning duct was strong enough to affect the inlet flow condition. At 90 degs downstream, the large scale secondary flow was found to be oscillatory in nature. The exit flow was nonuniform in the annular exit. By 270 degs downstream, the flow appeared unorganized with no distinctive secondary flow pattern. Large scale structures from the upstream core region appeared by 90 degs and continued through the duct to reenter at the inlet section.
- Publication:
-
National Aeronautics and Space Administration Report
- Pub Date:
- January 1985
- Bibcode:
- 1985nasa.reptQT...B
- Keywords:
-
- Ducted Flow;
- Flow Distribution;
- Inlet Flow;
- Pressure Distribution;
- Reynolds Number;
- Secondary Flow;
- Water;
- Argon Lasers;
- Flow Visualization;
- Gas Turbines;
- Oscillating Flow;
- Pipes (Tubes);
- Upstream;
- Working Fluids;
- Fluid Mechanics and Heat Transfer