Design and Implementation of Swirl Brakes for Enhanced Rotordynamic Stability in an Off-shore Centrifugal Compressor
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Date
2018
Journal Title
Journal ISSN
Volume Title
Publisher
Turbomachinery Laboratory, Texas A&M Engineering Experiment Station
Abstract
Rotordynamic stability of gas compressors at high speeds and operating pressures is a significant technical challenge.
Dynamic instability must be avoided for the sake of safe, reliable and continuous operation of turbomachinery. Experience
and literature have shown that one of the main sources of instability is the swirl within the secondary leakage path in
shrouded impellers, especially the swirl entering the shroud seals. The technical brief presents the design and
implementation of swirl brakes for centrifugal compressors with Teeth-on-Rotor seal configurations for shrouded
impellers. Discussion includes (a) aerodynamic design of swirl brakes with the help of Computational Fluid Dynamics (CFD),
(b) sub-scale testing of the swirl brake design in an instrumented single-stage test rig to measure the inlet swirl ratio in a
shrouded impeller, (c) full-scale prototype shop-testing and qualification, with and without the swirl brakes in a closedloop
test facility, and (d) results of incorporating the swirl brakes at an off-shore compressor installation to improve
rotordynamic stability.
Description
Technical Briefs