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Dynamic mode decomposition analysis of the flow characteristics in a centrifugal compressor with vaned diffuser

Xiaojian Li, Yijia Zhao, Zhengxian Liu, Ming Zhao

2020Proceedings of the Institution of Mechanical Engineers Part A Journal of Power and Energy14 citationsDOIOpen Access PDF

Abstract

To understand the flow dynamic characteristics of a centrifugal compressor, the dynamic mode decomposition (DMD) method is introduced to decompose the complex three-dimensional flow field. Three operating conditions, peak efficiency (OP1), peak pressure ratio (OP2), and small mass flow rate (near stall, OP3) conditions, are analyzed. First, the physical interpretations of main dynamic modes at OP1 are identified. As a result, the dynamic structures captured by DMD method are closely associated with the flow characteristics. In detail, the BPF/2BPF (blade passing frequency) corresponds to the impeller–diffuser interaction, the rotor frequency (RF) represents the tip leakage flow (TLF) from leading edge, and the 4RF is related to the interaction among the downstream TLF, the secondary flow, and the wake vortex. Then, the evolution of the dynamic structures is discussed when the compressor mass flow rate consistently declines. In the impeller, the tip leakage vortex near leading edge gradually breaks down due to the high backpressure, resulting in multi-frequency vortices. The broken vortices further propagate downstream along streamwise direction and then interact with the flow structures of 4RF. As a result, the 8RF mode can be observed in the whole impeller, this mode is transformed from upstream RF and 4RF modes, respectively. On the other hand, the broken vortices show broadband peak spectrum, which is correlated to the stall inception. Therefore, the sudden boost of energy ratio of 14RF mode could be regarded as a type of earlier signal for compressor instability. In the diffuser, the flow structures are affected by the perturbation from the impeller. However, the flow in diffuser is more stable than that in impeller at OP1–OP3, since the leading modes are stable patterns of BPF/2BPF.

Topics & Concepts

Centrifugal compressorImpellerStall (fluid mechanics)MechanicsVortexLeading edgeGas compressorDynamic mode decompositionBackflowPhysicsMass flowTip clearanceDiffuser (optics)Mass flow rateAxial compressorMaterials scienceOpticsEngineeringMechanical engineeringInletThermodynamicsLight sourceTurbomachinery Performance and OptimizationFluid Dynamics and Turbulent FlowsHeat Transfer Mechanisms
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