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W3040894297 abstract "Abstract Helico-axial multiphase pumps are significant equipment in the exploitation of petroleum resources in offshore platforms, and in-depth understanding of gas-liquid flow fields is beneficial for the design and optimization. The method of dynamic mode decomposition and reconstruction is introduced and applied to study gas-liquid flow characteristics in a three-stage multiphase pump. Firstly, the theoretical relation between decomposed results and DMD parameters is investigated. Then, the dominant frequency and corresponding coherent structures inside the multiphase pump are revealed, which are induced by rotor-stator interaction and gas-liquid flow patterns. The reconstruction residual versus mode number represents a stepped curve, and the minimum residuals are below 10−5 governed by linear combination approximation. Comparison among reduced-order reconstruction, full-order reconstruction, and raw data shows that reduced-order reconstruction fields are effective in reflecting main flow characteristics, but fail to capture high order harmonic components, which is related to complex flow in diffuser passages and following vaneless areas." @default.
W3040894297 created "2020-07-16" @default.
W3040894297 creator A5008135411 @default.
W3040894297 creator A5024640055 @default.
W3040894297 creator A5037968183 @default.
W3040894297 date "2020-10-01" @default.
W3040894297 modified "2023-10-06" @default.
W3040894297 title "Method of dynamic mode decomposition and reconstruction with application to a three-stage multiphase pump" @default.
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W3040894297 doi "https://doi.org/10.1016/j.energy.2020.118343" @default.
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