АСИМПТОТИЧЕСКОЕ ПОВЕДЕНИЕ РЕШЕНИЙ ОБЫКНОВЕННЫХ ДИФФЕРЕНЦИАЛЬНЫХ УРАВНЕНИЙ n-го ПОРЯДКА С ПРАВИЛЬНО МЕНЯЮЩИМИСЯ НЕЛИНЕЙНОСТЯМИ

Евтухов, В. М.; Клопот, А. М.

doi:10.1134/s0374064114050033

J Y Gao

2Publications

16Citation Statements Received

13Citation Statements Given

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Chinese Academy of Agricultural Mechanization Sciences, China Agricultural University

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Evaluation of Flow-Induced Dynamic Stress and Vibration of Volute Casing for a Large-Scale Double-Suction Centrifugal Pump

Wang

et al. 2013

Mathematical Problems in Engineering

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The transient analysis was carried out to investigate the dynamic stress and vibration of volute casing for a large double-suction centrifugal pump by using the transient fluid-structure interaction theory. The flow pulsations at flow rate ranging from 60% to 100% of the nominal flow rate ( ) were taken as the boundary conditions for FEM analysis of the pump volute casing structure. The results revealed that, for all operating conditions, the maximum stress located at the volute tongue region, whereas the maximum vibration displacement happened close to the shaft hole region. It was also found that the blade passing frequency and its harmonics were dominant in the variations of dynamic stress and vibration displacement. The amplitude of the dominant frequency for the maximum stress detected at 0.6 was 1.14 times that at , lower than the related difference observed for pressure fluctuations (3.23 times). This study provides an effective method to quantify the flow-induced structural dynamic characteristics for a largescale double-suction pump. It can be used to direct the hydraulic and structural design and stable operation, as well as fatigue life prediction for large-scale pumps.

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Prediction of flow- induced dynamic stress in an axial pump impeller using FEM

Gao

Hou

et al. 2013

IOP Conf. Ser.: Mater. Sci. Eng.

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J Y Gao

Evaluation of Flow-Induced Dynamic Stress and Vibration of Volute Casing for a Large-Scale Double-Suction Centrifugal Pump

Prediction of flow- induced dynamic stress in an axial pump impeller using FEM

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