Experimental Investigation of Time-Frequency Characteristics of Pressure Fluctuations in a Double-Suction Centrifugal Pump

Yao, Zhifeng; Wang, Fujun; Qu, Li-Xia; Xiao, Ruofu; He, Chenglian; Wang, Min

doi:10.1115/1.4004959

Cited by 86 publications

(43 citation statements)

References 12 publications

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“…Moreover, the pressure pulsations induced by the rotor‐stator interactions in axially split centrifugal pumps were investigated by Yao et al at design and off‐design operation conditions. They demonstrated that the blade passing frequency is very high around the volute region.…”

Section: Introductionmentioning

confidence: 99%

“…Khalifa et al, 10 Pavesi et al, 11 and Spece 12 all investigated the pressure pulsation fields in centrifugal pumps and concluded that the magnitude of the pulsation is induced by the rotor-stator interactions at all operating conditions. Moreover, the pressure pulsations induced by the rotorstator interactions in axially split centrifugal pumps were investigated by Yao et al 13 at design and off-design operation conditions. They demonstrated that the blade passing frequency is very high around the volute region.…”

Section: Introductionmentioning

confidence: 99%

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Experimental and numerical investigations on pressure pulsation in a pump mode operation of a pump as turbine

Zhang

Appiah

Yuan

et al. 2019

Energy Science & Engineering

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Hydropower has been the leading renewable source and cheapest ways to generate electrical energy in the world. In recent years, there has been a major upsurge in the hydropower development because of the use of pump as turbine (PAT). However, the operational reliability of a PAT is greatly affected by the unsteady flow fields; therefore, it is important to examine the unsteady flow behavior which can be used as a reference to reduce the noise, vibration, and cavitation performance for centrifugal pumps working as turbines. Thus, the objective of this study was to evaluate the unsteady flow fields by analyzing the distribution of the pressure pulsations using both numerical and experimental measurements in a PAT operating in pump mode. Firstly, the three‐dimensional (3D) unsteady flow equations were solved using SST k‐ω turbulence model during the numerical calculations. Secondly, the numerical results of the hydraulic pump performance were validated by the experimental measurements for numerical accuracy. Lastly, pressure transducers are positioned at certain monitoring points to measure the pressure in the PAT investigated. The numerical and experimental results show that the main frequency of the pressure pulsation is equal to the blade frequency, and as it deviates from the design operating condition, the magnitude of pressure pulsation intensifies. Furthermore, the impeller eye marked the lowest pressure coefficients especially at the design condition and makes it highly susceptible to cavitation. High pressure coefficients were obviously seen at the pressure side on the blade surface closer to the trailing edge at all studied operating conditions. Meanwhile, the rotor‐stator interaction generated the highest pressure pulsation distribution at the volute tongue. Thus, modification of the volute tongue is an optimal approach of reducing the pressure pulsation intensity in the volute and pump as a whole.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Experimental and numerical investigations on pressure pulsation in a pump mode operation of a pump as turbine

Zhang

Appiah

Yuan

et al. 2019

Energy Science & Engineering

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“…Pressure fluctuation is one of the most common phenomena of unsteady flows. Considerable investigations [1][2][3][4][5][6][7][8][9][10][11][12] have been performed on pressure fluctuation characteristics in volute casings and impellers of centrifugal pumps, concluding that blade-tongue interaction plays a dominant role in causing fluctuating main flows, and the influencing factors including flow rate and impeller-tongue gap size have been analyzed. But flows in sidewall gaps, which refer to the space between impeller shrouds and casing covers, are usually ignored.…”

Section: Introductionmentioning

confidence: 99%

Numerical Investigation of Pressure Fluctuation Characteristics in a Centrifugal Pump with Variable Axial Clearance

Cao

Wang

Xiao

et al. 2016

International Journal of Rotating Machinery

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Clearance flows in the sidewall gaps of centrifugal pumps are unsteady as well as main flows in the volute casing and impeller, which may cause vibration and noise, and the corresponding pressure fluctuations are related to the axial clearance size. In this paper, unsteady numerical simulations were conducted to predict the unsteady flows within the entire flow passage of a centrifugal pump operating in the design condition. Pressure fluctuation characteristics in the volute casing, impeller, and sidewall gaps were investigated with three axial clearance sizes. Results show that an axial clearance variation affects the pressure fluctuation characteristics in each flow domain by different degree. The greatest pressure fluctuation occurs at the blade pressure surface and is almost not influenced by the axial clearance variation which has a certainly effect on the pressure fluctuation characteristics around the tongue. The maximum pressure fluctuation amplitude in the sidewall gaps is larger than that in the volute casing, and different spectrum characteristics show up in the three models due to the interaction between the clearance flow and the main flow as well as the rotor-stator interaction. Therefore, clearance flow should be taken into consideration in the hydraulic design of centrifugal pumps.

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“…Toussaint [4] experimentally studied the unsteady flow in a centrifugal pump at off-design point operation and found that the unsteady pressures due to the rotorstator interactions took place at the following characteristic frequencies: rotation frequency, blade passing frequency, and their harmonics. Lately, Yao et al [5] carried out several tests on double-suction centrifugal pumps. He found that the impeller rotating frequency and some lower frequencies dominated in suction chamber.…”

Section: Introductionmentioning

confidence: 99%

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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Experimental Investigation of Time-Frequency Characteristics of Pressure Fluctuations in a Double-Suction Centrifugal Pump

Cited by 86 publications

References 12 publications

Experimental and numerical investigations on pressure pulsation in a pump mode operation of a pump as turbine

Experimental and numerical investigations on pressure pulsation in a pump mode operation of a pump as turbine

Numerical Investigation of Pressure Fluctuation Characteristics in a Centrifugal Pump with Variable Axial Clearance

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

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