PIV Measurement and CFD for an Internal Flow Field of a Pump Turbine

Abstract Pump turbine operating conditions are complex, mainly including turbine mode and pump mode. Pump turbines have various instability problems during operation, such as S-shaped, pump hump, pressure pulsation and cavitation. PIV (Particle Image Velocimetry) is a very effective test technique for the internal flow field observation of pump turbines. In this paper, the internal flow field of pump hump, cavitation, pressure pulsation and four quadrants of the pump turbine are tested by PIV technology. The experimental observations show that the internal flow on those unstable working conditions of the pump turbine is extremely complicated. Those conditions which the vortex separation is serious and the flow angle is changed is far away the best efficiency working condition. Since the operating condition deviates from the optimal operating condition, the inflow Angle is changed and the inflow Angle is far away from the optimal inflow Angle.And the vortex induces and develops strongly by PIV test. The flow phenomenon are demonstrated at each operating points by PIV test.

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D-10 PIV Measurement of 3D Internal Flow Field in a Low Solidity circular cascade Diffuser of Centrifugal Blowers

The Proceedings of Conference of Kyushu Branch ◽

10.1299/jsmekyushu.2016.69.145 ◽

2016 ◽

Vol 2016.69 (0) ◽

pp. 145-146

Author(s):

Daiki YAMAGUCHI ◽

Yuki TANIO ◽

Ryo SAKAGUCHI ◽

Takeshi TSUZI ◽

THAW TUN MIN ◽

...

Keyword(s):

Flow Field ◽

Internal Flow ◽

Piv Measurement

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PIV MEASUREMENT OF INTERNAL FLOW FIELD IN A RANGE HOOD

Energy and Mechanical Engineering ◽

10.1142/9789814749503_0066 ◽

2016 ◽

Author(s):

Hong Jiang ◽

Qiang Wang ◽

Tong-Fu Zheng ◽

Cheng-Xu Tu ◽

Kai Zhang

Keyword(s):

Flow Field ◽

Internal Flow ◽

Piv Measurement

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Analysis on the internal flow field in vaneless space and draft tube of one reversible pump turbine during load rejection under turbine mode

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/163/1/012059 ◽

2018 ◽

Vol 163 ◽

pp. 012059

Author(s):

X L Mao ◽

Y Zheng ◽

B Qu ◽

C Guo ◽

Z W He

Keyword(s):

Flow Field ◽

Draft Tube ◽

Internal Flow ◽

Pump Turbine ◽

Turbine Mode

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THE INTERNAL FLOW FIELD ASSOCIATED WITH YAWED THREE-DIMENSIONAL RECTANGULAR CAVITIES

Journal of Flow Visualization and Image Processing ◽

10.1615/jflowvisimageproc.v7.i3.30 ◽

2000 ◽

Vol 7 (3) ◽

pp. 14

Author(s):

Eric Savory ◽

Norman Toy ◽

Shiki Okamoto ◽

Yoko Yamanishi

Keyword(s):

Flow Field ◽

Three Dimensional ◽

Internal Flow

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Influence of wall roughness on cavitation performance of centrifugal pump

Journal of the Brazilian Society of Mechanical Sciences and Engineering ◽

10.1007/s40430-021-03023-3 ◽

2021 ◽

Vol 43 (6) ◽

Author(s):

Weihui Xu ◽

Xiaoke He ◽

Xiao Hou ◽

Zhihao Huang ◽

Weishu Wang

Keyword(s):

Flow Field ◽

Centrifugal Pump ◽

Internal Flow ◽

Wall Roughness ◽

Blade Surface ◽

Centrifugal Pumps ◽

Three Dimensional Model ◽

Cavitation Inception ◽

Cavitation Performance ◽

Critical Cavitation

AbstractCavitation is a phenomenon that occurs easily during rotation of fluid machinery and can decrease the performance of a pump, thereby resulting in damage to flow passage components. To study the influence of wall roughness on the cavitation performance of a centrifugal pump, a three-dimensional model of internal flow field of a centrifugal pump was constructed and a numerical simulation of cavitation in the flow field was conducted with ANSYS CFX software based on the Reynolds normalization group k-epsilon turbulence model and Zwart cavitation model. The cavitation can be further divided into four stages: cavitation inception, cavitation development, critical cavitation, and fracture cavitation. Influencing laws of wall roughness of the blade surface on the cavitation performance of a centrifugal pump were analyzed. Research results demonstrate that in the design process of centrifugal pumps, decreasing the wall roughness appropriately during the cavitation development and critical cavitation is important to effectively improve the cavitation performance of pumps. Moreover, a number of nucleation sites on the blade surface increase with the increase in wall roughness, thereby expanding the low-pressure area of the blade. Research conclusions can provide theoretical references to improve cavitation performance and optimize the structural design of the pump.

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Analysis of the Influence of Different Bionic Structures on the Noise Reduction Performance of the Centrifugal Pump

Sensors ◽

10.3390/s21030886 ◽

2021 ◽

Vol 21 (3) ◽

pp. 886

Author(s):

Cui Dai ◽

Chao Guo ◽

Yiping Chen ◽

Liang Dong ◽

Houlin Liu

Keyword(s):

Flow Field ◽

Noise Reduction ◽

Centrifugal Pump ◽

Great Influence ◽

Frequency Doubling ◽

Sound Field ◽

Internal Flow ◽

Test System ◽

Centrifugal Pumps ◽

External Characteristics

The strong noise generated during the operation of the centrifugal pump harms the pump group and people. In order to decrease the noise of the centrifugal pump, a specific speed of 117.3 of the centrifugal pump is chosen as a research object. The bionic modification of centrifugal pump blades is carried out to explore the influence of different bionic structures on the noise reduction performance of centrifugal pumps. The internal flow field and internal sound field of bionic blades are studied by numerical calculation and test methods. The test is carried out on a closed pump test platform which includes external characteristics and a flow noise test system. The effects of two different bionic structures on the external characteristics, acoustic amplitude–frequency characteristics and flow field structure of a centrifugal pump, are analyzed. The results show that the pit structure has little influence on the external characteristic parameters, while the sawtooth structure has a relatively great influence. The noise reduction effect of the pit structure is aimed at the wide-band noise, while the sawtooth structure is aimed at the discrete noise of the blade-passing frequency (BPF) and its frequency doubling. The noise reduction ability of the sawtooth structure is not suitable for high-frequency bands.

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Visualization of Internal Flow Field of Propeller Fan

Volume 1A, Symposia: Keynotes; Advances in Numerical Modeling for Turbomachinery Flow Optimization; Fluid Machinery; Industrial and Environmental Applications of Fluid Mechanics; Pumping Machinery ◽

10.1115/fedsm2017-69261 ◽

2017 ◽

Author(s):

Takaya Onishi ◽

H. Sato ◽

M. Hayakawa ◽

Y. Kawata

Keyword(s):

Flow Field ◽

High Performance ◽

Laser Light ◽

Internal Flow ◽

Light Sheet ◽

Tip Vortex ◽

Laser Light Sheet ◽

Blade Surface ◽

Similar Tendency ◽

Flow Phenomena

Propeller fans are required not only to have high performance but also to be extremely quiet. The internal flow field of ventilation propeller fans is even more complicated because they usually have a very peculiar configuration with protruding blades upstream. Thus, many kinds of internal vortices yield which cause noise and their cause and countermeasures are needed to be clarified. The purposes of this paper are to visualize the internal flow of the propeller fan from the static and rotating frame of reference. The internal flow visualization measured from the static frame gives approximately the scale of the tip vortex. The visualization from the rotating coordinate system yields a better understanding of the flow phenomena occurring at the specific blade. The experiment is implemented by using a small camera mounted on the shaft of the fan and rotated it to capture the behavior of the vortices using a laser light sheet to irradiate the blade surface. Hence, the flow field of the specific blade could be understood to some extent. The visualized results are compared with the CFD results and these results show a similar tendency about the generation point and developing process of the tip vortex. In addition, it is found that the noise measurement result is relevant to the effect of tip vortex from the visualization result.

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Research on CFD Simulation of the Cement Slurry Mixer

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.621.196 ◽

2012 ◽

Vol 621 ◽

pp. 196-199

Author(s):

Shui Ping LI ◽

Ya Li Yuan ◽

Lu Gang Shi

Keyword(s):

Flow Field ◽

High Performance ◽

Cfd Simulation ◽

Structural Parameters ◽

Internal Flow ◽

Simulation Method ◽

Cement Slurry ◽

Fluid Machinery ◽

Computational Fluid Dynamics Cfd ◽

Machinery Design

Numerical simulation method of the internal flow field of fluid machinery has become an important technology in the study of fluid machinery design. In order to obtain a high-performance cement slurry mixer, computational fluid dynamics (CFD) techniques are used to simulate the flow field in the mixer, and the simulation results are studied. According to the analysis results, the structural parameters of the mixer are modified. The results show the mixer under the revised parameters meet the design requirements well. So CFD analysis method can shorten design period and provide valuable theoretical guidance for the design of fluid machinery.

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