2021
DOI: 10.3390/app11209559
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Simulation and Experimental Analysis of Pressure Pulsation Characteristics of Pump Source Fluid

Abstract: The output flow pulsation characteristics of the hydraulic pump due to the structural characteristics may cause pump source fluid pressure pulsation and even cause the equipment to vibrate, which will affect the life and working reliability of the equipment. Scholars have done a lot of theoretical and simulation analysis on the characteristics of fluid flow and pressure pulsation caused by the specific structure and structure of the plunger pump, but there are few comparisons and analyses of the simplified mod… Show more

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Cited by 7 publications
(6 citation statements)
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“…If the diaphragm pump discharges the same fluid each time it does reciprocating work, it can be considered that the average flow rate of the pump is constant. However, in practice, due to the working principle of the diaphragm pump, its instantaneous flow rate is changing, and its flow state is mainly pulsating flow, which will bring strong interference to the measurement of differential pressure signal and seriously reduce the accuracy of the measurement of rheological parameters of water-based drilling fluid [11].…”
Section: Fluid Pulsationmentioning
confidence: 99%
“…If the diaphragm pump discharges the same fluid each time it does reciprocating work, it can be considered that the average flow rate of the pump is constant. However, in practice, due to the working principle of the diaphragm pump, its instantaneous flow rate is changing, and its flow state is mainly pulsating flow, which will bring strong interference to the measurement of differential pressure signal and seriously reduce the accuracy of the measurement of rheological parameters of water-based drilling fluid [11].…”
Section: Fluid Pulsationmentioning
confidence: 99%
“…During the rolling process, the outlet of the hydraulic pump is directly connected with the ring side of the entry tension cylinder through pipelines, and constant tension control is achieved through the proportional relief valve. However, due to the impact of the high-frequency flow pulsation of the pump and the fluid inertia effect [8,9], the accuracy of tension control is limited. Furthermore, when used to control T H , the flow of the proportional relief valve includes the pump flow and the output flow from the entry-tension cylinder, which makes it necessary to designate a large nominal size (at least 10 mm) for the proportional relief valves.…”
Section: Introductionmentioning
confidence: 99%
“…Ma et al 18 deduced the relationship equation between the displacement and velocity of the piston of the multiphase pump and used the computational fluid dynamics method to study the entire working cycle of the reciprocating multiphase pump, focusing on the effect of the lag angle on the pressure pulsation. In addition, AMESim software is utilized to establish a simplified model of the seven‐plunger hydraulic pump, and the pump source fluid pressure pulsation characteristics of different system load pressures at a constant speed are simulated and analyzed 19 …”
Section: Introductionmentioning
confidence: 99%
“…In addition, AMESim software is utilized to establish a simplified model of the sevenplunger hydraulic pump, and the pump source fluid pressure pulsation characteristics of different system load pressures at a constant speed are simulated and analyzed. 19 In contrast, when studying the flow of pulsating fluid in pipelines, scholars have focused on the influence of pulsating fluid on the vibration characteristics [20][21][22] and sealing performance 23 of the pipeline, the effect of temperature on the pulsation characteristics of the pipeline, 24 and the hydraulic pulsation attenuator. 19 However, few researchers have considered the effect of the pipes on fluid flow.…”
Section: Introductionmentioning
confidence: 99%
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