Research on the Effect of the Outlet Throttle Diameter Deviation on the Pressure Relief Rate of the Injector Control Valve

Ren, Rina; Tie-xiong, SU; Ma, Fukang; Yang, Wei; Zhao, Xin; Chun-long, XU

doi:10.3390/en16010050

Energies

2022

DOI: 10.3390/en16010050

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Research on the Effect of the Outlet Throttle Diameter Deviation on the Pressure Relief Rate of the Injector Control Valve

Rina Ren

SU Tie-xiong

Fukang Ma

et al.

Abstract: Common rail injector response characteristics depend on the control chamber pressure change rate, the outlet throttle diameter by manufacturing errors, or wear-induced deviations that affect the rate of pressure change in the control chamber, so the accuracy of the outlet throttle diameter directly affects the control valve response consistency. This paper presents a computational fluid dynamics (CFD) simulation of the effect of the deviation of the outlet throttle diameter on the average mass flow rate of the… Show more

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Cited by 2 publications

References 23 publications

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Analysis of Influence of Control Valve Structure on Fuel Injection Performance of an Injector

Yue,

Zou,

et al. 2024

Energy Science & Engineering

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On the basis of the structure of the traditional electromagnetic injector, this paper proposes a new type of electromagnetic injector structure by changing the opening mode of the control valve. Taking the fuel injection consistency and response time as the evaluation indexes, a one‐dimensional simulation model was established to compare the fuel injection performance of the traditional electromagnetic injector and the new electromagnetic injector. For the new electromagnetic injector, the structural parameters of the control valve were optimized by orthogonal analysis. The results show that: compared with the traditional electromagnetic injector, the new electromagnetic injector had better multicylinder fuel injection consistency and more stable fuel injection quantity, but the opening delay, opening time, closing delay, and injection duration were increased by 30.77%, 11.14%, 33.46%, and 0.44%, respectively. The closing time was decreased by 8.55%, which was due to the change in the force and motion of the control valve body. After optimization, the response delay time of the injector was decreased and the fuel injection consistency became better. The opening delay, opening time, closing delay, and injection duration were decreased by 10.08%, 10.03%, 14.72%, and 4.57%, respectively; the closing time was increased by 3.42%. The average injection volume was decreased by 5.57%, and the variance value of fuel injection volume was decreased by 41.03%.

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Analysis of Influence of Control Valve Structure on Fuel Injection Performance of an Injector

Yue,

Zou,

et al. 2024

Energy Science & Engineering

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Application of Auxetic Tubular Structure in Flow Control of the Throttle Valve

Li,

Tian,

et al. 2023

Energies

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Compressed-air energy storage and other energy storage technologies play crucial roles in the use of renewable energy sources. As a key component in energy storage technology, the throttle valve plays an important role in throttling and reducing the pressure. The proposed method incorporates a throttle valve without relative motion based on the auxetic tubular structure. The fundamental principle of the method is to exploit the elastic deformation characteristics of the auxetic tubular structure to achieve flow control. When the structure is subjected to tension or compression, its diameter changes, thereby altering the dimensions of the valve, and regulating the flow rate. To assess the efficacy of the proposed method, a geometrical analysis is conducted. A prototype of the flow control device, incorporating an auxetic tubular structure, is fabricated using 3D printing technology. Experimental tests substantiate the performance of the proposed flow control method, demonstrating excellent linearity and repeatability. The results of this study indicate the potential applications of this method in throttling, further highlighting the importance and feasibility of the utilization of elastic deformation in auxetic structures as a method to achieve predictable motion.

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Research on the Effect of the Outlet Throttle Diameter Deviation on the Pressure Relief Rate of the Injector Control Valve

Cited by 2 publications

References 23 publications

Analysis of Influence of Control Valve Structure on Fuel Injection Performance of an Injector

Analysis of Influence of Control Valve Structure on Fuel Injection Performance of an Injector

Application of Auxetic Tubular Structure in Flow Control of the Throttle Valve

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