Open Access

ARTICLE

Structural design and performance analysis of sliding double-layer water injection distributor

Xianjun Zhou¹, H. Fang², Zhengyang Zhao², Xuejun Zhang³, Xinning Ji²

1 China University of Petroleum (East China)
2 China University of Petroleum (East China)
3 Qingdong oil production management zone of Shengli Oilfield Petroleum Development Center Co., Ltd

* Corresponding Authors: Xianjun Zhou (" />" />" />" />), H. Fang (" />" />" />" />), Zhengyang Zhao (" />" />" />" />), Xuejun Zhang (" />" />" />" />), Xinning Ji (" />" />" />" />)

Revista Internacional de Métodos Numéricos para Cálculo y Diseño en Ingeniería 2022, 38(4), 1-13. https://doi.org/10.23967/j.rimni.2022.11.002

Received 09 June 2022; Accepted 03 November 2022; Issue published 15 November 2022

Abstract

Taking the double-layer water injection well and one graded water distributor could regulate two layers as the design and research goal, the sliding double-layer water injection distributor was designed by using the forward and reverse rotation of the driving motor to control the opening and closing of the two nozzles. The flow field of the two flow channels under different opening was analyzed by FLUENT software. The research shows that when the opening of the nozzle was less than 10mm, the maximum flow rate decreases rapidly, and when the opening exceeds 10mm, it decreases slowly. The mathematical models of flow pressure, flow velocity, and nozzle opening were obtained by data analysis and fitting. Finally, the kinematics simulation was carried out by AAMS, and the maximum friction force borne by each sealing in the movement process was obtained. The maximum torque borne in the movement process was 120.5N·m, which was less than the rated torque. The supporting motor could meet the design requirements.

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Keywords

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