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新型液压循环阀的研制与应用 被引量:4
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作者 俞昶聿 张延春 张延水 《石油矿场机械》 2008年第8期40-42,共3页
进口的RTTS液压循环阀满足不了生产的需要,研制出一种新型液压循环阀,具有结构简单、保养维修方便、施工成功率高的特点。实现了产品的国产化,降低了生产成本和施工费用,特别适用于无硫化氢油井的压力测试工艺。
关键词 液压循环阀 结构 材料 压力曲线
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新型液压循环阀 被引量:1
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作者 颜俊虎 莫尚贤 +1 位作者 邵想全 陈忠 《油气井测试》 2007年第z1期70-71,共2页
针对进口RTTS液压循环阀价格昂贵的问题,研制出一种新型液压循环阀。该工具结构简单,保养维修方便,造价便宜,施工成功率高,工作性能可靠,具有较强的实用性,在现场应用中取得了较好的效果。
关键词 液压循环阀 研制 应用
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基于射频识别技术的无干预完井系统
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作者 易灿 李冬梅 +4 位作者 邱胜蓝 易先中 万继方 魏世忠 刘浩鸿 《石油机械》 2015年第7期19-22,共4页
基于射频识别技术的无干预完井系统无需钢丝绳、电缆或连续管等人机干预作业便可灵活地对完井作业过程实施远程控制和操作。射频识别技术由电子标签、阅读器、数据交换器和控制系统组成,其控制系统中的液压动力单元可自给电能和液压能,... 基于射频识别技术的无干预完井系统无需钢丝绳、电缆或连续管等人机干预作业便可灵活地对完井作业过程实施远程控制和操作。射频识别技术由电子标签、阅读器、数据交换器和控制系统组成,其控制系统中的液压动力单元可自给电能和液压能,并与带有液压控制线的配套工具相连;可将液压循环阀当作液动滑套使用,采用无弹性体的金属对金属密封技术。性能测试和应用结果表明,系统的各项指标完全满足ISO标准和现场使用要求,液压循环阀可适应温度135℃、压力34.5 MPa的恶劣工作环境。 展开更多
关键词 射频识别 无干预完井系统 液压循环阀 性能测试 控制系统
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Fluid structure interaction for circulation valve of hydraulic shock absorber 被引量:6
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作者 陈齐平 舒红宇 +2 位作者 方文强 何联格 杨茂举 《Journal of Central South University》 SCIE EI CAS 2013年第3期648-654,共7页
Based on the working principle and the damping characteristic of hydraulic shock absorber, a fluid structure interaction method was presented, which was used to analyze the microcosmic and high-frequency processing me... Based on the working principle and the damping characteristic of hydraulic shock absorber, a fluid structure interaction method was presented, which was used to analyze the microcosmic and high-frequency processing mechanism of fluid structure interaction between circulation valve and liquid of hydraulic shock absorber. The fluid mesh distortion was controlled by the CEL language, and the fluid struc^tre interaction mathematical model was established. The finite element model was established by ANSYS CFX software and was analyzed by dynamic mesh technique. The local sensitive computational area was meshed by prismatic grid, which could reduce the negative volume problem during the simulation. The circulation valve and liquid of hydraulic shock absorber were simulated and analyzed under the condition of sinusoidal inlet velocity loads. Flow characteristic and dynamics characteristic were obtained. The pressure distribution and the displacement of circulation value were obtained, and the acceleration curve of circulation valve was simulated and analyzed. The conformity of the final simulation results with the experimental datum indicates that this method is accurate and reliable to analyze the dynamics characteristic between circulation valve and liquid of hydraulic shock absorber, which can provide a theoretical foundation for optimizing hydraulic shock absorber in the future. 展开更多
关键词 hydraulic shock absorber circulation valve finite element method fluid structure interaction simulation analysis
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