共查询到20条相似文献,搜索用时 62 毫秒
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介绍了一种新型密封-铁磁流体密封的结构与工作原理,“铁磁流体”在密封间隙中发挥磁场作用,形成强韧的流体膜,阻止泄漏。该密封从维修服务、使用工作量、工作程序等方面,具有一定的优越性。 相似文献
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接触式机械密封是工程上应用广泛的密封形式,密封的效果与接触面的几何形状有直接的关系。文中通过对锥面接触式机械密封的接触形式分析入手,指出了接触面几何关系的几种不同状态,并以锥面接触式机械密封为例,分析、推导了锥面接触机械密封泄漏量的计算公式,同时指出了影响接触锥面锥度的因素,对改进机械密封的设计提出了有益的建议。 相似文献
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针对双支承离心油泵,分析影响机械密封性能的各种因素,计算出非设计工况下转子承受的径向力及密封处挠度、转角、径跳等值,据此对油泵的密封结构提出若干改进建议。 相似文献
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离心泵是目前国内外化工企业最常用的设备之一,它兼有流量大和扬程高的优点,操作灵活,连续性强,工作效率高。但由于工艺流程要求的不同.离心泵在输送物料过程中,经常出现物料的泄漏,给环境造成了污染,并造成能源的浪费。 1 离心泵工作原理及轴封装置的作用 离心泵通过电机、联轴器,使其叶轮高速旋转,在叶片之间的液体受到叶片的推动,在离心力的作用下,不断地从中心被甩向四周。当泵内液体从叶轮中心被抛向边缘时,中心处形成了低压区,由于进泵前的液体压强大于泵吸入口处的压强,在压强差的作用下,液体便经吸人管连续地吸入泵内.以补充被排出液体的位置,只要叶轮不停地旋转,液体便不断地吸入和排出。离心泵简图见图1。 相似文献
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一、前言高压离心泵的功率指标很大程度上取决于轴封的运行参数。本文描述的新型流体动压式机械密封可对轴径为d=150mm的泵在p=3.6MPa和n=6000r/min工况下进行可靠的密封。二、目标的提出工业对较大功率和较大输送流量的要求必然导致高压离心泵的开发。与此同时,对轴封的要求也提高了,在圆周速度小于20m/s条件下仍可使用软填料密封,但在较高圆周速度下,轴封应使用固定节流套、浮环和机械密封。通过比较,机械密封的泄漏最小。 相似文献
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离心泵密封口环动力学特性系数计算 总被引:1,自引:0,他引:1
本文根据Hirs的紊流整体流动理论,研究了离心泵间隙密封的动量方程式,在此基础上,推导了计算动力学系数的微分方程组,进行了数值求解并对计算结果进行了分析比较。 相似文献
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上游泵送机械密封在液化汽泵上的应用研究 总被引:7,自引:0,他引:7
针对液化汽泵现场工况条件,分析了泵用普通接触式密封存在的问题,开发设计出适用液化汽泵的零逸出上游泵送机械密封,工业应用结果表明,上游泵送机械密封可实现易挥发性介质的零逸出,且具有使用寿命长,运行费用低,安全可靠等优点。 相似文献
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对液氮泵在使用过程中机械密封的失效现象进行分析研究,参数核算,确定出失效的原因,由此确定出改造措施,在大庆天然气公司的液氮泵上应用,密封性能和使用寿命得到了提高,改善了工作环境,经济效益非常显著。同时也为解决易挥发性介质的密封问题提供了参考。 相似文献
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This work presents experimental results for a heat-sink mechanical seal installed in a 1 × 1.5 × 6 in. ANSI centrifugal water pump. The heat-sink seal is constructed of a stainless steel substrate with an electrodeposited pin fin micro-heat sink located within 3 mm of the end face. Each pin has a ten-sided polygon cross section with a flat-to-flat diameter of 675 μm, a height of 856 μm, and a 300-μm edge-to-edge spacing. The end face is coated with a WC thin film that forms the wear surface for the rotating ring. The heat-sink seal's effectiveness is demonstrated in a significant reduction of both the seal interface and seal chamber temperature when compared to a similar industry standard seal. The heat-sink seal removes 750 W of heat and reduces the stationary ring temperature by 80°C under dead-head conditions using only 1.6 W of coolant pumping power. 相似文献
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The reliability of mechanical seals in reactor coolant pumps is essential for the safety of pressurized water nuclear power plants. A wavy-tilt-dam (WTD) mechanical face seal, characterized by a circumferential wave with a radial taper and seal dam on one of the seal faces, has proved to be effective in practice. A theoretical model is developed to study the mechanism of the WTD seal in this article. Then, the structural parameters such as wave amplitude, taper, dam radius, and the number of waves are studied for the WTD seal under different rotation speeds and seal pressures. The results show that the mechanism of the WTD seal is the combination of hydrodynamic and hydrostatic effects, which do not work simultaneously. During the period of start-up and shutdown, when the film thickness and the pressure differential are both small, the seal works as a hydrodynamic seal, whereas it is a nearly hydrostatic seal at the stable working condition. The waves on the seal face will obviously impair the hydrostatic effect before cavitation occurs in the fluid film. The optimal values of the structure are obtained by analyzing the numerical results under certain working conditions. In addition, the performance varies obviously with rotation speed and seal pressure. 相似文献
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