Glycerin-containing Working Fluids for Hydraulic Drives for Special Purposes

K. D. Efremova, V. Pilgunov
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Abstract

The cavitation properties of a liquid must be taken into account in the engineering design of hydraulic machines and devices for hydraulic automation in cases when in their working process the absolute pressure in the liquid may drop below atmospheric, and the liquid is in a rarefied state for a certain time. Cold boiling, which occurs at a relatively low temperature and reduced absolute pressure inside or on the surface of the liquid, is considered as hydrostatic cavitation, if the liquid is stationary, or as hydrodynamic cavitation, if the liquid enters conditions under which the velocity head sharply increases in the flow section and the absolute pressure.In accordance with the theory of cavitation, the first phase of cavitation occurs when the absolute pressure in the degassed liquid drops to the value of the saturated vapor pressure and the air dissolved in the liquid, leaving the intermolecular space, turns into microbubbles of undissolved air and becomes a generator of cavitation "nuclei". Of practical interest is a quantitative assessment of the value of the minimum permissible absolute pressure in a real, partially or completely degassed liquid, at which hydrostatic cavitation occurs.Since the pressure of saturated vapor of a liquid is, to a certain extent, associated with the forces of intermolecular interaction, it is necessary to have information on the cavitation properties of technical solutions, including the solution of air in a liquid, since a solute can weaken intermolecular bonds and affect the value of the pressure of saturated vapors of the solvent. The article describes an experiment carried out by the authors to evacuate liquids. During the experiment, evacuation of various liquids was carried out using a developed hydraulic vacuum pump with a pneumatic drive.The article presents the technologies of hydrostatic and hydrodynamic degassing of liquids used in the experiment.As a result of experimental studies of the cavitation properties of pure glycerin and glycerin in the form of a 49/51% solution in water, mineral oil and aviation kerosene, quantitative estimates of the permissible absolute pressure in the considered technical fluids and solutions were obtained, its dependence on the saturated vapor pressure, the influence of the degree of hydrodynamic degassing the liquid, and the amount of dissolved substance in it on the strength of the liquid to rupture.In the process of studying the cavitation properties of solutions, it was found that the level of permissible absolute pressure in the solution is greater than that of the solvent. It has been suggested that dissolved solid, liquid or gaseous substances weaken the intermolecular bonds of the solvent and increase the pressure of its saturated vapor.On the basis of the experimental studies, a method for determining the highest rarefaction in solvents and in glycerol solutions has been developed. In addition, a comparative assessment of the cavitation properties of the considered technical fluids is given.
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特殊用途液压传动用含甘油工作液
当液体在工作过程中绝对压力可能降到大气压以下,且液体在一定时间内处于稀薄状态时,在液压自动化用液压机和装置的工程设计中必须考虑液体的空化特性。冷沸腾发生在温度相对较低,液体内部或表面的绝对压力降低的情况下,如果液体是静止的,则称为静水空化;如果液体进入流段速度头和绝对压力急剧增加的情况,则称为动水空化。根据空化理论,当脱气液体中的绝对压力下降到饱和蒸汽压时,溶解在液体中的空气离开分子间空间,变成未溶解空气的微泡,成为空化“核”的产生器时,就会发生第一阶段的空化。有实际意义的是定量评估在发生流体静力空化时,部分或完全脱气的实际液体中允许的最小绝对压力的值。由于液体饱和蒸汽的压力在一定程度上与分子间相互作用的力有关,因此有必要了解技术溶液(包括空气在液体中的溶液)的空化特性,因为溶质可以削弱分子间键并影响溶剂饱和蒸汽的压力值。这篇文章描述了作者进行的一项排出液体的实验。在实验过程中,使用一种开发的液压真空泵与气动驱动进行各种液体的疏散。本文介绍了实验中采用的流体静力和流体动力脱气技术。通过对纯甘油和甘油在水、矿物油和航空煤油中49/51%溶液形式的空化特性的实验研究,获得了所考虑的技术流体和溶液中允许的绝对压力的定量估计,其对饱和蒸汽压的依赖,流体动力脱气程度的影响,以及其中溶解物质的数量对液体破裂强度的影响。在研究溶液空化特性的过程中,发现溶液中的允许绝对压力水平大于溶剂的允许绝对压力水平。有人认为,溶解的固体、液体或气体物质削弱了溶剂的分子间键,增加了其饱和蒸气的压力。在实验研究的基础上,建立了测定溶剂和甘油溶液中最高稀度的方法。此外,还对所考虑的技术流体的空化特性进行了比较评价。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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