Design of the Springs Tightening for a Double Cartridge Mechanical Seal

Q3 Engineering Tribology in Industry Pub Date : 2023-12-15 DOI:10.24874/ti.1545.08.23.09
Andrei Stanciu, C. Ilincă, Razvan George Ripeanu
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Abstract

Mechanical seals are used in a wide range of industrial applications, including pumps, compressors etc., in order to avoid leakage of the working fluid. The design construction, and the operation of the mechanical seals continue to evolve to meet the demands of new technologies and industries. These developments are the increase of operating parameters, in the condition of strictly respecting the environment protection. A mechanical seal consists of two rings, one being static and the other one dynamic, which are actioned by one or two fluid pressure, and an elastic force (or magnetic) which keeps the two faces of the rings in permanent contact. A direct contact between the frontal face of the rings will increase the surface temperature and the rings wear, so a small fluid film, as a lubricant and coolant, it is kept between the two face sealings. At modern mechanical seal are used also a secondary fluid. The tightening force in the seal, which it is very important, depends on seal construction, materials used, working fluid type, pressure and temperature, rotational speed, secondary fluid type, pressure, and temperature. Paper aims to present the studies made by the authors on a mechanical seal of the AESSEAL, cartridge seal type CDSA of a 1” in order to obtain the correct sealing pressure between seal rings. Calculation was made analytical, with the respect of regulations of the standards, and by FEA method. Was obtained a CFD model, to simulate the pressure inside the chamber of secondary fluid at different inlet/outlet pressures to determine the real value of it. The obtained results by CFD analyses were integrated in FEM analyses by ANSYS Static Structural to calculate the contact pressure on the rings faces and to calculate the minimum spring force for internal and external sealing cartridges for different working and secondary fluid pressure, also considering the seal construction design, materials, and rotational speed of 3000rpm. The results are very important in operation of the mechanical seal because the graphs presented in the paper give the operators the correct value of the spring tightening in the seal depending on the different ranges of fluids pressures.
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双密封筒机械密封的弹簧拧紧设计
机械密封广泛应用于工业领域,包括泵、压缩机等,以避免工作流体泄漏。为了满足新技术和新工业的需求,机械密封的设计结构和运行方式也在不断发展。这些发展是在严格遵守环境保护的条件下提高运行参数。机械密封由两个环组成,一个是静环,另一个是动环,由一个或两个流体压力和一个弹性力(或磁力)作用,使环的两个面保持永久接触。密封环正面之间的直接接触会增加表面温度和密封环的磨损,因此在两个密封面之间保留了一层小的流体膜,作为润滑剂和冷却剂。在现代机械密封中还使用了辅助流体。密封件的紧固力非常重要,它取决于密封件的结构、所用材料、工作流体类型、压力和温度、转速、辅助流体类型、压力和温度。本文旨在介绍作者对 AESSEAL 的机械密封、1 英寸 CDSA 型集装式密封进行的研究,以获得密封环之间正确的密封压力。在遵守标准规定的前提下,采用分析法和有限元分析法进行了计算。获得了一个 CFD 模型,用于模拟不同入口/出口压力下二次流体腔内的压力,以确定其实际值。将 CFD 分析获得的结果与 ANSYS Static Structural 的有限元分析相结合,计算环面的接触压力,并计算不同工作压力和二次流体压力下内部和外部密封筒的最小弹簧力,同时考虑密封结构设计、材料和 3000rpm 的转速。这些结果对机械密封的操作非常重要,因为文中提供的图表可根据不同的流体压力范围,为操作人员提供密封中弹簧紧固的正确值。
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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来源期刊
Tribology in Industry
Tribology in Industry Engineering-Mechanical Engineering
CiteScore
2.80
自引率
0.00%
发文量
47
审稿时长
8 weeks
期刊介绍: he aim of Tribology in Industry journal is to publish quality experimental and theoretical research papers in fields of the science of friction, wear and lubrication and any closely related fields. The scope includes all aspects of materials science, surface science, applied physics and mechanical engineering which relate directly to the subjects of wear and friction. Topical areas include, but are not limited to: Friction, Wear, Lubricants, Surface characterization, Surface engineering, Nanotribology, Contact mechanics, Coatings, Alloys, Composites, Tribological design, Biotribology, Green Tribology.
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