INVESTIGATION OF A NOVEL PRESSURE-ACTUATED BRUSH SEAL UNDER HOT STEAM CONDITIONS

IF 1.1 Q4 ENGINEERING, MECHANICAL Journal of the Global Power and Propulsion Society Pub Date : 2019-09-16 DOI:10.33737/gpps19-bj-119

Philip Reggentin, J. Friedrichs, J. Flegler, I. McBean

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Abstract

Due to the increasing demand towards flexible operation of conventional power plants also the seals of their turbines have to adapt to varying loads. Based on the basic design of a clamped brush seal, a novel seal with a pressure-actuated backplate is introduced which is capable of combining the advantages of low and high inclined brush seals while avoiding their undesired properties for flexible operation. During preliminary investigations on a test rig operated with compressed air and without rotation, the functionality of the improved design was demonstrated. It is shown that the leakage mass flow was lowered by up to 40% while undesired bristle oscillations were reduced by up to 90% at low pressure differences compared to conventional seal designs. After the adaption of the design for subsequent investigations under realistic conditions comparable to those in a steam turbine, further tests were conducted at TU Braunschweig´s hot steam test rig. Within these investigations the novel design showed improved properties regarding a high leakage performance and an advanced capability to avoid deterioration due to shaft excursions compared to brush seals with fixed backplate design.

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一种新型热蒸汽压力驱动刷式密封的研究

由于对传统发电厂灵活操作的需求不断增加，其涡轮机的密封件也必须适应变化的负载。在夹紧刷式密封的基本设计基础上，介绍了一种具有压力驱动背板的新型密封，该密封能够结合低倾斜和高倾斜刷式密封优点，同时避免了它们在灵活操作方面的不期望特性。在对使用压缩空气和不旋转的试验台进行初步研究期间，证明了改进设计的功能。结果表明，与传统的密封设计相比，在低压差下，泄漏质量流量降低了高达40%，而不希望的刷毛振荡降低了90%。在对设计进行了调整，以便在与汽轮机类似的现实条件下进行后续研究后，在TU Braunschweig的热蒸汽试验台上进行了进一步的试验。在这些研究中，与具有固定背板设计的刷式密封相比，新型设计在高泄漏性能方面表现出了改进的性能，并且具有避免由于轴偏移而导致的劣化的先进能力。

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