Improved LP-Stage Design for Industrial Steam Turbines

Volume 9: Oil and Gas Applications; Organic Rankine Cycle Power Systems; Steam Turbine Pub Date : 2020-09-21 DOI:10.1115/GT2020-14375

O. Brunn, Ulrich Harbecke, T. Mokulys, V. Salit, M. Schwarz, Felix Dornbusch

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Abstract

This publication deals with the improvement of the design and life steam testing of a low-pressure steam turbine module for utilization in industrial applications. Extensive numerical investigations were carried out and validated with experimental measurements. For the validation of the final blade design, the LP module was integrated and tested in a 12.5MW steam turbine test rig. During the balancing of the rotor in a vacuum chamber, tip-timing and strain gage measurements were conducted for testing the mechanical behavior of the airfoils. In the succeeding assembly of the steam turbine, tip-timing probes and flow measurement probes were integrated around the LP module to evaluate the blade load and performance under realistic conditions. To obtain a good understanding of the improved performance and mechanical behavior the thermodynamic tests were carried out under no-load, part load and design load conditions to cover the whole operating range of the LP stages. The paper also describes how an existing rotor from the test rig could be retrofitted, to accommodate the new turbine stages with additive manufacturing of the base material on the shaft.

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改进的工业汽轮机lp级设计

本出版物涉及低压汽轮机模块在工业应用中使用的设计和寿命蒸汽试验的改进。进行了广泛的数值研究，并通过实验测量进行了验证。为了验证最终的叶片设计，将LP模块集成并在12.5MW汽轮机试验台进行了测试。在真空室平衡转子过程中，进行了尖端定时和应变仪测量，以测试翼型的力学行为。在后续的汽轮机装配中，在LP模块周围集成了叶尖定时探头和流量测量探头，以评估实际工况下叶片的载荷和性能。为了更好地了解改进后的性能和力学性能，在空载、部分负荷和设计负荷条件下进行了热力学测试，以覆盖低压级的整个工作范围。本文还描述了如何从试验台现有的转子可以进行改造，以适应新的涡轮级与轴上的基础材料的增材制造。

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

Volume 9: Oil and Gas Applications; Organic Rankine Cycle Power Systems; Steam Turbine

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