Numerical Study to Valve Control Scheme of 660MW Supercritical Steam Turbine Based on SPE

2018 10th International Conference on Modelling, Identification and Control (ICMIC) Pub Date : 2018-07-01 DOI:10.1109/ICMIC.2018.8529982

Qian Jin, Qin Haibo, Gong Dehong, Yu Yujie

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Abstract

As the parameters of the thermal power plant and the frequency of peak load operation rising continuously, Solid Particle Erosion (SPE) of steam turbine is getting more and more serious. Solid particle erosion leads to the damage of the steam turbine blade and the degradation of the turbine's performance. Taking a 660MW supercritical steam turbine, the numerical simulation is carried out aiming to get the impact density of SPE to the blades of the turbine's governing stage as its load varying respectively correspond to sliding pressure and constant pressure running modes. The influence of SPE with different valve control schemes are compared while the pressure keeping constant. The solid particle erosion of the steam turbine governing stage mainly occurs in the blades. As the load decreases during the sliding pressure operation, the erosion of the solid particles in the governing stage gradually increases. At high load, the valve control scheme has less effect on solid particle erosion and low load larger. Based on the analysis of the simulation results, a series of valve control scheme to reduce the SPE of governing stage are presented.

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基于SPE的660MW超临界汽轮机阀门控制方案数值研究

随着火电厂参数和调峰运行频率的不断提高，汽轮机固相颗粒侵蚀问题日益严重。固体颗粒的侵蚀会导致汽轮机叶片的损坏和汽轮机性能的下降。以某660MW超临界汽轮机为例，通过数值模拟，得到了该汽轮机在滑压和恒压两种运行模式下，载荷变化时SPE对调节级叶片的冲击密度。在压力保持不变的情况下，比较了不同阀控方案对固相萃取的影响。汽轮机调节级固体颗粒侵蚀主要发生在叶片上。在滑压运行过程中，随着载荷的减小，调节阶段固体颗粒的侵蚀量逐渐增大。高负荷时，阀控方案对固体颗粒侵蚀影响较小，低负荷时影响较大。在分析仿真结果的基础上，提出了一系列降低控制级SPE的阀控方案。

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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2018 10th International Conference on Modelling, Identification and Control (ICMIC)

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