Retrofittable Solutions Capability for Gas Turbine Compressors

IF 1.3 Q2 ENGINEERING, AEROSPACE

International Journal of Turbomachinery, Propulsion and Power Pub Date : 2022-01-11 DOI:10.3390/ijtpp7010003

M. Ricci, Stefano Gino Mosele, Marcello Benvenuto, Pio Astrua, R. Pacciani, M. Marconcini

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引用次数: 4

Abstract

The increasing introduction of renewable energy capacity has changed the perspective on the operation of conventional power plants, introducing the necessity of reaching extreme off-design conditions. There is a strong interest in the development and optimization of technologies that can be retrofitted to an existing power plant to enhance flexibility as well as increase performance and lower emissions. Under the framework of the European project TURBO-REFLEX, a typical F-class gas turbine compressor designed and manufactured by Ansaldo Energia has been studied. Numerical analyses were performed using the TRAF code, which is a state-of-the-art 3D CFD RANS/URANS flow solver. In order to assess the feasibility of lower minimum environmental load operation, by utilizing a reduction in the compressor outlet mass-flow rate, with a safe stability margin, two different solutions have been analyzed: blow-off extractions and extra-closure of Variable Inlet Guide Vanes. The numerical steady-state results are compared and discussed in relation to an experimental campaign, which was performed by Ansaldo Energia. The purpose is to identify the feasibility of the technologies and implementation opportunity in the existing thermal power plant fleet.

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燃气轮机压缩机的改造解决方案能力

可再生能源容量的不断引入改变了人们对传统发电厂运营的看法，引入了达到极端偏离设计条件的必要性。人们对可以对现有发电厂进行改造以提高灵活性、提高性能和降低排放的技术的开发和优化非常感兴趣。在欧洲TURBOREFLEX项目的框架下，研究了由安萨尔多能源公司设计制造的一种典型的F级燃气轮机压缩机。使用TRAF代码进行了数值分析，TRAF代码是最先进的三维CFD RANS/URANS流动求解器。为了评估降低最低环境负荷运行的可行性，通过利用压缩机出口质量流量的降低，在安全稳定裕度的情况下，分析了两种不同的解决方案：吹出抽气和可变进口导叶的额外关闭。将数值稳态结果与Ansaldo Energia进行的实验活动进行了比较和讨论。目的是确定现有火力发电厂机组中技术的可行性和实施机会。

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