Operational Strategies of 2-Spool Micro Gas Turbine with Alternative Fuels: A Performance Assessment

A. Gaitanis, Ravi Nath Tiwari, W. De Paepe, M. L. Ferrari, F. Contino, P. Breuhaus
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Abstract

Micro Gas Turbines (mGT) have not yet succeeded in conquering the small-scale combined heat and power (CHP) market. One reason is that their electrical efficiency is not high enough to maintain a cost-effective operation. A two-shaft intercooled mGT has the potential to meet the current market demand. This technology maintains a high electrical efficiency even at part load and coupled with its fuel-flexible combustion chamber, makes it an ideal candidate for CHP concepts in a renewable future. In this paper, performance analysis on 2-spool mGT is carried out with various fuel blends. Attention is given to the low-pressure and high-pressure compressors and the variation of surge margin by adding hydrogen and syngas. Two control strategies of the mGT are adopted. In the first scenario, the two shafts have equal rotational speed while in the second, the speeds are controlled independently. As the engine is operated at equal speeds, the maximum performance with 100 vol.% of syngas is observed at 85% of the nominal load while 100 vol.% of hydrogen shows maximum efficiency at a load of 63.7%. At electric power lower than 60% and for high amounts of syngas in natural gas, the low-pressure compressor (LPC) operates closely to surge line. In the second scenario, the efficiency increases as the load decreases and the LPC runs in an efficient and safe operating region. Moreover, the performance of the 2-spool mGT is influenced by the amount of nitrogen in syngas.
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使用替代燃料的双涡管微型燃气轮机的运行策略:性能评估
微型燃气轮机(mGT)尚未成功征服小型热电联产(CHP)市场。原因之一是它们的电气效率不够高,无法维持经济高效的运行。双轴内冷式 mGT 有潜力满足当前的市场需求。这种技术即使在部分负荷时也能保持较高的电气效率,再加上其燃料灵活的燃烧室,使其成为未来可再生热电联产概念的理想候选者。本文对使用各种混合燃料的 2 线槽 mGT 进行了性能分析。重点分析了低压和高压压缩机,以及通过添加氢气和合成气来改变涌流裕量。采用了两种 mGT 控制策略。在第一种情况下,两个轴的转速相等,而在第二种情况下,两个轴的转速独立控制。当发动机以等速运行时,在额定负载的 85% 时,使用 100 Vol.% 合成气可观察到最大性能,而使用 100 Vol.% 氢气则可在 63.7% 负载时观察到最大效率。在电力低于 60% 和天然气中合成气含量较高的情况下,低压压缩机 (LPC) 的运行接近浪涌线。在第二种情况下,效率随着负荷的降低而提高,低压压缩机在高效和安全的运行区域内运行。此外,2-spool mGT 的性能还受到合成气中氮气含量的影响。
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