NUMERICAL SIMULATION OF NO PRODUCTION IN GAS-TURBINE COMBUSTOR WITH LARGE-EDDY SIMULATION USING 2-SCALAR FLAMELET APPROACH

机译：二维涡形火焰法大涡模拟燃气轮机燃烧器不产生碳的数值模拟

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Under high temperature combusting environment, very high level of thermal NOx is generated. In order to prevent environmental contamination and pursue more power generation efficiency, we need to build up radically new combustion mode that satisfies both of higher temperature at outlet and lower NOx emissions. To investigate the ability of our numerical prediction method in a practical combustor system, we calculate two combustion modes and predict time-averaged temperature and NOx distribution in the 1700degC class gas-turbine combustor that is a test model fabricated by Mitsubishi Heavy Industries, Ltd. Then, we compare with experimental data to validate and analyze our calculation model. The results show LES and 2-scalar flamelet approach is very effective to predict NOx production in practical gas-turbine combustor.

机译：在高温燃烧环境下，产生非常高的热NOx。为了防止环境污染并追求更多的发电效率，我们需要建立完全新的燃烧模式，这些燃烧模式可满足出口和较低的NOx排放时的较高温度。为了研究我们数值预测方法在实用的燃烧系统中的能力，我们计算了1700degc类气汽轮机燃烧器中的两种燃烧模式和预测时间平均温度和NOx分布，这是三菱重工业有限公司制造的测试模型然后，我们与实验数据进行比较以验证和分析我们的计算模型。结果表明LES和2-SCOLAR FLAMET方法非常有效地预测实用的气涡轮机燃烧器中的NOx生产。

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《ASME international design engineering technical conferences;DETC2009;Computers and information in engineering conference;CIE2009》|2010年|P.285-293|共9页
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Shingo NISHIDA; Tomonori YAMAMOTO; Kazuhiro TSUKAMOTO; Nobuyuki OSHIMA;
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NUMERICAL SIMULATION OF NO PRODUCTION IN GAS-TURBINE COMBUSTOR WITH LARGE-EDDY SIMULATION USING 2-SCALAR FLAMELET APPROACH

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