Analysis of operating limits and combustion state regulation for low-calorific value gases in industrial burners |
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Affiliation: | 1. School of Aerospace Engineering, Tsinghua University, Beijing 100084, China;2. Institute for Aero Engine, Tsinghua University, Beijing 100084, China |
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Abstract: | The effective and efficient utilization of low-calorific value (LCV) gases has gained increasing attention in scientific research and industrial fields. In this study, the combustion characteristics of three LCV gases in practical devices are analyzed by using a nonadiabatic perfectly stirred reactor model. The complete steady-state solution in the temperature-residence time parameter space is obtained with arc-length continuation. The stable operation region is quantified by the eigenvalue analysis. The transition of solution curves is quantified with heat loss coefficient. Five key system parameters are systematically investigated on their effects on stability limits. With the combustion performance being quantified by a combustion state index, a combustion state regulation method is proposed to find the optimal regulation path of system parameters. Active subspace method is further applied to shorten the regulation step by identifying the active direction. The proposed method and findings are useful for optimal regulation of burning LCV gases in industrial burners. |
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Keywords: | Low-calorific value gas Perfectly stirred reactor Arc-length continuation Combustion state regulation Active subspace |
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