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Predicting lean blow-off limit of gas turbine combustors based on Damköhler number and detailed atomization information - Zhonghao Wang, Bin Hu, Aibing Fang, Aiming Deng, Junhua Zhang, Qingjun Zhao, 2021
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Predicting Lean Blowout Limit of Combustors Based on Semi-Empirical Correlation and Simulation | Journal of Propulsion and Power
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Rocker/Counter question: Is the axis of the turn supposed to be following the direction of movement ? or is it slightly offset like B? : r/FigureSkating
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Predicting Lean Blowout Limit of Combustors Based on Semi-Empirical Correlation and Simulation | Journal of Propulsion and Power
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Analyzing lean blow-off limits of gas turbine combustors based on local and global Damköhler number of reaction zone - ScienceDirect
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Predicting lean blow-off limit of gas turbine combustors based on Damköhler number and detailed atomization information - Zhonghao Wang, Bin Hu, Aibing Fang, Aiming Deng, Junhua Zhang, Qingjun Zhao, 2021
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Predicting lean blow-off limit of gas turbine combustors based on Damköhler number and detailed atomization information - Zhonghao Wang, Bin Hu, Aibing Fang, Aiming Deng, Junhua Zhang, Qingjun Zhao, 2021
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55th AIAA Aerospace Sciences Meeting : Spray Measurements at Elevated Pressures and Temperatures Using Phase Doppler Anemometry
Equivalence Ratio (Φ) at LBO for the fuels tested. Points represent the... | Download Scientific Diagram
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Predicting Lean Blowout Limit of Combustors Based on Semi-Empirical Correlation and Simulation | Journal of Propulsion and Power
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Equivalence Ratio (Φ) at LBO for the fuels tested. Points represent the... | Download Scientific Diagram
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