| 合成气组分及雷诺数对火焰结构影响的实验研究 |
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| 引用本文: | 周雅君,王智化,何勇,翁武斌,周志军,周俊虎,岑可法.合成气组分及雷诺数对火焰结构影响的实验研究[J].气动实验与测量控制,2014(3):45-51. |
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| 作者姓名: | 周雅君 王智化 何勇 翁武斌 周志军 周俊虎 岑可法 |
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| 作者单位: | 浙江大学能源清洁利用国家重点实验室,杭州310027 |
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| 基金项目: | 国家自然科学基金(51176169);国家重点基础研究发展计划(2012CB214906) |
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| 摘 要: | 利用非接触的激光PLIF技术测量了在湍流贫燃预混燃烧中的OH自由基分布。以典型煤制合成气真实组分为基础进行工况设计,分为H2含量变化、CO/(CO+CH4)相对比例变化、雷诺数变化和中低热值对比4部分进行实验。通过OH-PLIF信号分析,探讨了H2含量、CO/(CO+CH4)相对比例和雷诺数对燃烧的影响。实验结果表明,雷诺数、H2含量和CO/(CO+CH4)相对比例的变化对合成气燃烧过程都有显著的影响。其中雷诺数的增大和H2含量的增加都加强了OH-PLIF信号强度,即有利于火焰中OH自由基的生成。而CO/(CO+CH4)相对比例的上升,因同时减少了CH4含量,导致OH自由基浓度下降。H2含量的升高和CO/(CO+CH4)相对比例的上升(转折点前)对于火焰行程都有缩短的作用,强化了燃烧。转折点之后CO/(CO+CH4)相对比例的继续上升不利于燃烧。后文对裂解气火焰瞬时图像和火焰面密度的分析印证了上述规律。
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| 关 键 词: | 合成气 雷诺数 火焰结构 火焰面密度 湍流预混火焰 |
Investigation on effect of syngas components and Reynolds number on premixed turbulent syngas flame structure |
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| Authors: | Zhou Yajun Wang Zhihua He Yong Weng Wubin Zhou Zhijun Zhou Junhu Cen Kefa |
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| Institution: | (State Key Laboratory of Clean Energy Utilization, Zhejiang University, Hangzhou 310027, China) |
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| Abstract: | The application of simultaneous single-shot imaging of OH radicals using the non-intrusive planar laser-induced fluorescence (PLIF)method to investigate lean premixed turbulent jet flame was reported.13 working conditions were designed according to real component of typi-cal air gasification coal syngas.Effect of H2 content,CO/(CO+CH4 )relative ratio and Reynolds number on flame structure were studied based on the acquired OH-planar laser-induced fluores-cence (OH-PLIF)images.And then,this method was applied to typical premixed turbulent py-rolysis syngas flame.Pyrolysis syngas contained over 80 percent combustible component,which led to a much higher calorific efficiency.Results indicated that,each of H2 content,CO/(CO+CH4 )relative ratio and Reynolds number played an important role in the formation of OH radical during combustion,therefore had an effect on combustion structure.H2 content increase and Reynolds number increase can enhance OH-PLIF signal in measuring range,which means they promote the formation of OH radicals.While the increase of CO/(CO+CH4 )relative ratio have an obviously decrease effect on OH signal.With the increase of Reynolds number from 4000 to 12000,the flame surface became wrinkled,the pulsation intensity of syngas flame became larger, and the unburnt area lengthened due to the increase of total amount of syngas.In general,Reyn-olds number strengthened the combustion progress.When the H2 ratio raised from 0 to 25% by 5% per step,the results showed that both length and width of the unburnt area reduced,and OH-PLIF signal became much stronger at upstream of the flame.In one word,the increase of H2 ratio can accelerate turbulent syngas combustion.As the CO/(CO+CH4 )relative ratio was investigated as a variable,the measurement results became complex.CO/(CO+CH4 )relative ratio was enhanced from 0 to 100% by 20% per step,and a turning point appeared during the procedure.In the first 4 working conditions,in which the CO/(CO+CH4 )relative ratio was 0 t |
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| Keywords: | OH-PLIF syngas Reynolds number flame structure OH-PLIF flame surface density tur-bulent premixed combustion |
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