Airflow and concentration characterisation and ammonia mass transfer modelling in wind tunnel studies

Saha Chayan Kumer; Zhang Guoqiang; Ni Ji-Qin .

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Airflow and concentration characterisation and ammonia mass transfer modelling in wind tunnel studies

机译：风洞研究中的气流和浓度表征以及氨气传质模型

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Ammonia mass transfer was modelled by investigating the airflow characteristics above ammonia release surfaces in a wind tunnel and evaluating the effect of wind tunnel dimensions on ammonia emission and the mass transfer process A laboratory experiment was conducted using a 0 35 x 0 35 m(2) cross section wind tunnel at 0 1-04 m s(-1) mean wind velocities and 11%-30% reference turbulence intensities A 0 1 m thick ammonia concentration boundary layer and 003-0 1 m thick wind velocity boundary layers were observed at the tested velocities and turbulence intensities Increases in wind velocity did not significantly affect ammonia concentration profiles but they reduced tunnel outlet ammonia concentrations and increased emissions An inverse relationship between turbulence intensities and wind velocity was also observed The highest turbulence intensities were located close to the ammonia release surface where wind velocities were the lowest An ammonia mass transfer coefficient model was developed as a function of wind velocity and turbulence intensity Comparisons with two similar studies revealed that characteristics of wind velocity and ammonia emission were significantly affected by wind tunnel geometric dimensions

机译：通过研究风洞中氨气释放表面上方的气流特性并评估风洞尺寸对氨气排放和传质过程的影响来模拟氨气传质。使用0 35 x 0 35 m（2）进行实验室实验在0 1-04 ms（-1）处的截面风洞平均风速和11％-30％参考湍流强度在观测到的A 0 1 m厚氨浓度边界层和003-0 1 m厚风速边界层测试的速度和湍流强度风速的增加并没有显着影响氨浓度曲线，但是它们降低了隧道出口的氨浓度并增加了排放量。还观察到湍流强度与风速之间存在反比关系最高湍流强度位于氨释放表面附近风速最低的地方与风速和湍流强度成函数关系与两项类似研究的比较表明，风速和氨气排放的特征受到风洞几何尺寸的显着影响

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《Biosystems Engineering》 |2010年第4期|共13页
作者
Saha Chayan Kumer; Zhang Guoqiang; Ni Ji-Qin .;
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正文语种 eng
中图分类农业生物学;
关键词
ammonia: 7664-41-7; toxin; pollutant; emission; wind velocity; wind tunnel study; reference turbulence intensity; tunnel geometric dimension;

机译：氨水：7664-41-7;毒素;污染物;排放;风速;风洞研究;参考湍流强度;隧道几何尺寸;

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1. Airflow and concentration characterisation and ammonia mass transfer modelling in wind tunnel studies [J] . Saha Chayan Kumer, Zhang Guoqiang, Ni Ji-Qin . Biosystems Engineering . 2010,第4期

机译：风洞研究中的气流和浓度表征以及氨气传质模型
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Airflow and concentration characterisation and ammonia mass transfer modelling in wind tunnel studies

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