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苏英锋, 孙秀珍, 刘迎曦, 于申, 王吉喆, 高飞. 鼻腔加温功能特征及其与气流场关系的研究[J]. 力学学报, 2012, (3): 607-613. DOI: 10.6052/0459-1879-2012-3-20120318
引用本文: 苏英锋, 孙秀珍, 刘迎曦, 于申, 王吉喆, 高飞. 鼻腔加温功能特征及其与气流场关系的研究[J]. 力学学报, 2012, (3): 607-613. DOI: 10.6052/0459-1879-2012-3-20120318
Su Yingfeng, Sun Xiuzhen, Liu Yingxi, Yu Shen, Wang Jizhe, Gao Fei. NUMERICAL SIMULATION OF INTRANASAL TEMPERATURE FIELD AND ITS RELATIONSHIP WITH THE AIRFLOW DURING INSPIRATION[J]. Chinese Journal of Theoretical and Applied Mechanics, 2012, (3): 607-613. DOI: 10.6052/0459-1879-2012-3-20120318
Citation: Su Yingfeng, Sun Xiuzhen, Liu Yingxi, Yu Shen, Wang Jizhe, Gao Fei. NUMERICAL SIMULATION OF INTRANASAL TEMPERATURE FIELD AND ITS RELATIONSHIP WITH THE AIRFLOW DURING INSPIRATION[J]. Chinese Journal of Theoretical and Applied Mechanics, 2012, (3): 607-613. DOI: 10.6052/0459-1879-2012-3-20120318

鼻腔加温功能特征及其与气流场关系的研究

NUMERICAL SIMULATION OF INTRANASAL TEMPERATURE FIELD AND ITS RELATIONSHIP WITH THE AIRFLOW DURING INSPIRATION

  • 摘要: 为研究鼻腔加温功能特征及其与气流场之间的关系, 选用1例健康国人的鼻腔进行CT扫描. 据CT数据对鼻腔气道进行表面三维重建, 运用计算流体动力学方法分析通气量为12L/min时吸气相0.15s, 0.45s, 0.75s的鼻腔气流场与温度场. 结果显示吸气相0.15s, 0.45s, 0.75s鼻腔气流场主要表现为双侧气流量分布不对称, 其中气流主要流经左侧; 双侧均为总鼻道中、下部气流量较多, 嗅裂、中鼻道和下鼻道气流量少. 吸气相0.15s, 0.45s, 0.75s温度场均表现为温度自鼻腔前端至鼻咽部逐渐增高, 其中温度主要上升区域为鼻内孔-下鼻甲前端-中鼻甲前端对应气道, 且在吸气速度和流量增大后, 这一主要加温区域无明显向后延长征象; 双侧鼻腔及单侧鼻腔不同部位气道气流分布差别较大, 但双侧温度场基本对称, 单侧鼻腔不同气道部位温度差值亦较小, 幅度均小于1℃.

     

    Abstract: To explore the characteristic of warming function of nasal cavity and its relationship with the airflow, a three dimensional model throughout human nasal cavity is established based on CT scan data. Then the airflow fields and temperature fields at time points of 0.15s, 0.45s and 0.75s during inspiration at the ventilation volume of 12L/min are simulated using computational fluid dynamics (CFD) method. The detailed results of airflow field and temperature field at the above three time points during inspiration show that the airflow in both sides is asymmetry, and the air passes mainly through the left side. The volumes of the airflow in the middle and ventral medial regions are larger than those in olfactory split, middle and inferior meatuses in both sides. As to the temperature field, the temperature increases gradually from anterior part of nasal cavity till nasopharynx. The main temperature-increase happens characteristically within the anterior nasal segment including the airway among ostium internum and heads of inferior and middle turbinates at the above three time points, while temperature increases slightly after the head of middle turbinate. The length of the main temperature-increase segment of airway does not lengthen obviously as to the increase of the volume of airflow at the above three time points. Not the same as the airflow distribution difference between both nasal cavity or different parts in either side, the temperature fields in both sides are almost symmetry, and the temperature difference between both sides or different parts in either side is less than 1℃.

     

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