中华耳鼻咽喉头颈外科杂志
中華耳鼻嚥喉頭頸外科雜誌
중화이비인후두경외과잡지
CHINESE JOURNAL OF OTORHINOLARYNGOLOGY HEAD AND NECK SURGERY
2011年
11期
928-932
,共5页
熊观霞%黎建峰%雷文斌%周旭辉%詹杰民%许庚
熊觀霞%黎建峰%雷文斌%週旭輝%詹傑民%許庚
웅관하%려건봉%뢰문빈%주욱휘%첨걸민%허경
温度%呼吸力学%鼻腔%鼻窦%呼吸
溫度%呼吸力學%鼻腔%鼻竇%呼吸
온도%호흡역학%비강%비두%호흡
Temperature%Respiratory mechanics%Nasal cavity%Paranasal sinuses%Respiration
目的 采用数值模拟技术研究在不同外界温度下,健康成年人鼻腔鼻窦的气流流场特点.方法 根据健康成年人鼻腔鼻窦CT扫描,利用计算流体力学软件Fluent建立正常的鼻腔模型,模拟周期性呼吸下,外界温度在0℃、24℃、37℃时鼻腔的气流状况,计算并分析不同温度下鼻腔气流场参数的异同.结果 周期性呼吸下,吸气相加速区与减速区的鼻腔温度分布不完全对称,吸气加速区温度大于减速区,越靠近过渡点相同流量下加速区与减速区差异越大;呼气相鼻腔温度比较平稳;无论吸气和呼气相,各鼻窦温度分布基本保持一致.外界温度在0℃和24℃时,鼻腔的加温作用主要位于鼻腔前部;鼻腔吸气相的气流速度明显不同,但各鼻道的气流比例、流线差异不大;外界温度对呼气相鼻腔主要通道的气流运动影响很小.外界温度在0℃、24C、37C时,每个呼吸周期内鼻窦气流平均速度的变化都相近,但温差增大了鼻窦内气体的无规则流动.结论 外界温度影响吸气相鼻腔的温度和鼻腔主要通道的气流速度,温差增大了鼻窦内气体的无规则流动.
目的 採用數值模擬技術研究在不同外界溫度下,健康成年人鼻腔鼻竇的氣流流場特點.方法 根據健康成年人鼻腔鼻竇CT掃描,利用計算流體力學軟件Fluent建立正常的鼻腔模型,模擬週期性呼吸下,外界溫度在0℃、24℃、37℃時鼻腔的氣流狀況,計算併分析不同溫度下鼻腔氣流場參數的異同.結果 週期性呼吸下,吸氣相加速區與減速區的鼻腔溫度分佈不完全對稱,吸氣加速區溫度大于減速區,越靠近過渡點相同流量下加速區與減速區差異越大;呼氣相鼻腔溫度比較平穩;無論吸氣和呼氣相,各鼻竇溫度分佈基本保持一緻.外界溫度在0℃和24℃時,鼻腔的加溫作用主要位于鼻腔前部;鼻腔吸氣相的氣流速度明顯不同,但各鼻道的氣流比例、流線差異不大;外界溫度對呼氣相鼻腔主要通道的氣流運動影響很小.外界溫度在0℃、24C、37C時,每箇呼吸週期內鼻竇氣流平均速度的變化都相近,但溫差增大瞭鼻竇內氣體的無規則流動.結論 外界溫度影響吸氣相鼻腔的溫度和鼻腔主要通道的氣流速度,溫差增大瞭鼻竇內氣體的無規則流動.
목적 채용수치모의기술연구재불동외계온도하,건강성년인비강비두적기류류장특점.방법 근거건강성년인비강비두CT소묘,이용계산류체역학연건Fluent건립정상적비강모형,모의주기성호흡하,외계온도재0℃、24℃、37℃시비강적기류상황,계산병분석불동온도하비강기류장삼수적이동.결과 주기성호흡하,흡기상가속구여감속구적비강온도분포불완전대칭,흡기가속구온도대우감속구,월고근과도점상동류량하가속구여감속구차이월대;호기상비강온도비교평은;무론흡기화호기상,각비두온도분포기본보지일치.외계온도재0℃화24℃시,비강적가온작용주요위우비강전부;비강흡기상적기류속도명현불동,단각비도적기류비례、류선차이불대;외계온도대호기상비강주요통도적기류운동영향흔소.외계온도재0℃、24C、37C시,매개호흡주기내비두기류평균속도적변화도상근,단온차증대료비두내기체적무규칙류동.결론 외계온도영향흡기상비강적온도화비강주요통도적기류속도,온차증대료비두내기체적무규칙류동.
Objective To study the aerodynamics of the normal human nasal cavity under different ambient temperatures.Methods Based on CT scanning,a model of a healthy adult's nasal cavity was established using computational fluid dynamics software from Fluent.Airflow in this model was simulated and calculated at ambient temperatures of 0℃,24℃,and 37℃ during periodic breathing.Results Ambient temperature only had an impact on the temperature in the nasal cavity during the inspiratory phase,and the temperature distribution was not symmetrical in the inspiratory acceleration and deceleration phases.The ambient temperature significantly affected airflow speed in main nasal passages during the inspiratory process,but had little impact on flow status (proportion and streamline of airflow in different nasal passages).Temperature differences increased the irregular air movement within sinuses.The anterior nasal segment,including the area between the valve and the head of the middle turbinate,was the most effective part of the nasal airway in heating the ambient air.Conclusions Our findings describe the effects of ambient temperature on airflow parameters in the nasal cavity within a single respiratory cycle.This data is more comprehensively and accurately to determine the relationship between nasal cavity aerodynamics and physiological functions.
