核科学与工程
覈科學與工程
핵과학여공정
CHINESE JOURNAL OF NUCLEAR SCIENCE AND ENGINEERING
2014年
2期
271-277
,共7页
竖直通道%自然对流%直接模拟
豎直通道%自然對流%直接模擬
수직통도%자연대류%직접모의
vertical channel%natural convection%direct numerical simulation
湍流直接数值模拟形成的数据库可以为开发功能更完善的湍流模型提供数据支撑。本文采用直接数值模拟方法研究了在不同普朗特数(Pr)下竖直通道中湍流自然对流的平均速度、平均温度、速度和温度脉动强度、雷诺应力、湍流热通量和湍流结构的分布特性。研究结果表明:(1)湍流自然对流的平均速度和平均温度分布关于通道中心线反对称,最大速度和温度梯度出现在壁面附近区域,Pr 数增加,最大速度值减小,而壁面处温度梯度增加;(2)湍流自然对流的速度脉动强度、温度脉动强度、雷诺应力和湍流热通量随Pr数增加而降低,热通量在高温壁面侧会出现负值;(3)湍流自然对流的脉动速度和温度分布没有特别规则的结构,但主流脉动速度与壁面呈一定夹角。
湍流直接數值模擬形成的數據庫可以為開髮功能更完善的湍流模型提供數據支撐。本文採用直接數值模擬方法研究瞭在不同普朗特數(Pr)下豎直通道中湍流自然對流的平均速度、平均溫度、速度和溫度脈動彊度、雷諾應力、湍流熱通量和湍流結構的分佈特性。研究結果錶明:(1)湍流自然對流的平均速度和平均溫度分佈關于通道中心線反對稱,最大速度和溫度梯度齣現在壁麵附近區域,Pr 數增加,最大速度值減小,而壁麵處溫度梯度增加;(2)湍流自然對流的速度脈動彊度、溫度脈動彊度、雷諾應力和湍流熱通量隨Pr數增加而降低,熱通量在高溫壁麵側會齣現負值;(3)湍流自然對流的脈動速度和溫度分佈沒有特彆規則的結構,但主流脈動速度與壁麵呈一定夾角。
단류직접수치모의형성적수거고가이위개발공능경완선적단류모형제공수거지탱。본문채용직접수치모의방법연구료재불동보랑특수(Pr)하수직통도중단류자연대류적평균속도、평균온도、속도화온도맥동강도、뢰낙응력、단류열통량화단류결구적분포특성。연구결과표명:(1)단류자연대류적평균속도화평균온도분포관우통도중심선반대칭,최대속도화온도제도출현재벽면부근구역,Pr 수증가,최대속도치감소,이벽면처온도제도증가;(2)단류자연대류적속도맥동강도、온도맥동강도、뢰낙응력화단류열통량수Pr수증가이강저,열통량재고온벽면측회출현부치;(3)단류자연대류적맥동속도화온도분포몰유특별규칙적결구,단주류맥동속도여벽면정일정협각。
The database of turbulent flow by using direct numerical simulation can support the development of more powerful turbulent models.In the paper, the characteristics of averaged velocity,averaged temperature,intensities of fluctuating velocity and temperature, Reynolds stress, turbulent heat fluxes and turbulent structures of natural convection for different Prandtl numbers are studied by using direct numerical simulation.The results show that:(1)The profiles of averaged velocity and averaged temperature of turbulent natural convection are anti-symmetrical to the center-line of the vertical channel,and the locations of the maximum value of averaged velocity and temperature are near the heated wall.With the Prandtl number, the velocity decrease but the temperature gradient increase near the wall.(2 )The intensities of fluctuating velocity and temperature,Reynolds stress,turbulent heat fluxes are all decrease with the increase of Prandtl number,moreover,turbulent heat fluxes are negative near the heated wall.(3 ) There are no regular structures for fluctuating velocity and temperature fields in turbulent natural convection, but the turbulent structures of mainstream velocity keep at constant angle to the wall.