计算物理
計算物理
계산물리
CHINESE JOURNAL OF COMPUTATIONAL PHYSICS
2009年
6期
903-910
,共8页
血管%对流换热%有限元%分支结构%努赛尔数
血管%對流換熱%有限元%分支結構%努賽爾數
혈관%대류환열%유한원%분지결구%노새이수
vessel%convective heat transfer%finite element model%furcation%Nusselt number
在血管壁施加第三类边界条件是计算血液与组织间对流换热的一种近似计算方法.为分析其可行性,用有限元数值模拟方法计算血管分支结构中血液与组织的对流换热,得到不同流速和半径下分支血管内血液的截面平均Nu数沿管长的变化曲线.结果表明,血管树中分支血管的Nu数变化幅度不大,且趋于稳定值的速度很快.以相同边界条件下包含简单血管系统的舌体为例,分别用近似方法和完全耦合计算方法,进行血液流场和舌体温度场模拟.通过比较计算结果,得出两种方法得到的温度场分布趋势基本相同;用完全耦合计算方法得到的舌体温度略高于用近似方法得到的舌体温度,两者差值小于0.2℃.
在血管壁施加第三類邊界條件是計算血液與組織間對流換熱的一種近似計算方法.為分析其可行性,用有限元數值模擬方法計算血管分支結構中血液與組織的對流換熱,得到不同流速和半徑下分支血管內血液的截麵平均Nu數沿管長的變化麯線.結果錶明,血管樹中分支血管的Nu數變化幅度不大,且趨于穩定值的速度很快.以相同邊界條件下包含簡單血管繫統的舌體為例,分彆用近似方法和完全耦閤計算方法,進行血液流場和舌體溫度場模擬.通過比較計算結果,得齣兩種方法得到的溫度場分佈趨勢基本相同;用完全耦閤計算方法得到的舌體溫度略高于用近似方法得到的舌體溫度,兩者差值小于0.2℃.
재혈관벽시가제삼류변계조건시계산혈액여조직간대류환열적일충근사계산방법.위분석기가행성,용유한원수치모의방법계산혈관분지결구중혈액여조직적대류환열,득도불동류속화반경하분지혈관내혈액적절면평균Nu수연관장적변화곡선.결과표명,혈관수중분지혈관적Nu수변화폭도불대,차추우은정치적속도흔쾌.이상동변계조건하포함간단혈관계통적설체위례,분별용근사방법화완전우합계산방법,진행혈액류장화설체온도장모의.통과비교계산결과,득출량충방법득도적온도장분포추세기본상동;용완전우합계산방법득도적설체온도략고우용근사방법득도적설체온도,량자차치소우0.2℃.
Convective-type boundary conditions at interface of vessel walls are used in simulating convective heat transfer in blood vessels. To study feasibility of the method, convective heat transfer between blood and tissue in a simple furcated vessel system is computed with finite element analysis. Mean Nusselt number on cross-section along the vessel is obtained at various flow velocities or vessel radii. It shows that the mean Nueselt number in the branching vessel varies within a narrow range, and shows fast convergence rate. A tongue with a simple vascular tree is simulated as an example. Conjugated numerical method, and a approximate method are used to calculate 3-D velocity and temperature of the tongue. Distributions of temperature calculated are similar and quantitative difference between temperatures obtained by two methods is less than 0.2 ℃.
