电脑知识与技术
電腦知識與技術
전뇌지식여기술
COMPUTER KNOWLEDGE AND TECHNOLOGY
2014年
13期
3104-3105,3116
,共3页
尹金%胡贤德%白燕奇%孟翠翠
尹金%鬍賢德%白燕奇%孟翠翠
윤금%호현덕%백연기%맹취취
CFD%液体表面追踪%非线性偏微分方程%数值解
CFD%液體錶麵追蹤%非線性偏微分方程%數值解
CFD%액체표면추종%비선성편미분방정%수치해
CFD%water-surface-tracking%nonlinear partial differential equation%numerical solution
CFD(计算流体力学)自从诞生以来;一直致力于各种自然现象的计算机模拟工作,如烟雾、火焰、水流、爆炸等现象;它追溯自然现象的物理本质,借助自然现象的物理描述(将自然现象抽象成物理方程)结合现代计算机的快速计算能力,计算物理描述的属性值及其变化,从而实现视觉效果的模拟。模拟的步骤可以概括为:根据力学理论建立计算模型,即为流体力学的运动方程,一般是较为复杂的非线性偏微分方程,若想要全面描述流体的运动过程,还必须考虑能量守恒、连续性方程等;针对不同类型的非线性偏微分方程寻求最恰当的数值解方法;使用计算机编制求解的算法程序进行计算求解;通过计算机上的工具实现自然现象的视觉呈现;运用力学理论知识对模拟结果进行分析和解释,最终得出科学结论。
CFD(計算流體力學)自從誕生以來;一直緻力于各種自然現象的計算機模擬工作,如煙霧、火燄、水流、爆炸等現象;它追溯自然現象的物理本質,藉助自然現象的物理描述(將自然現象抽象成物理方程)結閤現代計算機的快速計算能力,計算物理描述的屬性值及其變化,從而實現視覺效果的模擬。模擬的步驟可以概括為:根據力學理論建立計算模型,即為流體力學的運動方程,一般是較為複雜的非線性偏微分方程,若想要全麵描述流體的運動過程,還必鬚攷慮能量守恆、連續性方程等;針對不同類型的非線性偏微分方程尋求最恰噹的數值解方法;使用計算機編製求解的算法程序進行計算求解;通過計算機上的工具實現自然現象的視覺呈現;運用力學理論知識對模擬結果進行分析和解釋,最終得齣科學結論。
CFD(계산류체역학)자종탄생이래;일직치력우각충자연현상적계산궤모의공작,여연무、화염、수류、폭작등현상;타추소자연현상적물리본질,차조자연현상적물리묘술(장자연현상추상성물리방정)결합현대계산궤적쾌속계산능력,계산물리묘술적속성치급기변화,종이실현시각효과적모의。모의적보취가이개괄위:근거역학이론건립계산모형,즉위류체역학적운동방정,일반시교위복잡적비선성편미분방정,약상요전면묘술류체적운동과정,환필수고필능량수항、련속성방정등;침대불동류형적비선성편미분방정심구최흡당적수치해방법;사용계산궤편제구해적산법정서진행계산구해;통과계산궤상적공구실현자연현상적시각정현;운용역학이론지식대모의결과진행분석화해석,최종득출과학결론。
Since its naissance , CFD(Computational Fluid Dynamics)has been working to simulate various natural phenomena by computer, such as smoke, fire, water, explosion phenomenon;It traces the physical essence of natural phenomenon, with the aid of the physical description (natural phenomenon abstract into physical equation) combined with fast computing power of modern computer, calculate the attribute value and its changes, so as to realize the simulation of visual effects. The steps can be summarized as : Set up the calculation model according to the theory of mechanics; which are movement of fluid mechanics equations, they are generally complex nonlinear partial differential equations, to fully describe the process of the fluid movement must also consider the conservation of energy, continuity equation, etc; In view of the different types of numerical solution of nonlinear partial differential equation for the most appropriate method;Using computer program solving algorithm for the solu-tion;Through computer tools to realize the visual presentation of natural phenomenon;Using the mechanics theory knowledge for analysis and interpretation of the simulation results;Final draw scientific conclusions.
