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船舶CFD模拟不确定度分析与评估新方法研究 被引量:13

A new method on uncertainty analysis and assessment in ship CFD
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摘要 比拟测量不确定度,视CFD模拟结果为随机变量,阐述了CFD模拟不确定度的定义、来源、分类和表示形式。基于正交试验设计和方差分析方法,提出了CFD不确定度分析中验证的内涵及实施流程;基于统计推断理论,提出了CFD不确定度评估中确认的标准及判断程序。应用Fluent软件及文中所建方法,针对阻力系数和伴流分数进行CFD模拟不确定度分析评估的实例计算,给出了对模拟结果有重要影响的计算因子和交互作用以及各类不确定度分量的大小,并指出就目前采用的CFD模拟技术而言,尽管其结果的分散性或不确定度数倍于物理试验,但其近似性或可信度已可接受。 The CFD uncertainty definition,source,classification and expression were elaborated,where the CFD simulation results were regarded as a random variable in the light of the uncertainty in measurements.Basing on the orthogonal experiment design and variance analysis methods,the concepts and procedures of CFD varification were developed.And based on statistic inference theory,the criterions and judgement pro-cess for CFD validation were also established.Using the commercial soft Fluent and the present methods,uncertainty analysis and assessment in CFD simulation on the resistance coeffcient and nominal wake fraction were illustrated,and significant calculation factors and their interaction which have strong effects on calculated results and all uncertainty components were obtained.The study shows that,for the state of the CFD art,the results’ fidelity or confidence could be accepted in spite of the discrety or uncertainty multiple times than the experiment.
作者 沈泓萃 姚震球 吴宝山 张楠 杨仁友
机构地区 中国船舶科学研究中心 江苏科技大学
出处 《船舶力学》 EI 北大核心 2010年第10期1071-1083,共13页 Journal of Ship Mechanics
关键词 计算流体力学 不确定度 验证与确认 computational fluid dynamics uncertainty varification and validation
分类号 U661.7 [交通运输工程—船舶及航道工程]
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参考文献17

  • 1蔡大明,李定尊.船舶水动力性能试验研究不确定度[M].无锡:中国船舶科学研究中心,2004.
  • 2Guide for verification and validation in computational fluid dynamics simulation[K]. AIAA, G-077-1998.
  • 3Roache P J. Verification and validation in computational science and engineering[M]. Albuqureque, New Mexico: Hermosa Publishers, 1998.
  • 4Coleman H W, Stern F. Uncertainties in CFD code validation[J]. ASME J Fluids Eng., 1997, 119: 795-803.
  • 5Uncertainty analysis in CFD, uncertainty assessment methodology[K]. ITTC Quality Manual 4.9-04-01-02, 1999.
  • 6Uncertainty analysis in CFD, guidelines for RANS codes[K]. ITTC Quality Manual 4.9-04-01-02, 1999.
  • 7Uncertainty analysis in CFD, verification and validation methodology and procedure[K]. ITTC Quality Manual 7.5-03-01- 01, 2002.
  • 8Simonsen C D, Stern F. Verification and validation of RANS maneuvering simulation of ESSO Osaka: effects of drift and rudder angle forces and moments[J]. Computers and Fluids, 2003a, 32: 1325-1356.
  • 9Van S H, Kim J, Park I R, Kim W J. Calculation of turbulence flows around a submarine for the prediction of hydrodynamic performance[C]//Proc. $th Int. Cont. Numerical Ship Hydrodynamics. Busan, Korea, 2003.
  • 10Campana E F, Peri D, Tahara Y, Stern F. Comparison and validation of CFD based local optimization methods of surface combatant bow[C]//25th Symposium on Naval Hydrodynamics. St. John's Newfoundland and Labrador, Canada, 8-3 August, 2004.

二级参考文献47

  • 1朱德祥,张志荣,吴乘胜,赵峰.船舶CFD不确定度分析及ITTC临时规程的初步应用[J].水动力学研究与进展(A辑),2007,22(3):363-370. 被引量:43
  • 2Moustafa Abdel-Maksoud,Karsten Rieck. Unsteady numerical investigation of the turbulent flow around the container ship model(KCS) with and without propeller[A]. A Workshop on Numerical Ship Hydrodynamics Proceedings[C],Gothenburg,2000.
  • 3Chou S K, Chau S W, Chen W C, Hsin J Y. Computations of ship flow around commercial hull forms with free surface or propeller effect[A]. A Workshop on Numerical Ship Hydrodynamics Proceedings[C], Gothenburg, 2000.
  • 4Tahara Y, Ando J, Comparison of CFD and EFD for KCS container ship in without/with-propeller conditions[A].A Workshop on Numerical Ship Hydrodynamics Proceedings[C], Gothenburg, 2000.
  • 5Whitfield D L, Jameson A. Euler equation simulation of propeller-wing interaction in transonic flow[J]. Journal of Aircraft,1984,21(11).
  • 6Pankajakshan R, Arabshahi A, Whiffield D L. Turbofan flowfield simulation using Euler equations with body forces[A].AIAA/SAE/ASME/ASEE 29th Joint Propulsion Conference and Exhibit[C], Monterey, 1993.
  • 7McDonald H, Whitfield D. Self-propelled maneuvering underwater vehicles[A]. Proceedings of 21st Symposium on Naval Hydrodynamics[C], Trondheim, Norway, 1996.
  • 8Arabshahi A, Beddhu M, et al. A perspective on naval hydrodynamic flow simulations[A]. Proceedings of 22st Symposium on Naval Hydrodynamics[C], Washington,D.C.,1998.
  • 9Allison Nicole Cash. Computational studies of fully submerged bodies, propulsors, and body/propulsor interactions[D].M.S.Thesis,Mississippi State University,2001.
  • 10Streckwall H, Tigges K. Numerical propulsion for podded propeller driven ships[A]. The 15th International Conference on Hydrodynamics in Ship Design Safety and Operation[C], Gdansk,Poland,2003.

共引文献141

同被引文献56

引证文献13

二级引证文献51

船舶力学
2010年 第10期

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