Simulation of nucleate boiling under ANSYS-FLUENT code by using RPI model coupling with artificial n

来源 :Nuclear Science and Techniques | 被引量 : 0次 | 上传用户:haru
下载到本地 , 更方便阅读
声明 : 本文档内容版权归属内容提供方 , 如果您对本文有版权争议 , 可与客服联系进行内容授权或下架
论文部分内容阅读
The present study is to develop a new user-defined function using artificial neural networks intent Computational Fluid Dynamics(CFD)simulation for the prediction of water-vapor multiphase flows through fuel assemblies of nuclear reactor.Indeed,the provision of accurate material data especially for water and steam over a wider range of temperatures and pressures is an essential requirement for conducting CFD simulations in nuclear engineering thermal hydraulics.Contrary to the commercial CFD solver ANSYS-CFX,where the industrial standard IAPWS-IF97(International Association for the Properties of Water and Steam-Industrial Formulation 1997)is implemented in the ANSYS-CFX internal material database,the solver ANSYS-FLUENT provides only the possibility to use equation of state(EOS),like ideal gas law,Redlich-Kwong EOS and piecewise polynomial interpolations.For that purpose,new approach is used to implement the thermophysical properties of water and steam for subcooled water in CFD solver ANSYS-FLUENT.The technique is based on artificial neural networks of multi-layer type to accurately predict 10 thermodynamic and transport properties of the density,specific heat,dynamic viscosity,thermal conductivity and speed of sound on saturated liquid and saturated vapor.Temperature is used as single input parameter,the maximum absolute error predicted by the artificial neural networks ANNs,was around 3%.Thus,the numerical investigation under CFD solver ANSYSFLUENT becomes competitive with other CFD codes of which ANSYS-CFX in this area.In fact,the coupling of the Rensselaer Polytechnical Institute(RPI)wall boiling model and the developed Neural-UDF(User Defined Function)was found to be useful in predicting the vapor volume fraction in subcooled boiling flow. The present study is to develop a new user-defined function using artificial neural networks intent Computational Fluid Dynamics (CFD) simulation for the prediction of water-vapor multiphase flows through fuel assemblies of nuclear reactor. Indeed, the provision of accurate material data especially for water and steam over a wider range of temperatures and pressures is an essential requirement for conducting CFD simulations in nuclear engineering thermal hydraulics. Contrary to the commercial CFD solver ANSYS-CFX, where the industrial standard IAPWS-IF97 (International Association for the Properties of Water and Steam-Industrial Formulation 1997) is implemented in the ANSYS-CFX internal material database, the solver ANSYS-FLUENT provides only the possibility to use equation of state (EOS), like ideal gas law, Redlich-Kwong EOS and piecewise polynomial interpolations. For that purpose, new approach is used to implement the thermophysical properties of water and steam for subcooled water in CFD solver ANSYS-FLUENT. The technique is based on artificial neural networks of multi-layer type to accurately predict 10 thermodynamic and transport properties of the density, specific heat, dynamic viscosity, thermal conductivity and speed of sound on saturated liquid and saturated vapor. used as single input parameter, the maximum absolute error predicted by the artificial neural networks ANNs, was around 3%. Thus, the numerical investigation under CFD solver ANSYSFLUENT becomes competitive with other CFD codes of which ANSYS-CFX in this area. In fact, the coupling of the Rensselaer Polytechnical Institute (RPI) wall boiling model and the developed Neural-UDF (User Defined Function) was found to be useful in predicting the vapor volume fraction in subcooled boiling flow.
其他文献
因疲劳驾驶造成的交通事故日渐增多,预防疲劳驾驶成为交通管理部门的管理重点,疲劳驾驶预警装置的研究有着重要的意义与实际应用价值。本文分析了疲劳驾驶实时监测系统应该具有
本文基于TI公司的DSP(Digital Signal Processor)研制开发了一套虚拟装配数据手套控制器,研究了D/A端口控制比例阀以调节气动人工肌肉的压力大小,利用DSP的A/D端口采集传感器
本文主要探讨了电磁波通道式MWD传输装置信道计算的两种方法,即非对称电偶极模型法和等效线传输法,并给出了相应的计算实例。最后介绍了信息传输装置的研究进展,以及相关的试验
随着计算机技术的迅猛发展以及国际标准IEC61131-3的制定,一项具有开放式体系结构的新兴技术一软PLC技术迅速发展起来。近年来,嵌入式系统以其特有的优势在工业控制领域中得到
针对新立油田扶杨油层低渗透、成岩作用强、裂缝发育的特点,追踪当前低渗透裂缝性油藏表征及建模研究新进展,综合应用野外相似露头、岩心、钻井、测井、地震及生产动态等资料,在
拱坝的历史最早可追溯到古罗马人利用拱的原理筑坝,但其真正的有所发展则是在“一战”之后,且大多数拱坝均由美国修建,坝型较为单一,主要为重力型拱坝。我国的拱坝建设起步晚、发
随着互联网技术的不断发展,基于网络的机器人远程控制日益受到了人们的重视。机器人的远程控制可以使操作人员远离具有危险性的操作环境,避免人身伤害,可应用在星际考察、水下作
自20世纪80年代末以来,纳米技术在信息、材料、生物、微电子和微制造方面显示出越来越重要的应用前景,已成为世界关注的重要科技前沿之一。随着纳米科学技术的发展,设计和构
不同的磁性地质体都会产生与其相对应的磁场分布于整个空间,通过对其磁场的空间分布的研究就可以获得与该磁性体的埋深、磁化方向及磁性体界面等有关特征参数。然而,在实际测
高校思想政治教育实践育人的核心内容是大学生参加各种社会实践活动,在实践中亲身体验,并把体验和感受积极地外化为实际行动,投身于社会发展和经济建设的教育模式.为保证实践