摘要
当前核电项目存在数量多、进度紧、要求高等特点,传统的核电力学分析流程与工作模式,越来越难以满足工程的进度需求。为了实现更高效、更高质、更协同的设计研发与制造模式,提高核电项目中力学分析的工作效率、降低人因失误、强化协同设计能力以及加强数据管理应用,该文提出并研究建立一套核电力学分析集成系统,该系统以核电工程力学强度评估方法及分析过程为基础,以自动化过程为核心,以智能数据应用为驱动,以数字集成平台为依托,能够对上下游的结构化数据进行解析和传递,可完成设备、管道的一体化自动分析流程,并实现数据管理和关联统计等功能。该系统应用于核电项目的过程中,在保证设计安全和质量的同时,也将进一步推动核工程领域中力学分析环节的程序化、信息化、智能化发展。
At present,there are a large number of nuclear power projects,tight schedule,high requirements and other characteristics,the traditional nuclear power mechanics analysis process and work mode,it is more and more difficult to meet the schedule requirements of the project.In order to achieve a more efficient,high-quality and collaborative design,development and manufacturing mode,improve the work efficiency of mechanical analysis in nuclear power projects,reduce human errors,strengthen collaborative design capabilities and strengthen the application of data management.In this paper,a set of nuclear power mechanics analysis integrated system is proposed and established,which is based on the mechanical strength evaluation method and analysis process of nuclear power engineering,with the automation process as the core and the intelligent data application as the drive.Based on digital integration platform,it can parse and transmit the upstream and downstream structured data,complete the integrated automatic analysis process of equipment and pipeline,and realize the functions of data management and associated statistics.In the process of applying the system to nuclear power projects,it will not only ensure the safety and quality of the design,but also further promote the procedural,information and intelligent development of mechanical analysis in the field of nuclear engineering.
出处
《科技创新与应用》
2024年第9期1-4,共4页
Technology Innovation and Application
关键词
核电力学分析
集成系统
自动分析流程
智能数据
自动化
nuclear mechanics analysis
integrated system
automatic analysis flow
intelligent data
automation