甘蔗糖业2026,Vol.55Issue(3):109-117,9.DOI:10.3969/j.issn.1005-9695.2026.03.012
基于EP3D软件的糖厂P&ID高效协同设计与数据集成应用
Application of Efficient Collaborative Design and Data Integration for Sugar Factory P&ID Based on EP3D Software
摘要
Abstract
To address the problems in traditional AutoCAD-based Piping and Instrumentation Diagram(P&ID)design for sugar factories,such as non-standard symbol representation,separation of process data from graphics,difficulties in multi-disciplinary collaboration,and reliance on manual material take-off,this paper aims to explore an efficient collaborative design and data integration method based on EP3D software to achieve digital transformation of sugar factory P&ID design.Taking a newly built sugar factory in China with a daily sugarcane processing capacity of 10 000 tons as the engineering background,the domestic EP3D software-featuring a built-in industry-standard symbol library,structured data management,real-time collaborative design,and automatic report generation-was adopted to systematically implement standardized modeling mechanisms,a data-driven design process,multi-disciplinary online collaboration,and a design verification and output system.The results show that P&ID design for the sugar factory based on the EP3D software can shorten the design cycle by approximately 50%and reduce the design error rate by 70%compared with the traditional approach,upgrading the design mode from static drafting to dynamic data modeling.It is concluded that EP3D can effectively resolve key issues in sugar factory P&ID design,including standardization,collaboration,data consistency,and output efficiency,providing a reliable technical pathway and engineering reference for the digital and intelligent transformation of engineering design in the sugar industry.关键词
糖厂/管道及仪表流程图/协同设计/数据驱动/数字化交付Key words
Sugar factory/P&ID/Collaborative design/Data-driven/Digital delivery分类
轻工纺织引用本文复制引用
冯红伟,李进华,韦藤青,凌霄,刘健,李伟霄..基于EP3D软件的糖厂P&ID高效协同设计与数据集成应用[J].甘蔗糖业,2026,55(3):109-117,9.基金项目
海诚股份科技创新基金计划(HSJS2022YY04) (HSJS2022YY04)
中国轻工业南宁设计工程有限公司科研项目(RDY202310201) (RDY202310201)