摘要
遵循新工科建设对人才培养的要求,顺应国家智能制造规划,发挥冶金行业院校特色,开发了加热炉智能燃烧控制虚拟仿真平台。该平台基于多年在加热炉领域工程研究成果,采用工厂实际数据,复现加热炉智能生产的全过程。该平台含有6大类实训项目,覆盖从工艺认知到生产过程控制再到系统优化的各个阶段。近年来在自动化、冶金和热能等专业的教学实践表明,该平台具有现场模拟的真实性、平台构建的完整性、开发手段的先进性和学科知识的交叉性等特点,在很大程度上培养了学生解决复杂工程问题的能力。
In order to comply with the requirements of New Engineering education construction for talent cultivation,the national intelligent manufacturing plan,and give full play to the characteristics of metallurgical industry colleges,a virtual simulation platform for intelligent combustion control of reheating furnace is developed.Based on the actual engineering research results of reheating furnace over the years,the platform adopts the actual data of the factory to reproduce the whole process of reheating furnace intelligent production.This platform designs six categories of practical training projects,covering each stage from process cognition to production process control and system optimization.In recent years,teaching practice in majors such as automation,metallurgy and thermal engineering indicates that the virtual simulation platform possesses features about authenticity of on-site simulation,integrity of the platform construction,advancement of development methods and intersectionality of subject knowledge.It has greatly cultivated students’ability to solve complex engineering problems.
作者
蔺凤琴
杨旭
李擎
崔家瑞
陈相
李希胜
LIN Fengqin;YANG Xu;LI Qing;CUI Jiarui;CHEN Xiang;LI Xisheng(School of Automation and Electrical Engineering,University of Science and Technology Beijing,Beijing 100083,China)
出处
《实验室研究与探索》
CAS
北大核心
2023年第3期108-113,156,共7页
Research and Exploration In Laboratory
基金
教育部第二批新工科研究与实践项目(E-ZDH20201602)
教育部自动化类专业教学指导委员会专业教育教学改革研究课题(202104,202149)
北京科技大学第三批课程思政示范课程建设项目(KC2021SZ07)
北京科技大学第三批精品在线开放课程建设项目(KC2021ZXKF05,KC2021ZXKF07)。
关键词
新工科
智能制造
加热炉
智能燃烧
虚拟仿真
emerging engineering education
intelligent manufacture
reheating furnace
intelligent combustion
virtual simulation收稿日
