摘要
为解决特高压换流站电气安装工作量大、难度高等问题,设计了基于BIM技术的特高压换流站电气安装方法。通过电力管线BIM模型创建,对安装中的管线进行精准排布,保证特高压换流站电气安装效果;结合BIM技术和遗传算法进行安装资源均衡优化,并选取合适的适应度函数和遗传操作优化电气安装进度,实现更好的特高压换流站电气安装进度控制。经实验验证:其能解决特高压换流站电气安装中存在的各种问题,并且实时掌握安装进度,对各个阶段的安装成本进行管控。
In order to solve the problems of heavy workload and high difficulty in electrical installation of UHV converter station,an electrical installation method based on BIM Technology was designed.The BIM model of power pipeline was created to accurately arrange the pipelines in installation,so as to ensure the electrical installation effect of UHV converter station.Combined with BIM Technology and genetic algorithm,the installation resource balance optimization was carried out,and the appropriate fitness function and genetic operation were selected to optimize the electrical installation progress,so as to achieve better electrical installation progress control of UHV converter station.The experimental results showed that this method could solve various problems existing in the electrical installation of UHV converter station,master the installation progress in real time,and control the installation cost of each stage.
作者
李天佼
陈楠
王万平
LI Tianjiao;CHEN Nan;WANG Wanping(UHV Construction Branch of State Grid Corporation of China,Beijing 100052,China;Shanghai Power Transmission and Transformation Engineering Co.,Ltd.,Shanghai 201101,China;Shanghai Architectural Design and Research Institute Co.,Ltd.,Shanghai 200041,China)
出处
《粘接》
CAS
2023年第7期179-183,共5页
Adhesion
关键词
BIM技术
特高压换流站
电气安装
遗传算法
4D模型
适应度函数
BIM technology
UHV converter station
electrical installation
genetic galgorithm
4D model
fitness function
