锚碇大体积混凝土智能通水温控方法与系统  被引量：5

作　　者：安瑞楠 林鹏[1] 陈道想 安邦 高阳阳 AN Ruinan;LIN Peng;CHEN Daoxiang;AN Bang;GAO Yangyang(Department of Hydraulic Engineering,Tsinghua University,Beijing 100084,China;Road&Bridge International Co.,Ltd.,Beijing 100027,China;Rocket Force Academy,Beijing 100011,China;China Three Gorges Construction Engineering Corporation Co.,Ltd.,Chengdu 610095,China)

机构地区：[1]清华大学水利水电工程系,北京100084 [2]中交路桥建设有限公司,北京100027 [3]火箭军研究院,北京100011 [4]中国三峡建工(集团)有限公司,成都610095

出　　处：《清华大学学报（自然科学版）》2024年第4期601-611,共11页Journal of Tsinghua University(Science and Technology)

基　　金：中交路桥建设有限公司资助项目(LJLJHN-PJ2020005219-062622141);中国三峡建工(集团)有限公司技术服务/咨询项目(WDD/0578);中国水电赞比亚下凯富峡水电站资助项目(SH-KGL-SUB-2021003)。

摘　　要：大型桥梁锚碇的锚块部分属于典型大体积混凝土结构,施工期面临开裂风险,开展适应性智能通水温控方法与系统研究对混凝土温控防裂及提高混凝土质量具有重要意义。该文提出了锚碇真实温度场及应力计算、温流耦合控制算法,以及基于“端-边-云”控制模型的智能温度控制策略;研发了适应锚碇的智能通水温控系统装备和平台,包括供水、换向、控制和热交换系统,以及基于微信移动、Web客户端的多端软件平台,实现了混凝土通水温控的远程实时在线感知、真实分析、反馈控制和诊断预警。研究成果应用于龙门大桥西锚碇施工建设的全过程,节约了人力和用水,且未发现温度裂缝,成果可供同类工程温控防裂设计和施工参考。[Objective]Anchors are typical mass concrete structures found in large bridges,characterized by large structural sizes,complex boundary conditions with irregular shapes,low reinforcement ratios,high crack resistance requirements,and challenges in temperature control and crack prevention.The development of an adaptive,intelligent cooling control method and system is crucial for crack prevention and improving concrete pouring quality.[Methods]This paper proposes an intelligent cooling control method for bridge anchorage,including:(1)The basic control principles of heat balance of supply and use,accurate control,and online warning.(2)A fundamental intelligent control strategy involving real thermal field simulation and a temperature-flow coupling control algorithm.The combined influence of temperature and flow is considered when predicting the cooling system parameters.This study uses a hybrid approach involving a long short-term memory neural network(LSTM)and proportional integral derivative(PID)control algorithms to predict the future water flow rate based on the current concrete and cooling system state parameters,facilitating the temperature-to-flow mapping.(3)A“multiple terminal-edge computing-cloud storage”control model is implemented,which incorporates edge computing within the control cabinet,providing localized endpoint services to improve data transmission performance,ensure real-time processing,and reduce latency.Cloud computing uses machine learning to provide instructions for adjusting temperature and flow rates based on the deviations between the actual and target temperature control curves.Furthermore,fault recognition and rapid diagnosis functions are also implemented.Intelligent cooling control equipments and code platforms are developed for realizing online perception,real analysis,feedback control,remote diagnostics,and early warning systems for the cooling process.The system comprises water supply,reversing,control and heat exchange subsystems,and a multiterminal software platform based on We

关 键 词：锚碇大体积混凝土 温控防裂 智能通水 温控策略 真实温度场 

分 类 号：TV52[水利工程—水利水电工程]