摘要
Abstract
In response to issues such as insufficient intelligent application,low integration of multi-source data,and weak dynamic adaptability of prevention and control measures in underground cavern construction,the authors systematically explore risk identification and prevention and control strategies.Taking a large domestic groundwater-sealed oil storage cavern project as an example,risk identification is conducted from multiple dimensions including materials and equipment,construction environment,technical operations,and organizational management,with corresponding prevention and control measures proposed.By introducing advanced geological prediction and multi-source monitoring technologies,real-time perception of geology-technology coupled risks is achieved;an innovative"Intelligent Cavern"system is developed to enable dynamic optimization of blasting operations and ventilation management;and a six-in-one collaborative management model involving the"owner,third-party management,supervision,EPC contractor,construction party,and inspection agency"is established.This system effectively enhances the dynamic adaptability and intelligent level of risk prevention and control in underground storage cavern construction,providing a referential systematic solution for the safety management of similar underground energy projects.关键词
地下水封油库/施工风险/动态防控体系/风险识别/多源监测技术Key words
groundwater-sealed oil storage cavern/construction risks/dynamic prevention and control system/risk identification/multi-source monitoring technology分类
建筑与水利
