摘要
针对天然气管道向长距离、高压力、多介质输送发展的趋势,以及传统人工运维效率低、安全风险高、成本控制难等痛点,系统梳理地理信息系统、数据采集与监控系统及数据驱动水力计算等核心自动化技术的原理架构与实施路径。从技术落地性、经济有效性与安全可靠性三维度量化评估应用效果,为管道智能化升级提供可落地的技术框架。
In response to the trend of natural gas pipelines developing towards long distances,high pressures,and multi-me⁃dium transportation,as well as the pain points of traditional manual operation and maintenance,such as low efficiency,high safety risks,and difficult cost control,this paper systematically reviews the principle architectures and implementation paths of core automation technologies including geographic information systems,data acquisition and monitoring systems,and data-driven hydraulic calculations.The application effects are quantitatively evaluated from three dimensions:technical fea⁃sibility,economic effectiveness,and safety reliability,providing a practical technical framework for the intelligent upgrade of pipelines.
作者
徐阳
丁昱
XU Yang;DING Yu(Yunnan Branch of China National Petroleum&Natural Gas Pipelines Group Co.,Ltd.,Kunming Yunnan 650000,China)
出处
《石油化工建设》
2025年第12期149-151,共3页
Petroleum and Chemical Construction
关键词
天然气管道
自动化技术
人工智能
多相流模拟
natural gas pipeline
automation technology
artificial intelligence
multiphase flow simulation
