基于油气管网模型的 SCADA 系统屏幕配置新方法

He Huang, Yafeng Li, Liang Ma, Bingqiang Mao, Lin Zhang, Jingli Yang, Haishan Wang, Yanguo Sun, Xiaochuan Zhao, Muhao Lv
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In order to improve the monitoring efficiency and reduce the operation risk, this study is devoted to exploring a new method of SCADA system screen configuration based on the oil and gas pipeline network model.PURPOSE: The purpose of this study is to develop an innovative SCADA system screen configuration method to present the operating status of the oil and gas pipeline network more intuitively and efficiently. The design based on the pipeline network model aims to enhance the operators' understanding of essential information, such as pipeline network topology, fluid flow, etc., so as to make monitoring and control more intelligent.METHODS: The study adopts a new method of SCADA system screen configuration based on the oil and gas pipeline network model. First, the topology, sensor data, and control nodes of the oil and gas pipeline network are comprehensively modelled. 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引用次数: 0

摘要

引言: 随着科学技术的不断进步,油气管网的监测与控制变得越来越关键,SCADA 系统作为一种广泛应用于工业控制的技术,发挥着关键作用。SCADA 系统的屏幕配置是其用户界面的核心部分,直接关系到操作人员对管网状态的掌握。为了提高监控效率,降低操作风险,本研究致力于探索一种基于油气管网模型的 SCADA 系统屏幕配置新方法。目的:本研究旨在开发一种创新的 SCADA 系统屏幕配置方法,以更直观、更高效地呈现油气管网的运行状态。方法:本研究采用了一种基于油气管网模型的 SCADA 系统屏幕配置新方法。首先,对油气管网的拓扑结构、传感器数据和控制节点进行全面建模。然后,通过人机交互的设计原理,将建模结果融入 SCADA 系统的屏幕配置中,实现信息的直观呈现。结果:经过实验验证,新方法在油气管网监控方面具有显著优势。操作人员可以通过 SCADA 系统的屏幕配置更快、更准确地识别管网的异常情况,提高了故障排除和处理的效率。可视化的界面设计使操作更加直观,减少了操作失误的可能性,从而提高了管网的安全性和可靠性。结论:基于油气管网模型的 SCADA 系统画面组态新方法在提高监控效率、降低操作风险方面取得了显著效果。通过更加直观、智能的界面设计,操作人员可以更加全面地了解管网的运行状况,为快速反应和决策提供了切实的支持。这种方法为油气管网监测领域引入了新思路,对提高系统的整体性能具有积极意义。今后的工作可以进一步优化界面设计,拓展适用场景。
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New Approach to SCADA System Screen Configuration Based on the Model of Oil and Gas Pipeline Network
INTRODUCTION: With the continuous progress of science and technology, the monitoring and control of oil and gas pipeline networks have become more and more critical; SCADA systems, as a kind of technology widely used in industrial control, play a key role. The screen configuration of the SCADA system is the core part of its user interface, which is directly related to the operator's mastery of the status of the pipeline network. In order to improve the monitoring efficiency and reduce the operation risk, this study is devoted to exploring a new method of SCADA system screen configuration based on the oil and gas pipeline network model.PURPOSE: The purpose of this study is to develop an innovative SCADA system screen configuration method to present the operating status of the oil and gas pipeline network more intuitively and efficiently. The design based on the pipeline network model aims to enhance the operators' understanding of essential information, such as pipeline network topology, fluid flow, etc., so as to make monitoring and control more intelligent.METHODS: The study adopts a new method of SCADA system screen configuration based on the oil and gas pipeline network model. First, the topology, sensor data, and control nodes of the oil and gas pipeline network are comprehensively modelled. Then, through the design principle of human-computer interaction, the modelling results are integrated into the screen configuration of the SCADA system to realize the intuitive presentation of information. At the same time, advanced visualization technology is introduced so that the operators can understand the real-time changes in the pipe network status more clearly.RESULTS: After experimental verification, the new method shows significant advantages in oil and gas pipeline network monitoring. The operators can recognize the abnormalities of the pipeline network more quickly and accurately through the SCADA system screen configuration, which improves the efficiency of troubleshooting and treatment. The visualized interface design makes the operation more intuitive and reduces the possibility of operating errors, thus improving the safety and reliability of the pipeline network.CONCLUSION: The new method of SCADA system screen configuration based on the oil and gas pipeline network model has achieved significant results in improving monitoring efficiency and reducing operational risks. Through a more intuitive and intelligent interface design, operators can have a more comprehensive understanding of the operating status of the pipeline network, which provides practical support for rapid response and decision-making. This approach introduces new ideas to the field of oil and gas pipeline network monitoring, which is of positive significance for improving the overall performance of the system. Future work can be carried out to optimize the interface design further and expand the applicable scenarios.
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