设施管理人员通过BIM中的传感器和数据智能化降低天然气管道风险的方法

IF 2.2 Q3 MANAGEMENT Journal of Facilities Management Pub Date : 2023-09-13 DOI:10.1108/jfm-02-2023-0021
Omid Alijani Mamaghani, Mohammad Zolfaghari
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引用次数: 0

摘要

输气管道由于各种大气环境、管道金属表面腐蚀等外界因素,经常存在气体泄漏或火灾的危险。本研究旨在通过定期监测管道性能,控制情况和预防灾害,减少与天然气输送相关的人员和财务风险。设施管理人员可以通过将传感器信息集成到建筑信息建模(BIM) 3D模型中,实时监控天然气输送线路的状态。该模型使用Monitoring Panel插件,以c#编程语言编写,并通过Navisworks软件操作,提供有关管道安全和性能的最新信息。该方法通过收集BIM上的项目信息,并安装关键传感器,使设施管理人员能够实时观察天然气管道的安全状态。如果传感器识别出任何气体泄漏或事故的风险,BIM模型可以快速显示事件的位置,使设施管理人员能够做出最佳决策,以减少财务和生命风险。这种智能输气管道方式改变了传统的风险管理和检查方法,最大限度地降低了环境中爆炸和气体泄漏的风险。独创性/价值本研究通过将传感器数据集成到BIM模型中进行实时监控,并为设施管理人员提供最新的安全信息,从而使其与相关工作不同。通过利用智能天然气输送管道,该系统能够快速识别和定位潜在危险,降低与天然气输送相关的财务和人员风险。
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An approach for facilities manager to reducing risks in gas pipelines through sensors and data intelligentization in BIM
Purpose Gas transmission pipelines are at constant risk of gas leakage or fire due to various atmospheric environments, corrosion on pipe metal surfaces and other external factors. This study aims to reduce the human and financial risks associated with gas transmission by regularly monitoring pipeline performance, controlling situations and preventing disasters. Design/methodology/approach Facility managers can monitor the status of gas transmission lines in real-time by integrating sensor information into a building information modeling (BIM) 3D model. Using the Monitoring Panel plugin, coded in C# programming language and operated through Navisworks software, the model provides up-to-date information on pipeline safety and performance. Findings By collecting project information on the BIM and installing critical sensors, this approach allows facility manager to observe the real-time safety status of gas pipelines. If any risks of gas leakage or accidents are identified by the sensors, the BIM model quickly shows the location of the incident, enabling facility managers to make the best decisions to reduce financial and life risks. This intelligent gas transmission pipeline approach changes traditional risk management and inspection methods, minimizing the risk of explosion and gas leakage in the environment. Originality/value This research distinguishes itself from related work by integrating sensor data into a BIM model for real-time monitoring and providing facility managers with up-to-date safety information. By leveraging intelligent gas transmission pipelines, the system enables quick identification and location of potential hazards, reducing financial and human risks associated with gas transmission.
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来源期刊
CiteScore
4.30
自引率
15.80%
发文量
56
期刊介绍: Journal of Facilities Management is a strategic level journal for Heads of Facilities and Corporate Real Estate. Guided by its international and expert Editorial Board, Journal of Facilities Management publishes high-quality, authoritative, and detailed analysis, briefings and case studies on how facilities can and do play a vital part in helping deliver corporate strategy. This quarterly publication features contributions from leading practitioners and thinkers in the field of Facilities Management, from some of the leading companies, government institutions, and universities in the world. The journal features a combination of theoretical and practical articles, complemented by a wide range of case studies and regular features, identifying key implications for senior practitioners in Facilities Management.
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