<trans-title>Electric Power Infrastructure Operation and Maintenance Management System Based on BIM

Shutao LI; Jinsong WU; Shaofeng ZHANG; Dening ZHAO; Xiao LIAO

doi:10.16516/j.gedi.issn2095-8676.2022.S1.005

Volume 9 Issue S1

May 2022

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Article Navigation > SOUTHERN ENERGY CONSTRUCTION > 2022 > 9(S1): 30-35

LI Shutao,WU Jinsong,ZHANG Shaofeng,et al.Electric Power Infrastructure Operation and Maintenance Management System Based on BIM[J].Southern Energy Construction,2022,09(增刊1):30-35. doi: 10.16516/j.gedi.issn2095-8676.2022.S1.005

Citation:

Electric Power Infrastructure Operation and Maintenance Management System Based on BIM

doi: 10.16516/j.gedi.issn2095-8676.2022.S1.005

1.
China Energy Engineering Group Guangdong Electric Power Design Institute Co., Ltd., Guangzhou 510663, China
2.
School of Electronic and Information Engineering, South China University of Technology, Guangzhou 510640, China

Received Date: 2021-11-02
Rev Recd Date: 2021-12-07
Publish Date: 2022-05-31

Abstract

Introduction At present, the traditional power infrastructure operation and maintenance management system has a low degree of refinement and visualization.In order to improve the quality and efficiency of operation and maintenance management, Method this paper studied and proposed a power infrastructure operation and maintenance management method based on Building Information Modeling (BIM) visualization and information technology.In order to realize the operation and maintenance management method, the existing system architecture was flattened, and the BIM model was defined as the core data carrier.The peripheral system with an independent database could directly extract BIM data or display the BIM model. Result The actual project shows that using BIM visualization and information technology to effectively improve the level of infrastructure operation and maintenance management. Conclusion The proposed BIM-based power infrastructure operation and maintenance management system can be further used in actual projects.
- building information modeling,
- full life cycle,
- electric power infrastructure,
- operation and maintenance management,
- 3D visualization,
- informatization

References

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[2]	刘占省, 孙啸涛, 史国梁.智能建造在土木工程施工中的应用综述 [J].施工技术, 2021, 50(13): 40-53.DOI: 10.7672/sgjs2021130040. LIUZ S, SUNX T, SHIG L.Summary of application of intelligent construction in civil engineering construction [J].Construction Technology, 2021, 50(13): 40-53.DOI: 10.7672/sgjs2021130040.
[3]	倪利, 吕湛, 沈正, 等.基于云计算的电力系统突发性数据处理任务调度方法 [J].自动化与仪器仪表, 2021(8): 56-59.DOI: 10.14016/j.cnki.1001-9227.2021.08.056. NIL, LÜZ, SHENZ, et al.Cloud computing based scheduling method for sudden data processing in power system [J].Automation & Instrumentation, 2021(8): 56-59.DOI: 10.14016/j.cnki.1001-9227.2021.08.056.
[4]	杨硕, 范军太, 卫伟, 等.基于大数据分析的电力系统远程运维及故障诊断 [J].电力学报, 2021, 36(1): 84-89.DOI: 10.13357/j.dlxb.2021.012. YANGS, FANJ T, WEIW, et al.Power system remote operation and maintenance and fault diagnosis based on big data analysis [J].Journal of Electric Power, 2021, 36(1): 84-89.DOI: 10.13357/j.dlxb.2021.012.
[5]	董芸州, 王诚, 符方友, 等.基于物联网的电力通信网络智能运维系统研究 [J].机械与电子, 2020, 38(12): 51-54+59.DOI: 10.3969/j.issn.1001-2257.2020.12.011. DONGY Z, WANGC, FUF Y, et al.Research on intelligent operation and maintenance system of power communication network based on internet of things [J].Machinery & Electronics, 2020, 38(12): 51-54+59.DOI: 10.3969/j.issn.1001-2257.2020.12.01.
[6]	盛戈皞, 钱勇, 罗林根, 等.面向新型电力系统的电力设备运行维护关键技术及其应用展望 [J].高电压技术, 2021, 47(9): 3072-3084.DOI: 10.13336/j.1003-6520.hve.20211258. SHENGG H, QIANY, LUOL G, et al.Key technologies and application prospects for operation and maintenance of power equipment in new type power system [J].High Voltage Technology, 2021, 47(9): 3072-3084.DOI: 10.13336/j.1003-6520.hve.20211258.
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[8]	杨帆, 吴涛, 廖瑞金, 等.数字孪生在电力装备领域中的应用与实现方法 [J].高电压技术, 2021, 47(5): 1505-1521.DOI: 10.13336/j.1003-6520.hve.20210456. YANGF, WUT, LIAOR J, et al.Application and implementation method of digital twin in electric equipment [J].High Voltage Technology, 2021, 47(5): 1505-1521.DOI:10.13336/j .1003-6520.hve.20210456.
[9]	李飞, 赵大兴.基于电力物联网和GIS融合的变电智能运检系统研究 [J].电力大数据, 2020, 23(2): 38-45.DOI: 10.19317/j.cnki.1008-083x.2020.02.006. LIF, ZHAOD X.Research on substation intelligent operation and maintenance system based on power internet of things and combined GIS [J].Power Systems and Big Data, 2020, 23(2): 38-45.DOI: 10.19317/j.cnki.1008-083x.2020.02.006.
[10]	吴子帆.变电站工程电气设备基建生命周期管理中BIM技术的应用研究 [J].中国设备工程, 2020(24): 66-67.DOI: 10.3969/j.issn.1671-0711.2020.24.035. WUZ F.Research on the application of BIM technology in the life cycle management of electrical equipment infrastructure in substation engineering [J].China Plant Engineering, 2020(24): 66-67.DOI: 10.3969/j.issn.1671-0711.2020.24.035.
[11]	贾杰, 王静涛, 张轩.核电站电气设备仿真计算模型研究 [J].科技视界, 2021(4): 38-39.DOI: 10.19694/j.cnki.issn2095-2457.2021.04.14. JIAJ, WANGJ T, ZHANGX.Research on simulation calculation model of electrical equipment in nuclear power plant [J].Science & Technology Vision, 2021(4): 38-39.DOI: 10.19694/j.cnki.issn2095-2457.2021.04.14.
[12]	杨自兴, 李志民, 李子乾, 等.电网信息系统运维管理自动化探索与研究 [J].长江信息通信, 2020(12): 192-194.DOI: 10.3969/j.issn.1673-1131.2020.12.058. YANGZ X, LIZ M, LIZ Q, et al.Exploration and research on automation of operation and maintenance management of power grid information system [J].Changjiang Information & Communications, 2020(12): 192-194.DOI: 10.3969/j.issn.1673-1131.2020.12.058.
[13]	尹奎, 王兴坡, 刘献伟, 等.基于BIM的机电设备设施管理系统研究 [J].施工技术, 2013, 42(10): 86-88.DOI: 10.7672/sgjs2013100086. YINK, WANGX P, LIUX W, et al.Research on BIM-based MEP facility management [J].Construction Technology, 2013, 42(10): 86-88.DOI: 10.7672/sgjs2013100086.
[14]	郏琨琪, 王治华, 范帅, 等.电网信息物理系统的数据驱动架构设计及应用 [J].电网技术, 2018, 42(10): 3116-3127.DOI: 10.13335/j.1000-3673.pst.2018.0876. JIAK Q, WANGZ H, FANS, et al.Data-driven architecture design and application of power grid cyber physical system [J].Power System Technology, 2018, 42(10): 3116-3127.DOI: 10.13335/j.1000-3673.pst.2018.0876.
[15]	刘杰, 唐世超, 王志强.融合体验高效——基于BIM的运维管理系统构建 [J].智能建筑, 2021(1): 61-64. LIUJ, TANGS C, WANGZ Q.Integration experience and high efficiency—Construction of operation and maintenance management system based on BIM [J].Intelligent Building, 2021(1): 61-64.

通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

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0 引言

BIM（Building Information Modeling），即建筑信息模型^［1］，是指以建筑工程项目的各项相关信息数据作为基础，建立起三维建筑模型，通过数字信息化手段描述建筑物所具有的真实信息^［2］。BIM是建筑物管理的一个理想载体，贯穿全生命周期的五大阶段，即策划与规划、勘察与设计、施工与监理、运行与维护、改造与拆除。利用BIM可视化及信息化技术，可有效提升基础设施运维管理水平。

针对电力基础设施运维管理系统产生海量数据以及不断涌现诸如云计算^［3］、大数据^［4］、物联网^［5］等先进技术，目前市场上缺少一个可以将众多新技术集成在同一平台的物理模型可视化管理系统。本文将BIM技术应用在电力基础设施运维管理系统建设中，对运维管理系统平台进行架构和实现，并对基于BIM的运维管理系统的功能进行介绍，以期利用BIM的可视化、存储基础设施物理信息等优势改进现有电力基础设施运维管理系统。

1 现状及问题

随着我国电网数字化的不断建设，电力基础设施的建设力度也随之加大，其中电力基础设施运维管理系统的建设直接关系到数字电网是否能够安全稳定地运行^［6-8］。电力基础设施运维管理系统通过信息化、智能化等手段，实现对电力基础设施的管理。电力基础设施运维管理主要包含动力环境监控、设备运行维护、设备检修等几个主要方面，目前的主要管理手段是通过传感器获取环境参数和设备状态，再通过不同的信息管理系统将数据采集、归类、分析、储存，然后展示给用户^［9］。部分信息则需要手工录入，例如设备台帐和检修状态信息。这样的方式存在如下问题：

1）生命周期各环节的信息无法连贯一致。策划与规划、勘察与设计、施工与监理、运行与维护、改造与拆除各生命周期环节的信息无法连贯一致，电力基础设施的模型不断变化导致相应的运维管理系统也需要不断调整更新，一方面需要人力物力，一方面难以保证系统的准确性^［10］。

2）运维管理系统里的电力基础设施模型通常要通过诸如3DMAX之类的三维建模软件对原本二维CAD进行重新建模^［11］，而建模者一般缺乏电力基础设施的相关专业知识，所以导致一方面建模效率较低，一方面建模准确性无法保证，难以与现场实际情况完全吻合。

3）运维管理系统的功能单一，维度不够全面。系统仅关注温湿度、电力等基础性指标，未对电力基础设施的能耗、可用性、可靠性等指标进行建模监控分析，不利于大型电力基础设施的高效管理^［12］。

4 结论

电力基础设施运维管理是一个系统而全面的工程，其基础是设备运行数据的长期准确检测和分析^［9］。随着电力基础设施功能的多样化、相关系统的复杂化和智能化程度的提高，对运维管理系统的要求也逐渐升高。BIM在建筑行业的应用已经非常广泛，目前电力基础设施方面的研究和应用仍有待进一步提高。本文提出的基于BIM的可视化及信息化技术可以有效提高电力基础设施运维管理的效率和质量，从而提升电力基础设施的可用性和可靠性。

本文的电力基础设施运维管理系统主要围绕专业机房提出，但是电力基础设施不仅仅涉及电力调度中心、信息中心等核心场景，还包括了各电压等级变电站、营业网点、线路走廊等等关键场景。该模型在未来可推广应用于电力一次、电力二次以及输电线路等更多的电力基础设施。

Reference (15)

[1]	韩茂林, 王志忠, 岑银, 等.基于BIM技术的变电站三维全景监视系统设计 [J].电工技术, 2021(3): 158-161.DOI: 10.19768/j.cnki.dgjs.2021.03.053.	HAN M L, WANG Z Z, CEN Y, 2021: Design of three-dimensional panoramic monitoring system for substation based on BIM technology[J]. Electrical Engineering, , 158-161.
[2]	刘占省, 孙啸涛, 史国梁.智能建造在土木工程施工中的应用综述 [J].施工技术, 2021, 50(13): 40-53.DOI: 10.7672/sgjs2021130040.	LIU Z S, SUN X T, SHI G L, 2021: Summary of application of intelligent construction in civil engineering construction[J]. Construction Technology, 50, 40-53.
[3]	倪利, 吕湛, 沈正, 等.基于云计算的电力系统突发性数据处理任务调度方法 [J].自动化与仪器仪表, 2021(8): 56-59.DOI:10.14016/j.cnki.1001-9227.2021.08.056.	NI L, LÜ Z, SHEN Z, 2021: Cloud computing based scheduling method for sudden data processing in power system[J]. Automation & Instrumentation, , 56-59.
[4]	杨硕, 范军太, 卫伟, 等.基于大数据分析的电力系统远程运维及故障诊断 [J].电力学报, 2021, 36(1): 84-89.DOI: 10.13357/j.dlxb.2021.012.	YANG S, FAN J T, WEI W, 2021: Power system remote operation and maintenance and fault diagnosis based on big data analysis[J]. Journal of Electric Power, 36, 84-89.
[5]	董芸州, 王诚, 符方友, 等.基于物联网的电力通信网络智能运维系统研究 [J].机械与电子, 2020, 38(12): 51-54+59.DOI: 10.3969/j.issn.1001-2257.2020.12.011.	DONG Y Z, WANG C, FU F Y, 2020: Research on intelligent operation and maintenance system of power communication network based on internet of things[J]. Machinery & Electronics, 38, 51-54+59.
[6]	盛戈皞, 钱勇, 罗林根, 等.面向新型电力系统的电力设备运行维护关键技术及其应用展望 [J].高电压技术, 2021, 47(9): 3072-3084.DOI: 10.13336/j.1003-6520.hve.20211258.	SHENG G H, QIAN Y, LUO L G, 2021: Key technologies and application prospects for operation and maintenance of power equipment in new type power system[J]. High Voltage Technology, 47, 3072-3084.
[7]	齐波, 张鹏, 张书琦, 等.数字孪生技术在输变电设备状态评估中的应用现状与发展展望 [J].高电压技术, 2021, 47(5): 1522-1538.DOI: 10.13336/j.1003-6520.hve.20210093.	QI B, ZHANG P, ZHANG S Q, 2021: Application status and development prospect of digital twin technology in condition assessment of power transmission and transformation equipment[J]. High Voltage Technology, 47, 1522-1538.
[8]	杨帆, 吴涛, 廖瑞金, 等.数字孪生在电力装备领域中的应用与实现方法 [J].高电压技术, 2021, 47(5): 1505-1521.DOI: 10.13336/j.1003-6520.hve.20210456.	YANG F, WU T, LIAO R J, 2021: Application and implementation method of digital twin in electric equipment[J]. High Voltage Technology, 47, 1505-1521.
[9]	李飞, 赵大兴.基于电力物联网和GIS融合的变电智能运检系统研究 [J].电力大数据, 2020, 23(2): 38-45.DOI: 10.19317/j.cnki.1008-083x.2020.02.006.	LI F, ZHAO D X, 2020: Research on substation intelligent operation and maintenance system based on power internet of things and combined GIS[J]. Power Systems and Big Data, 23, 38-45.
[10]	吴子帆.变电站工程电气设备基建生命周期管理中BIM技术的应用研究 [J].中国设备工程, 2020(24): 66-67.DOI: 10.3969/j.issn.1671-0711.2020.24.035.	WU Z F, 2020: Research on the application of BIM technology in the life cycle management of electrical equipment infrastructure in substation engineering[J]. China Plant Engineering, , 66-67.
[11]	贾杰, 王静涛, 张轩.核电站电气设备仿真计算模型研究 [J].科技视界, 2021(4): 38-39.DOI: 10.19694/j.cnki.issn2095-2457.2021.04.14.	JIA J, WANG J T, ZHANG X, 2021: Research on simulation calculation model of electrical equipment in nuclear power plant[J]. Science & Technology Vision, , 38-39.
[12]	杨自兴, 李志民, 李子乾, 等.电网信息系统运维管理自动化探索与研究 [J].长江信息通信, 2020(12): 192-194.DOI: 10.3969/j.issn.1673-1131.2020.12.058.	YANG Z X, LI Z M, LI Z Q, 2020: Exploration and research on automation of operation and maintenance management of power grid information system[J]. Changjiang Information & Communications, 2020, 192-194.
[13]	尹奎, 王兴坡, 刘献伟, 等.基于BIM的机电设备设施管理系统研究 [J].施工技术, 2013, 42(10): 86-88.DOI: 10.7672/sgjs2013100086.	YIN K, WANG X P, LIU X W, 2013: Research on BIM-based MEP facility management[J]. Construction Technology, 42, 86-88.
[14]	郏琨琪, 王治华, 范帅, 等.电网信息物理系统的数据驱动架构设计及应用 [J].电网技术, 2018, 42(10): 3116-3127.DOI: 10.13335/j.1000-3673.pst.2018.0876.	JIA K Q, WANG Z H, FAN S, 2018: Data-driven architecture design and application of power grid cyber physical system[J]. Power System Technology, 42, 3116-3127.
[15]	刘杰, 唐世超, 王志强.融合体验高效——基于BIM的运维管理系统构建 [J].智能建筑, 2021(1): 61-64.	LIU J, TANG S C, WANG Z Q, 2021: Integration experience and high efficiency—Construction of operation and maintenance management system based on BIM[J]. Intelligent Building, , 61-64.

Electric Power Infrastructure Operation and Maintenance Management System Based on BIM

doi: 10.16516/j.gedi.issn2095-8676.2022.S1.005

Abstract

References

通讯作者: 陈斌, bchen63@163.com

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Electric Power Infrastructure Operation and Maintenance Management System Based on BIM

doi: 10.16516/j.gedi.issn2095-8676.2022.S1.005

1. China Energy Engineering Group Guangdong Electric Power Design Institute Co., Ltd., Guangzhou 510663, China

2. School of Electronic and Information Engineering, South China University of Technology, Guangzhou 510640, China

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2.1　传统设施管理技术

2.2　以BIM为核心的运维管理技术

3.1　综合监控功能

3.2　设备信息和运维管理功能

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Electric Power Infrastructure Operation and Maintenance Management System Based on BIM

doi: 10.16516/j.gedi.issn2095-8676.2022.S1.005

Abstract

References

通讯作者: 陈斌, bchen63@163.com

Article Metrics

Related

Electric Power Infrastructure Operation and Maintenance Management System Based on BIM

doi: 10.16516/j.gedi.issn2095-8676.2022.S1.005

1. China Energy Engineering Group Guangdong Electric Power Design Institute Co., Ltd., Guangzhou 510663, China 2. School of Electronic and Information Engineering, South China University of Technology, Guangzhou 510640, China

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2.1 传统设施管理技术

2.2 以BIM为核心的运维管理技术

3.1 综合监控功能

3.2 设备信息和运维管理功能

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1. China Energy Engineering Group Guangdong Electric Power Design Institute Co., Ltd., Guangzhou 510663, China

2. School of Electronic and Information Engineering, South China University of Technology, Guangzhou 510640, China

2.1　传统设施管理技术

2.2　以BIM为核心的运维管理技术

3.1　综合监控功能

3.2　设备信息和运维管理功能