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Open Access Article

Journal of Engineering Research. 2022; 1: (3) ; 140-143 ; DOI: 10.12208/j.jer.20220085.

Measures to improve the construction and management effectiveness of 35 kv power transmission and transformation projects
提升35千伏输变电工程建设管理成效的措施

作者: 何世雄 *

国网湖北省电力有限公司来凤县供电公司 湖北来凤

*通讯作者: 何世雄,单位:国网湖北省电力有限公司来凤县供电公司 湖北来凤;

发布时间: 2022-09-13 总浏览量: 359

摘要

随着“大建设”的体系要求,国家电网公司新技术规范对高低压电网项目管理水平提出了更高层次的具体要求。根据国家电网公司现行通用质量管理体系和规范的要求,35万千瓦输变电电站项目的整体工程、安全、质量、成本监测和检测技术的专业过程管理应达到常规110kv项目的水平。进一步理顺和明确县供电公司系统运行管理数据接口、职责分工与运行流程的衔接,提高县35kV特高压输变电工程网标准化建设能力和行业管理执法效果。

关键词: 输变电工程;建设管理;措施

Abstract

With the continuous progress of computer technology, intelligent management has become a general trend of all walks of life. Township power supply station is an important part of infrastructure, which has a very important impact on the stability of township power supply. Based on the current domestic situation, this paper analyzes the application of intelligent management in township power supply, aiming to provide some ideas for the development of township power supply management, so as to help the work practice. The Salwen River (Than Lwin) originates in the Tanggula Mountains of the central Qinghai-Tibet Plateau, Flow into Myanmar through Yunnan Province, Call it the Nu River in China, To develop the rich hydropower resources of the Salween River, It is an important project of China and Myanmar to jointly build the "21st Century Maritime Silk Road" and the "Silk Road Economic Belt", The Mengdong Hydropower Station is a giant power station with an installed capacity of 7,000 M W, Using China's rich experience and technology in developing hydropower resources, Can successfully solve the technical problems in Mengdong hydropower construction, In this paper, the main electrical wiring scheme of Mengdong Hydropower Station is compared and selected, Put forward the advanced technology, economic and reasonable technical scheme.

Key words: Township power supply; Intelligent management; Power supply; Practice and innovation

参考文献 References

[1] 罗勋,刘新刚,郭文斌.基于层次分析法的某750kV变电站规划站址比选研究[J].电力勘测设计.2021(03). 

[2] 胡瑞,欧美英,朱金枝.GIS变电站中电弧重燃对VFTO的影响研究[J].重庆工商大学学报(自然科学版).2021(02). 

[3] 郑翔,殷建军,杜奇伟,殷欢,阮黎翔.变电站自动化设备运维管控系统及其应用[J].浙江电力.2021(03). 

[4] 于建军,喻金.变压器.箱式变电站抗台风能力浅析[J]. 2021(03). 

[5] 郭瑞,秦光辉,刘伟.关于变电站建设工程管理方法的研究[J].中国设备工程.2021(06). 

[6] 丁道军,汤昊,夏睿,卜平,翁惠廉.装配式变电站钢结构硫氧镁复合外墙板抗弯承载能力研究[J].新型建筑材料.2021(03). 

[7] 赵长春,邓茂军,张艳超,樊占峰,倪传坤,余高旺.智慧变电站集群测控功能冗余切换方案研究[J].电测与仪表.2021(09). 

[8] 杨晓昕.智能变电站继电保护系统可靠性分析[J].科技创新与应用.2021(11). 

[9] 潘晴宇.考虑分布式电源接入的变电站规划关键技术研究[J].电力系统保护与控制.2021(06). 

[10] 周和.智能110kV变电站保护优化配置方案[J].中国科技信息.2021(06). 

引用本文

何世雄, 提升35千伏输变电工程建设管理成效的措施[J]. 工程学研究, 2022; 1: (3) : 140-143.