Grounding system design optimization on 275 KV betung substation based on IEEE standard 80-2000

机译：基于IEEE标准80-2000的275 KV奔腾变电站的接地系统设计优化

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The demand of electricity transmission toward regions for society, industrial and other needs are increasing hence, making electricity transmission and distribution increased as well. The increase in electricity transmission and distribution requires addition of Substation construction. Substation constructions are crucial for economic growth in Indonesia. This research aims to design two models of grounding system, to determine permissible touch voltages and permissible step voltages, and to simulate both designs using CYMGrd Software, whereby both designs were compared to obtain optimal grounding system at 275 KV Betung Substation. With touch voltages and step voltages values of 1387.97 V and 364.6 KV in first model, and touch voltages and step voltages of 1247.2 V and 112.39 V in second model, both model did not exceed permissible touch voltages of 1409.58 V and permissible step voltages of 5050.1 V. Final result of this research showed that second design model was more optimal compared with the first design model.

机译：因此，向社会，工业和其他需求的地区对电力传输的需求在增加，使得电力传输和分配也增加了。电力传输和分配的增加需要增加变电站的建设。变电站的建设对于印尼的经济增长至关重要。本研究旨在设计两种接地系统模型，以确定允许的接触电压和允许的阶跃电压，并使用CYMGrd软件对两种设计进行仿真，从而比较这两种设计，以获得275 KV Betung变电站的最佳接地系统。在第一个模型中，触摸电压和阶跃电压值为1387.97 V和364.6 KV，在第二个模型中，触摸电压和阶跃电压分别为1247.2 V和112.39 V，两个模型均未超过允许的触摸电压1409.58 V和许可的阶跃电压5050.1 V.这项研究的最终结果表明，与第一种设计模型相比，第二种设计模型更为理想。

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来源
《2017 15th International Conference on Quality in Research : International Symposium on Electrical and Computer Engineering》|2017年|400-407|共8页
会议地点 Nusa Dua(ID)
作者
Ishak Kasim; Syamsir Abduh; Nur Fitryah;
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作者单位

Electrical Engineering Department, Industrial Technology Faculty Trisakti University Jakarta, Indonesia;

Electrical Engineering Department, Industrial Technology Faculty Trisakti University Jakarta, Indonesia;

Electrical Engineering Department, Industrial Technology Faculty Trisakti University Jakarta, Indonesia;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Substations; Grounding; Wires; Impedance; Conductors; Earth; Biological system modeling;

机译：变电站;接地;电线;阻抗;导体;地球;生物系统建模;;

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专利

1. DESIGN AND OPTIMIZE SUBSTATION GROUNDING GRID BASED ON IEEE STD. 80 - 2000 USING GUI AND MATLAB CODES [J] . Dr. ATTIA A. EL-FERGANY International Journal of Engineering Science and Technology . 2011,第7期

机译：基于IEEE STD的变电站接地网设计与优化。 80-2000使用GUI和MATLAB代码
2. DESIGN AND OPTIMIZE SUBSTATION GROUNDING GRID BASED ON IEEE STD. 80 - 2000 USING GUI AND MATLAB CODES [J] . Dr. ATTIA A. EL-FERGANY International Journal of Engineering Science and Technology . 2011,第7期

机译：基于IEEE STD的变电站接地网设计与优化。 80-2000使用GUI和MATLAB代码
3. Inadequacies of the Industry-Standard IEEE C37.99-2000 Concerning Grounding Neutrals of Shunt Capacitors in High-Voltage Substations [J] . Power Delivery, IEEE Transactions on . 2011,第2期

机译：关于高压变电站中并联电容器接地中性的行业标准IEEE C37.99-2000的不足之处
4. Grounding system design optimization on 275 KV betung substation based on IEEE standard 80-2000 [C] . Ishak Kasim, Syamsir Abduh, Nur Fitryah International Conference on Quality in Research . 2017

机译：基于IEEE标准的275 kV光电站接地系统设计优化80-2000
5. Grounding system design for hv transmission substation [D] . Wiafe, Appiah. 2016

机译：高压输电变电站接地系统设计
6. Optimizing the MAC Protocol in Localization Systems Based on IEEE 802.15.4 Networks [O] . Juan J. Pérez-Solano, Jose M. Claver, Santiago Ezpeleta 2017

机译：基于IEEE 802.15.4网络的本地化系统中MAC协议的优化
7. ON THE ISSUE OF DESIGN OF GROUNDING SYSTEMS OF 330(220) KV SUBSTATIONS TO ENSURE THE ELECTROMAGNETIC COMPATIBILITY OF SECONDARY CIRCUITS [O] . O. Yu. Glebov, D. G. Koliushko, G. M. Koliushko, 2018

机译：关于330（220）kV变电站接地系统设计的问题，以确保辅电路的电磁兼容性
8. Analysis Techniques for Power-Substation Grounding Systems Volume 1: Design Methodology and Tests [R] . E. B. Joy, A. P. Meliopoulos, R. P. Webb 1982

机译：变电站接地系统分析技术第1卷：设计方法和试验

Grounding system design optimization on 275 KV betung substation based on IEEE standard 80-2000

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