Your search keyword '"electricity transmission line"' showing total 11 results

1. Study of direct and indirect risk assessment of landslide impacts on ultrahigh-voltage electricity transmission lines

Author

Chenchen Huang, Kunlong Yin, Xin Liang, Lei Gui, Binbin Zhao, and Yi Liu

Subjects

Landslide, Risk assessment, Direct and indirect risks, Electricity transmission line, Vulnerability curve, Medicine, Science

Abstract

Abstract Ultrahigh-voltage electricity systems are a vital part of energy networks, often across wide regions passing through mountainous terrains. The instability of slopes forming tower foundations along transmission lines poses a large risk to the entire energy network. Moreover, the tower foundations along extra-high-voltage electricity transmission lines are a very special type of element that are also highly vulnerable to landslides. In this study, an integrative risk assessment framework, including a hazard assessment, vulnerability analysis for the specified element at risk, and consequence estimation, is proposed to quantify the direct and indirect risks of landslides to power transmission lines. The Yanzi landslide, where a tower of the major ultrahigh-voltage transmission line from Sichuan (western China) to Shanghai (eastern China) has just been constructed, is taken as a case study. The correlation between landslide displacement and tower structure tilting is studied. In terms of the precipitation return period, factors of safety, failure probability, and deformation are simulated. A physical vulnerability curve is fitted by assuming a Weibull relationship between the horizontal deformation (hazard intensity) of the landslide and the tower inclination ratio. The total risk is calculated as the sum of the direct and indirect losses, among which the potential indirect risk due to tower damage is much greater than the direct risk. This work demonstrates the importance of landslide treatment strategies along electricity transmission lines by considering the potential indirect risks. The risk assessment model of landslides affecting ultrahigh-voltage electricity transmission lines proposed in this study could be useful for other types of indirect landslide risk evaluations.

Published

2024

2. Research on Comprehensive Evaluation and Early Warning of Transmission Lines' Operation Status Based on Dynamic Cloud Computing.

Author

Wang, Minzhen, Li, Cheng, Wang, Xinheng, Piao, Zheyong, Yang, Yongsheng, Dai, Wentao, and Zhang, Qi

Subjects

*ELECTRIC lines, *ELECTRIC power transmission, *CLOUD computing, *MODEL theory, *NINTH grade (Education), RESEARCH evaluation

Abstract

The current methods for evaluating the operating condition of electricity transmission lines (ETLs) and providing early warning have several problems, such as the low correlation of data, ignoring the influence of seasonal factors, and strong subjectivity. This paper analyses the sensitive factors that influence dynamic key evaluation indices such as grounding resistance, sag, and wire corrosion, establishes the evaluation criteria of the ETL operation state, and proposes five ETL status levels and seven principles for selecting evaluation indices. Nine grade I evaluation indices and twenty-nine grade II evaluation indices, including passageway and meteorological environments, are determined. The cloud model theory is embedded and used to propose a warning technology for the operation state of ETLs based on inspection defect parameters and the cloud model. Combined with the inspection defect parameters of a line in the Baicheng district of Jilin Province and the critical evaluation index data such as grounding resistance, sag, and wire corrosion, which are used to calculate the timeliness of the data, the solid line is evaluated. The research shows that the dynamic evaluation model is correct and that the ETL status evaluation and early warning method have reasonable practicability. [ABSTRACT FROM AUTHOR]

Published

2023

3. Study of direct and indirect risk assessment of landslide impacts on ultrahigh-voltage electricity transmission lines.

Author

Huang C, Yin K, Liang X, Gui L, Zhao B, and Liu Y

Abstract

Ultrahigh-voltage electricity systems are a vital part of energy networks, often across wide regions passing through mountainous terrains. The instability of slopes forming tower foundations along transmission lines poses a large risk to the entire energy network. Moreover, the tower foundations along extra-high-voltage electricity transmission lines are a very special type of element that are also highly vulnerable to landslides. In this study, an integrative risk assessment framework, including a hazard assessment, vulnerability analysis for the specified element at risk, and consequence estimation, is proposed to quantify the direct and indirect risks of landslides to power transmission lines. The Yanzi landslide, where a tower of the major ultrahigh-voltage transmission line from Sichuan (western China) to Shanghai (eastern China) has just been constructed, is taken as a case study. The correlation between landslide displacement and tower structure tilting is studied. In terms of the precipitation return period, factors of safety, failure probability, and deformation are simulated. A physical vulnerability curve is fitted by assuming a Weibull relationship between the horizontal deformation (hazard intensity) of the landslide and the tower inclination ratio. The total risk is calculated as the sum of the direct and indirect losses, among which the potential indirect risk due to tower damage is much greater than the direct risk. This work demonstrates the importance of landslide treatment strategies along electricity transmission lines by considering the potential indirect risks. The risk assessment model of landslides affecting ultrahigh-voltage electricity transmission lines proposed in this study could be useful for other types of indirect landslide risk evaluations., (© 2024. The Author(s).)

Published

2024

4. Research on Comprehensive Evaluation and Early Warning of Transmission Lines’ Operation Status Based on Dynamic Cloud Computing

Author

Minzhen Wang, Cheng Li, Xinheng Wang, Zheyong Piao, Yongsheng Yang, Wentao Dai, and Qi Zhang

Subjects

electricity transmission line, exponential scaling method, comprehensive analysis, correlation algorithm, status assessment, cloud computing, Chemical technology, TP1-1185

Abstract

The current methods for evaluating the operating condition of electricity transmission lines (ETLs) and providing early warning have several problems, such as the low correlation of data, ignoring the influence of seasonal factors, and strong subjectivity. This paper analyses the sensitive factors that influence dynamic key evaluation indices such as grounding resistance, sag, and wire corrosion, establishes the evaluation criteria of the ETL operation state, and proposes five ETL status levels and seven principles for selecting evaluation indices. Nine grade I evaluation indices and twenty-nine grade II evaluation indices, including passageway and meteorological environments, are determined. The cloud model theory is embedded and used to propose a warning technology for the operation state of ETLs based on inspection defect parameters and the cloud model. Combined with the inspection defect parameters of a line in the Baicheng district of Jilin Province and the critical evaluation index data such as grounding resistance, sag, and wire corrosion, which are used to calculate the timeliness of the data, the solid line is evaluated. The research shows that the dynamic evaluation model is correct and that the ETL status evaluation and early warning method have reasonable practicability.

Published

2023

5. Resilient peripheralisation through authoritarian communication against energy democracy in South Korea.

Author

Choi, Su Young

Subjects

*ENERGY facilities, *EQUALITY, *AUTHORITARIANISM, *DEMOCRACY, *ENERGY industries

Abstract

To understand anti-democratic barriers to accomplishing energy democracy, I examine how and why a centralised energy system can maintain itself based on an ethnographic analysis of the local protest of the Miryang community against the Korea Electric Power Corporation's construction of a 765,000-volt transmission line. In doing so, I incorporate the element of authoritarian communication into the framework of peripheralization – a socio-political reproduction of social, spatial, and environmental inequality caused by siting environmentally hazardous facilities in peripheral communities and reinforcing their powerlessness – to emphasize the aggressive role of government and industry actors. Composed of unidirectional projection, partial absorption, and forceful suppression, authoritarian communication makes the sacrifices of peripheral communities enduring, and consequently enables an undemocratic energy arrangement to be resilient and perpetual. To overcome this mechanism, I highlight the active roles of citizens to contest authoritarian communication and socio-environmental inequalities as a precondition to building a sustainable energy democracy. [ABSTRACT FROM AUTHOR]

Published

2021

6. The anti‐icing and deicing robot system for electricity transmission line based on external excitation resonant.

Author

Zhou, Feng, Zhu, Jie, An, Na, Wang, Chenguang, Liu, Jian, and Long, Li

Subjects

*ELECTRIC power transmission, *ELECTRIC lines, *ICE prevention & control, *FREQUENCIES of oscillating systems, *MODAL analysis

Abstract

Aiming at the problem of off‐line deicing in overhead transmission lines, such as poor continuity of power supply and possible damage of lines caused by over‐thick deicing, a new online anti‐icing and deicing method based on external excitation resonance is proposed. The theoretical basis of the external excitation resonance to anti‐icing and deicing is established. Then the modal characteristics of the external excitation resonance are determined through the modal analysis of the ice‐coated transmission lines, and the reasonable frequency range of the external excitation resonance is obtained. According to the theoretical analysis and calculation results, the anti‐icing and deicing robot system is designed by the external excitation resonance. Intelligent video technology is used to detect the icing condition of transmission lines in real time, and the vibration frequency range of transmission lines is analyzed and calculated. The vibration frequency is adjusted through the real‐time tracking of the resonance feedback mechanism to ensure the continuity of the resonance working state, so as to effectively realize the efficient anti‐icing and deicing of the transmission lines with the thickness of 1–3 mm at the initial icing stage. Finally, the parameters of the key components of the system are calculated and determined, and the related influencing factors are analyzed. A new deicing theory based on anti‐icing theory is proposed, and specific engineering measures are given. © 2020 Institute of Electrical Engineers of Japan. Published by John Wiley & Sons, Inc. [ABSTRACT FROM AUTHOR]

Published

2020

7. Solar energy curtailment in China: Status quo, reasons and solutions.

Author

Tang, Ningning, Zhang, Yuning, Niu, Yuguang, and Du, Xiaoze

Subjects

*SOLAR energy, *ELECTRIC power distribution grids, *PHOTOVOLTAIC power systems, *ENERGY consumption, *ENERGY demand management

Abstract

Abstract Recently, parts of the solar energy (especially photovoltaic power station) could not be connected to power system, leading to a serious solar energy curtailment problem. Generally speaking, in 2017, 91.4% of the rejected solar energy occurs in the northwestern China with the total electricity reaching 6670 GW h. Because China is of a large amount of the installed solar capacity, the existing large-scale solar energy curtailment problem have greatly affected the development of the solar power industry (e.g. the investors' profits) and the long-term development of the China's clean energy policy. In this review, based on the statistical data released by the authorities, the current status of the solar energy curtailment are reviewed with a detailed analysis of the reasons from the aspects of power generation and electric grid. This review focuses on the cases of the two typical provinces (Gansu province and Xinjiang Uygur Autonomous Region) with large-scale solar energy curtailment together with related analysis. Several practical solutions are also proposed to further relieve the problem in the near future. Detailed comparisons between different schemes are also given in order to help policy makers in China and also other countries for the further development of the solar power generation. Highlights • Current status of solar energy curtailment are reviewed with analysis from the aspects of power generation and power grid. • Two typical provinces with large-scale solar energy curtailment are reviewed together with related analysis. • This review also proposed several practical solutions to further relieve the problem in the near future. • Detailed comparisons between different schemes are given for the policy makers. [ABSTRACT FROM AUTHOR]

Published

2018

8. Вибір оптимальної мережі енергосистеми 110 кВ методом впорядкованого виключення гілок

Author

Баженов, Володимир Андрійович

Subjects

електрична мережа, electricity transmission line, discounted expences, electric network, дисконтовані втрати, transformer, оптимізація, лінія електропередавання, 621.311, optimization, трансформатор

Abstract

Магістерська дисертація складається з пояснювальної записки та графічної частини. Пояснювальна записка виконана на 111 сторінках формату А4, в яку входять 87 таблиць та 39 рисунків. Графічна частина містить 7 аркушів технічних креслень формату А1. В магістерській дисертації розглянута районна електрична мережа напругою 110 кВ. Спроектована електрична підстанція 110/35/10 кВ в пункті 4, розраховано струми короткого замикання та виконано вибір обладнання. Розглянуто вибір уставок диференційного захисту трансформатора потужністю 25000 кВА. З`ясовано положення з охорони праці та безпеки в надзвичайних ситуаціях під час експлуатації лінії електропередавання 110 кВ. Виконано економічне порівняння для трьох варіантів конфігурації електричної мережі. The master's dissertation consists of an explanatory note and a graphic part. The explanatory note is made on page 111 of A4 format, which includes 87 and 39 figures. The graphic part contains 7 sheets or technical drawings of A1 format. In master's dissertation the district electric network with a voltage of 110 kV is considered. Designed 110/35/10 kV electrical substation in point 4, short circuit currents were calculated and equipment selection was made. The choice of differential protection units of 25000 kVA transformer is considered. The provisions on safety and health in emergencies during the operation of the 110 kV transmission line have been clarified. An economic comparison has been made for the three electrical network configuration options. .

Published

2021

9. Geohazard detection and analysis along an electricity transmission line in Tibet, China

Author

Hao, Lina, Li, Weile, Guo, Peng, Chen, Gang, Cui, Qiang, and Xu, Qiang

Published

2020

10. KARMA BİR KARAR VERME YAKLAŞIMI İLE ELEKTRİK İLETİM HATTI İÇİN GÜZERGÂH SEÇİMİ.

Author

BAYSAL, Mehmet Emin, AYDIN, Musa, and SARUCAN, Ahmet

Abstract

Copyright of Selcuk University Journal of Engineering, Science & Technology / Selçuk Üniversitesi Mühendislik, Bilim ve Teknoloji Dergisi is the property of Selcuk University, Engineering & Architecture Faculty and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2015

11. Electricity transmission line route selection by an integrated multi-criteria decision making methodology

Author

Baysal, Mehmet Emin, Aydın, Musa, and Sarucan, Ahmet

Subjects

Electricity transmission line, Analytic network process, Factor weighting method, Elektrik iletim hattı, Faktör ağırlıklandırma yöntemi, Analitik ağ süreci

Abstract

URL:http://sujest.selcuk.edu.tr/sumbtd/article/view/273, Hızla artan nüfus ve enerji kullanımı, beraberinde yeni elektrik iletim hatlarının oluşturulması ihtiyacını getirmektedir. Bir elektrik iletim hattının güzergâh seçimi için alternatiflerin değerlendirilmesinde, mühendislik ihtiyaçları, mamur alan, doğal çevre vb. belirli kriterler göz önüne alındığından, çok kriterli karar verme (ÇKKV) problemi ortaya çıkar. Bu çalışmada ÇKKV problemlerinin çözümünde etkin olarak kullanılan Analitik Ağ Süreci (AAS) yaklaşımı kullanılmıştır. Bu amaç doğrultusunda, Selçuk Üniversitesi Alâeddin Keykubat Yerleşkesi içinden geçirilecek bir elektrik iletim hattının alternatif geçiş yollarının değerlendirilmesine yönelik bir uygulama sunulmuştur. Elektrik iletim hattı için AAS belirlenen kriterlere göre makro koridorlar oluşturulmuş ve Faktör Ağırlıklandırma (FA) Yöntemi kullanılarak almış oldukları en yüksek puana göre en iyi alternatif güzergâh seçilmiştir., The needs of building new electricity transmission lines grow up due to rapid pace of population and energy usage. Since it is considered certain criteria such as engineering requirements, built environment and natural environment for the evaluation of alternatives to select the best route for the new transmission line, the problem is multi-criteria decision making problem (MCDM). In this study, the Analytic Network Process (ANP) which is an efficient technique in the solution of the MCDM problems was used. In line with this aim, it was presented an evaluation of alternative routes for the application of a new electricity transmission line passing through the campus area of the Selcuk University. It was determined the macro corridors based on ANP and then the best route was picked

Published

2015