PMU-Based Cable Temperature Monitoring and Thermal Assessment for Dynamic Line Rating

Singh, Ravi Shankar; Cobben, Sjef; Ćuk, V.

doi:10.1109/tpwrd.2020.3016717

Cited by 30 publications

(10 citation statements)

References 18 publications

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“…However, such model-free method proposes a huge demand of testing data in advance of model training. It also suffers a high computation burden and a short valid period, considering inevitably frequent network parameter variations caused by dynamic environment temperature [28]. Therefore, model-based detection methods are expected, which is analytical and adaptive to network parameter variations.…”

Section: Introductionmentioning

confidence: 99%

A Novel Attack Identification Mechanism in IoT-Based Converter-Composed DC Grids

Gong

Dragičević

Mijatović

et al. 2023

IEEE Internet Things J.

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This paper proposes a novel attack identification mechanism for internet-of-things-based (IoT-based) convertercomposed DC grids, where each agent collects its own and neighbours' measurement data for output regulation to meet a preceding power-sharing consensus. Independent from modelfree or average-model-based attack detection theories, this mechanism is mainly inspired by converter stitching behavior analysis. Correspondingly, when facing latent signal substitution or agent instigation attacks, through comparing estimated signals with received ones for signal source authentication, both self-sensors and neighbours will be inspected. Eventually, not only can such attacks be detected, but also will respective attack sources be identified. A simulation case of 4-agent 800V IoT-based DC grid on Simulink and a hardware case of 3-agent 90V IoT-based DC grid on dSpace testing platform were investigated. Experimental results revealed that the estimation ratio error kept lower than 3.9% and all attacks were successfully identified, verifying the effectiveness of the proposed mechanism.

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Section: Introductionmentioning

confidence: 99%

A Novel Attack Identification Mechanism in IoT-Based Converter-Composed DC Grids

Gong

Dragičević

Mijatović

et al. 2023

IEEE Internet Things J.

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“…The nameplate capacity of power equipment is traditionally set as the static thermal rating (STR) and calculated as the maximum constant loading to ensure that the temperatures of key equipment components do not exceed upper limits under the most extreme weather conditions ( IEEE 2013 , 2012 ; IEC 2014 ). In contrast, the DTR of equipment is calculated according to the real-time weather conditions and actual equipment temperatures, which can enhance the transfer capacity of equipment when the weather conditions are mild or only short-term overloading is required ( Humayun et al., 2015 ; Singh et al., 2021 ). The application of DTR on lines and transformers in the management and dispatch of power systems could address the equipment overloading problem without compromising the operating safety and the service life of the equipment ( Bracale et al., 2019 ).…”

Section: Introductionmentioning

confidence: 99%

Improving distributed PV integration with dynamic thermal rating of power distribution equipment

Wang

Kang

et al. 2022

iScience

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“…Today, renewable power generation sources are reinforcing distribution networks. The growing demand for electricity is forcing system operators to take full advantage of the maximum capacity of existing power lines [ 1 ]. However, the maximum allowable temperature of the conductor must not be exceeded, as it defines the current carrying capacity of the conductor [ 2 ].…”

Section: Introductionmentioning

confidence: 99%

On-Line Core Losses Determination in ACSR Conductors for DLR Applications

et al. 2022

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Dynamic line rating (DLR) is a method that focuses on dynamically determining the maximum allowable current of power lines, while ensuring they operate within safe limits. DLR needs to monitor the temperature and current of the line in real-time, as well as the weather variables in the surroundings of the power line. DLR approaches also require determining the AC resistance of the power line conductors, which is a key parameter that enables it to determine Joule and core losses. This paper presents an approach for an on-line alternating current (AC) resistance estimation of aluminum conductor steel-reinforced (ACSR) conductors to determine the DLR capability of such conductors from real-time conductor and meteorological parameter measurements. For this purpose, conductors with one, two and three layers of aluminum strands are analyzed in detail. Based on the experimental results presented in this paper, two possible approaches are proposed.

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PMU-Based Cable Temperature Monitoring and Thermal Assessment for Dynamic Line Rating

Cited by 30 publications

References 18 publications

A Novel Attack Identification Mechanism in IoT-Based Converter-Composed DC Grids

A Novel Attack Identification Mechanism in IoT-Based Converter-Composed DC Grids

Improving distributed PV integration with dynamic thermal rating of power distribution equipment

On-Line Core Losses Determination in ACSR Conductors for DLR Applications

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