Optimal Protection Coordination of Dual-Setting Directional Overcurrent Relays Based on Three-point Coordination Strategy

Abstract In this paper, the security-constrained optimal protection coordination (SCOPC) is introduced for dual setting digital directional overcurrent relay (DDOCR) in distribution network, which including renewable and non-renewable synchronous distributed generation (SDG). The SCOPC minimizes the total operation time of DDOCRs in primary and backup protection operating to achieve a fast protection coordination. Also, to improve the flexibility in DDOCRs setting, the allowable limits of A and B coefficients, pickup current (PC) and time dial setting (TDS) in both reverse and forward directions are considered as constraints. Another constraint is the Coordination Time interval (CTI). To consideration of the mentioned scheme security, the SCOPC mechanism considered the unavailability of DDOCRs due to their failure, so the stochastic method is used to modelling of this parameter. To calculate the fault current, network variables are proportional to the daily stochastic operation results of distribution network. Moreover, the proposed problem is implemented on the standard distribution networks, and then the optimal solution is obtained with hybrid algorithm of grey wolf optimization (GWO) and training and learning optimization (TLBO). The numerical results illustrate that the proposed algorithm is able to achieve a reliable and fast protection coordination that has a low standard deviation.

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Inter-trip links incorporated optimal protection coordination

International Journal of Electrical and Computer Engineering (IJECE) ◽

10.11591/ijece.v10i1.pp72-79 ◽

2020 ◽

Vol 10 (1) ◽

pp. 72

Author(s):

Ali Abbasi ◽

Hossein Kazemi Karegar ◽

Tohid Soleymani Aghdam

Keyword(s):

Genetic Algorithm ◽

Smart Grid ◽

System Performance ◽

Distribution Network ◽

Communication Links ◽

Overcurrent Relays ◽

Optimal Coordination ◽

Search Approach ◽

Fault Clearance ◽

Optimal Protection

Due to advances in smart grid, different communication links as delay, inter-trip and activation are used between relays to enhance the protection system performance. In this paper, the effect of inter-trip links on optimal coordination of directional overcurrent relays (DOCRs) is analytically investigated and modelled. Moreover, an index is proposed to find the optimum locations for inter-trip link installation to reach the minimal fault clearance times under the selectivity constraint. Then a method is proposed to determine the candidate locations of inter-trip links and the associated reduced operating times. An Exhaustive search approach is also used to validate the efficiency of the proposed method. The method is simulated and tested on distribution network of IEEE 33 bus using the Power Factory software and MATLAB optimization toolbox. Genetic algorithm is used as an optimization tool to find optimal settings of relays. The results indicate the capability of proposed method in optimal protection coordination with optimum inter-trips.

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Optimal Protection Coordination Scheme of Overcurrent Relays for Microgrid System.

10.1109/icrera52334.2021.9598626 ◽

2021 ◽

Author(s):

Feras Alasali ◽

Ali Al-Hayajneh ◽

Eyad Zarour ◽

Othman Alsmadi

Keyword(s):

Coordination Scheme ◽

Overcurrent Relays ◽

Optimal Protection

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Application of the JAYA Algorithm in Solving the Problem of the Optimal Coordination of Overcurrent Relays in Single- and Multi-Loop Distribution Systems

Complexity ◽

10.1155/2019/5876318 ◽

2019 ◽

Vol 2019 ◽

pp. 1-13

Author(s):

Abdul Wadood ◽

Saeid Gholami Farkoush ◽

Tahir Khurshaid ◽

Jiang-Tao Yu ◽

Chang-Hwan Kim ◽

...

Keyword(s):

Distribution Systems ◽

Electrical Power ◽

Computational Time ◽

Jaya Algorithm ◽

Coordination Problem ◽

Coordination Strategy ◽

Control Factors ◽

Overcurrent Relays ◽

Optimal Coordination ◽

Operational Time

To ensure a safe and trustworthy pattern in contradiction to the possible faults, a precise, reliable, and fast relaying strategy is of high importance in an electrical power system. These challenges give the impression of being more refined in multi-loop distribution systems. More recently, overcurrent relays (OCRs) have evolved as proficient counteragents for such cases. In this way, inaugurating an optimal protection coordination strategy is accepted as the primary precondition in guaranteeing the safe protection of the coordination strategy. This study is aimed at lessening the overall operational time of the main relays in order to reduce the power outages. The coordination problem is conducted by adjusting only one parameter, namely the time multiplier setting (TMS). In electrical power relaying coordination, the objective function to be minimized is the sum of the overall operational time of the main relays. In the prescribed work, the coordination of the OCRs in the single- and multi-loop distribution network is realized as an optimization issue. The optimization is accomplished by means of JAYA algorithm. The suggested technique depends on the idea that the result acquired for a certain issue ought to pass near the finest result and avert the worst result. This technique involves only the common control factors and does not involve specific control factors. JAYA is adopted to OCR problem and run 20 times with the same initial condition for each case study, and it has been realized that for every run, the JAYA algorithm converges to the global optimum values requiring less number of iterations and computational time. The results obtained from JAYA algorithm are compared with other evolutionary and up-to-date algorithms, and it was determined that JAYA outperforms the other techniques.

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Cloud Provider's Response to Multiple Models of Attack Behaviors

Recent Patents on Engineering ◽

10.2174/1872212112666180918165944 ◽

2019 ◽

Vol 13 (4) ◽

pp. 325-333

Author(s):

Xu Liu ◽

Xiaoqiang Di ◽

Jinqing Li ◽

Huamin Yang ◽

Ligang Cong ◽

...

Keyword(s):

Stackelberg Game ◽

Multiple Models ◽

Theoretic Model ◽

Cloud Provider ◽

Game Model ◽

Attack Behavior ◽

Behavior Model ◽

Protection Strategy ◽

Behavior Models ◽

Optimal Protection

Background: User behavior models have been widely used to simulate attack behaviors in the security domain. We revised all patents related to response to attack behavior models. How to decide the protected target against multiple models of attack behaviors is studied. Methods: We utilize one perfect rational and three bounded rational behavior models to simulate attack behaviors in cloud computing, and then investigate cloud provider’s response based on Stackelberg game. The cloud provider plays the role of defender and it is assumed to be intelligent enough to predict the attack behavior model. Based on the prediction accuracy, two schemes are built in two situations. Results: If the defender can predict the attack behavior model accurately, a single-objective game model is built to find the optimal protection strategy; otherwise, a multi-objective game model is built to find the optimal protection strategy. Conclusion: The numerical results prove that the game theoretic model performs better in the corresponding situation.

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