Designing and Simulating Transformer Experiments under Dynamic Experiments
Keywords:Short Circuit Tests, Open circuit Tests, Transformer, AC.
Enormous power transformers are the main gear for the power lattice. Their dependability not just influences the accessibility of power in the inventory region, yet in addition influences the monetary working of an energy provider. The primary goal of this work of the improvement of the transformer testing simulating model on the MATLAB/SIMULINK climate.The testing which depends on generator and grid of the transformer, as well as the related outcomes in SIMULINK, will be part of the conceptual stage. In addition, the technique will look into the effects of transformer validation in the method relying on grid on devices which are connected to the grids. According to the findings, neither source has an impact on the parameter calculation of Open Circuit and Short Circuit assessments. Realistic situations, on the other hand, would necessitate testing which relies on grid, which would enable a broader variety of transformers of different ratings to be evaluated with increased current capacity. The effect of a mistake on the grid can be quickly assessed by looking at the destination of the mistake, the period of the mistake, and any dips that may have took place.
M. Singh, VishnuvarddhanTelukanta and KS “An Innovative Solution for Type Testing of Power Transformers”, From the JIJEEP Systems https://doi.org/10.1515/ijeeps-2018-0234.
Wenli F, ZhigangL,Shengwei M. “Cascading failure model in power grids using the complex network theory”. IET GenerTransmDistrib. 201610:3940–9.
Parasnath, P. Singh Bisht, S. Kumar Moharana, “Testing of Transformer for its Reliability”, CMRAES - 2016Vol. 4 Issue 02).
GeiblerD, LeibfriedT. “Short-circuit strength of power transformer windings-verification of tests by a finite element analysis-based model”. IEEETrans Power Delivery. 201732:1705–12.
JenaMK, S. SR, Panigrahi BK. “A new adaptive dependability-security approach to enhance wide area back-up protection of transmission system”.IEEETransSmart Grid. 2018;9:6378–86.
ZhaoS, Jia H, Fang D.“Partition-composition method for online detection of interconnected power system transient stability”.IETGenerTransm Distrib.2016;10:3529–38.
A.-Siada A, IslamS. “A novel online technique to detect power transformer winding faults”.IEEE Trans PowerDelivery. 2012;27:849–57.
H. H. H.De Silva, D. Jayamaha ,A. Lidula “Review on design and control of solid state transformer based microgrids”, AIMS Energy 2019, Vol 7, Issue06: 901-923. doi: 10.3934/energy.2019.6.901.
Md M. Islam, Gareth Lee &SujeewaNilendraHettiwatte “A review of condition monitoring techniques and diagnostic tests for lifetime estimation of power transformers”,Electrical Engineering volume 100, pp581–605 (2018).
Ashkezari AD “Evaluating the accuracy of different DGA techniques for improving the transformer oil quality interpretation”. In: Universities power engineering conference (AUPEC)2011 21st Australasian, 2011
How to Cite
Copyright (c) 2021 Ramesh Kumar Patel, Madhu Upadhyay
This work is licensed under a Creative Commons Attribution 4.0 International License.
IJOSCIENCE follows an Open Journal Access policy. Authors retain the copyright of the original work and grant the rights of publication to the publisher with the work simultaneously licensed under a Creative Commons CC BY License that allows others to distribute, remix, adapt, and build upon your work, even commercially, as long as they credit you for the original creation. Authors are permitted to post their work in institutional repositories, social media or other platforms.
Under the following terms:
- No additional restrictions — You may not apply legal terms or technological measures that legally restrict others from doing anything the license permits.