A Study of ATC Losses, Tools, Techniques and Ongoing Applications in Smart Grid

A Study of ATC Losses, Tools, Techniques and Ongoing Applications in Smart Grid

© 2022 by IJETT Journal
Volume-70 Issue-3
Year of Publication : 2022
Authors : Naveen Kumar, Gopal Singh

How to Cite?

Naveen Kumar, Gopal Singh, "A Study of ATC Losses, Tools, Techniques and Ongoing Applications in Smart Grid," International Journal of Engineering Trends and Technology, vol. 70, no. 3, pp. 140-150, 2022. Crossref, https://doi.org/10.14445/22315381/IJETT-V70I3P216

The requirement & habit of devices and energy are exponentially cumulative day by day. Green energy, clean energy, and energy 24x7 are nothing but the requisition of today’s hex. There are a lot of sources/resources of energy that can be converted to electrical/mechanical/light and any other obligatory form. But on the other hand, there are some hurdles/losses that happen during the Generation / Convert / Transmission / Distribution process. We are incompetent to eliminate anything to zero, but it is conceivable to minimize at a confident level. In this paper, we have tried to determine/examine security / technical/commercial losses. Moreover, the study also helps us to propose a solution to condense all types of losses and errors.

IoT Applications, Tools, Smart Grid, Communication, Power Analysis.

[1] Naman et al., Load and their schemes Analysis of Distribution Network Using Linear Data Structure, M.Tech thesis Y.I.T. Jaipur, (2016).
[2] Sinan Küfeo?lu, Michael Pollitt & Karim Anaya, Electric Power Distribution in the World: Today and Tomorrow, https://www.researchgate.net/publication/327057595
[3] Abdullah Mahmoudi, Seyed Hossein Hosseinian, Direct Solution of Distribution System Load Flow Using Forward/Backward Sweep.https://www.researchgate.net/publication/261155665
[4] M. Mahesh Kumar, A Study of Reactive Power Compensation in Power System and Its Compensation Techniques Special Issue NCRTEEFOSS-2016 IJEST
[5] Samarjit Bhattacharyya, Dr. A Choudhury, Prof H.R. Jariwala, Case Study On Power Factor Improvement ISSN: 0975-5462 3 (12)(2011)
[6] A. Rabiee, H. A. Shayanfar and N. Amjady, A New Framework for Reactive Power Market Considering Power System Security Iranian Journal of Electrical & Electronic Engineering, 5(3)(2016)
[7] Kumar, N., & Singh, G. (2019). Energy Efficient Load Optimization Techniques for Smart Grid with Futuristic Ideas. International Journal of Engineering and Advanced Technology, 9(1) (2019) 4327–4331. https://doi.org/10.35940/ijeat.a1778.109119.
[8] Climate Group.: The and GeSI, SMART 2020: Enabling the Low Carbon Economy in the Information Age (2008),
[9] Benjamin Barán, Multi-objective Reactive Power Compensation, 0-7803-7287-5/01/IEEE
[10] Wenjuan Zhang, Review of Reactive Power Planning: Objectives, Constraints, and Algorithms, IEEE TRANSACTIONS ON POWER SYSTEMS, 22(4)(2007).
[11] B.L.Theraja, A.K.Theraja, A Textbook of Electrical Technology, S. CHAND Publication
[12] Prasad K., Sahoo N. C., Chaturvedi A. and Ranjan R, A Simple Approach in Branch Current Computation In Load Flow Analysis Of Radial Distribution Systems, International Journal for Electrical Engineering Education, 44(1)(2007)1.
[13] D.Roy Choudhury, Network and System New Age Publication
[14] Jakub Kepka, Reactive Power Compensation Master Thesis, Wroclam University of Technology, (2017)
[15] N. Kumar and G. Singh, A Novel Algorithm to Improve the Power Quality for the Smart Grid and Integration with the Optimization Framework. International Journal of Engineering Trends and Technology, 69(9)272-280. DOI: https://ijettjournal.org/archive/ijett-v69i9p233
[16] European Commission: European SmartGrids Technology Platform: Vision and Strategy for Europes Electricity Networks of the Future. Brussels (2006).
[17] http://www.theclimategroup.org/assets/resources/publications/Smart2020Report.pdf
[18] J. M. Guerrero, P. C. Loh, T.-L. Lee, and M. Chandorkar, Advanced control architectures for intelligent microgrids—Part II: Power quality, energy storage, and AC/DC microgrids, IEEE Transactions on Industrial Electronics, 60,(2013)1263-1270.
[19] S. Y. M. Mousavi, A. Jalilian, M. Savaghebi, and J. M. G. GE, Autonomous Control of Current and Voltage Controlled DG Interface Inverters for Reactive Power Sharing and Harmonics Compensation in Islanded Microgrids, IEEE Transactions on Power Electronics, 1(1) 2018.
[20] Atkinson, R., Castro, D.: Digital Quality of Life Understanding the Personal & Social Benefits of the Information Technology Revolution. In: The Information Technology and Innovation Foundation, Washington DC (2008)
[21] Department of Energy: The smart Grid – an introduction (2008)
[22] Tsoukalas, L.H., Gao, R.: From Smart Grids to an Energy Internet: Assumptions, Architectures and Requirements. In: DRTP, (2008) 94–98
[23] LeMay, M., Nelli, R., Gross, G., Gunter, C. A.: An Integrated Architecture for Demand Response Communications and Control. In: Proceedings of the 41st Hawaii International Conference on System Sciences, (2008)1–10.
[24] Singh, R. & N. S. Gill. Use of IoT and Machine Learning for Efficient Power Management Through Smart Grid: A Review | International Journal of Advanced Science and Technology. (2020).
[25] Singh, R., Gill, N. S. & Gulia P. (2021). A Systematic Review of Security in Smart Grid Infrastructure Journal of Theoretical and Applied Information Technology. 99(23)(2021). ISSN: 1992-8645 and E-ISSN: 1817-3195.
[26] Miller, J.: The Smart Grid How Do We Get There? Smart Grid Ne (2008).
[27] Smart grid and power quality issues. (n.d.). ScienceDirect.com | Science, health and medical journals, full-text articles and books. https://www.sciencedirect.com/science/article/pii/B9780081024935000108
[28] (n.d.). Springer. https://link.springer.com/content/pdf/10.1007/978-3-642-19322-4_15.pdf
[29] C. H. Da Silva, R. Pereira, L. Silva, G. Lambert-Torres, R. Gonzatti, S. Ferreira, et al., Smart impedance: Expanding the active hybrid series power filter concept, in IECON 2012-38th Annual Conference on IEEE Industrial Electronics Society, (2012) 1416-1421.
[30] A. Baloi, A. Pana, and F. Molnar-Matei, Contributions on harmonic impedance monitoring in smart grids using virtual instruments, in Innovative Smart Grid Technologies (ISGT Europe), 2nd IEEE PES International Conference and Exhibition on, (2011)1-5.
[31] R. C. Dugan, M. F. McGranaghan, and H. W. Beaty, Electrical power systems quality, New York, NY: McGraw-Hill,| (1) (1996).
[32] K. T. Mok, M. Wang, S. C. Tan, and S. Y. Hui, DC Electric Springs - A New Technology for Stabilizing DC Power Distribution Systems, IEEE Transactions on Power Electronics, (1)1(2016).
[33] J. He, Y. W. Li, F. Blaabjerg, and X. Wang, Active harmonic filtering using current-controlled, grid-connected DG units with closed-loop power control, Power Electronics, IEEE Transactions on, (29) (2014) 642-653.
[34] J. C. Vasquez, J. M. Guerrero, A. Luna, P. Rodríguez, and R. Teodorescu, Adaptive droop control applied to voltage-source inverters operating in grid-connected and islanded modes, Industrial Electronics, IEEE Transactions on, (56)(2009)4088-4096.
[35] J. M. Guerrero, M. Chandorkar, T.-L. Lee, and P. C. Loh, Advanced control architectures for intelligent microgrids, part I: decentralized and hierarchical control, IEEE Transactions on Industrial Electronics, 60(2013)1254-1262.
[36] L. Meng, F. Tang, M. Savaghebi, J. C. Vasquez, and J. M. Guerrero, Tertiary control of voltage unbalance compensation for optimal power quality in islanded microgrids, IEEE Transactions on Energy Conversion, 29(2014)802-815.
[37] Application of IoT and available at: https://ittrue.tistory.com/17 last accessed on ( 2021)
[38] Y. Naderi, S. H. Hosseini, S. G. Zadeh, B. Mohammadi-Ivatloo, M. Savaghebi, and J. M. Guerrero, An optimized direct control method applied to the multilevel inverter for microgrid power quality enhancement, International Journal of Electrical Power & Energy Systems, 107(2019)496-506.
[39] Agarwal, V., & Tsoukalas, L. H. Smart Grids: Importance of Power Quality. Energy-Efficient Computing and Networking, (2011).136–143. doi:10.1007/978-3-642-19322-4_15.
[40] Retrieved from:
https://encryptedtbn0.gstatic.com/images?q=tbn:ANd9GcSn12XQJASqwpwNnqgXL1yk7vHr2Ebh7qkKXQ&usqp=CAU Last accessed on (2021).