ARCHIVES
Research Article
Optimal DG Placement for Loss Minimization and Voltage Profile Improvement Using Optimization Techniques: A Review
Monica Verghese1
Tanu Rizvi2
1M. Tech Scholar, Department of Electrical Engineering, SSTC, Bhilai, C.G, India. 2Assistant Professor, Department of Electrical Engineering, SSTC, Bhilai, C.G, India.
Published Online: March-April 2023
Pages: 359-363
Cite this article
No DOIReferences
1. M.Pushpanjalli, M.S.Sujatha, “A Navel multi objective under frequency load shedding in a micro grid using genetic algorithm”,
International journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, ISSN: 2278-8875, Vol:4, Issue:6,
June,2015.
2. M. Kashyap, A. Mittal, and S. Kansal, “Optimal placement of distributed generation using genetic algorithm approach,” Lecture Notes in Electrical Engineering, vol. 476, pp. 587–597, 2019.
3. A. Ali, D. Raisz, and K. Mahmoud, “Optimal oversizing of utility-owned renewable DG inverter for voltage rise prevention in MV
distribution systems,” International Journal of Electrical Power & Energy Systems, vol. 105, pp. 500–513, 2019.
4. M. Pesaran, P. D. Huy, and V. K. Ramachandaramurthy, “A review of the optimal allocation of distributed generation: objectives,
constraints, methods, and algorithms,” Renewable and Sustainable Energy Reviews, vol. 75, pp. 293–312, 2017.
5. S. A. ChithraDevi, L. Lakshminarasimman, and R. Balamurugan, “Stud Krill herd algorithm for multiple DG placement and sizing in a
radial distribution system,” Engineering Science and Technology, an International Journal, vol. 20, no. 2, pp. 748–759, 2017.
6. S. Kamel, A. Selim, W. Ahmed, and F. Jurado, “Single- and multi-objective optimization for photovoltaic distributed generators
implementation in probabilistic power flow algorithm,” Electrical Engineering, vol. 102, no. 1, pp. 331–347, 2019.
7. Chattoraj, Juhi, Arpan Dwivedi, and Dr Yogesh Pahariya. "Enhancement of power quality in SAPS system with multilevel inverter." Int. J.Eng. Sci. Res. Technol. 6.5 (2017): 779-788.
8. M. Ghosh, S. Kumar, S. Mandal, and K. K. Mandal, “Optimal sizing and placement of DG units in radial distribution system using cuckoo search algorithm,” 2021
9. S. Kumar, K. K. Mandal, and N. Chakraborty, “Optimal DG placement by multi-objective opposition based chaotic differential evolution for techno-economic analysis,” Applied Soft Computing, vol. 78, pp. 70–83, 2019.
10. A. Onlam, D. Yodphet, R. Chatthaworn, C. Surawanitkun, A. Siritaratiwat, and P. Khunkitti, “Power loss minimization and voltage stability improvement in electrical distribution system via network reconfiguration and distributed generation placement using novel adaptive shuffled frogs leaping algorithm,” Energies, vol. 12, no. 3, p. 553, 2019.
11. Dwivedi, Arpan, and Yogesh Pahariya. "Design and Analysis of 1.4 MW Hybrid Saps System for Rural Electrification in Off-Grid
Applications." International Journal of Energy and Power Engineering 11.11 (2017): 1143-1147.
12. A. P. Sirat, H. Mehdipourpicha, N. Zendehdel, and H. Mozafari, “Sizing and allocation of distributed energy resources for loss reduction using heuristic algorithms,” in Proceedings of the 2020 IEEE Power and Energy Conference at Illinois, PECI 2020, Champaign, IL USA, February 2020.
13. A. M. Helmi, R. Carli, M. Dotoli, and H. S. Ramadan, “Efficient and sustainable reconfiguration of distribution networks via metaheuristic optimization,” IEEE Transactions on Automation Science and Engineering, vol. 19, no. 1, 2021.
14. T. Agheb, I. Ahmadi, and A. Zakariazadeh, “Optimum sizing and placement of wind turbines in distribution networks considering correlation of load demand and wind power,” Iranian Journal of Electrical and Electronic Engineering, vol. 17, no. 3, p. 1916, 2021.
15. K. Balu and V. Mukherjee, “Optimal siting and sizing of distributed generation in radial distribution system using a novel student
psychology-based optimization algorithm,” Neural Computing & Applications, vol. 33, pp. 1–29, 2021.
16. E. A. Al-Ammar, “ABC algorithm based optimal sizing and placement of DGs in distribution networks considering multiple objectives,” Ain Shams Engineering Journal, vol. 12, no. 1, pp. 697–708, 2021.
17. Hussain, A.; Shah, S.D.; Arif, S.M. Heuristic optimisation-based sizing and siting of DGs for enhancing resiliency of autonomous microgrid networks. IET Smart Grid. 2019, 2, 269–282.
18. Dwivedi A, Pahariya Y. Design and analysis of hybrid multilevel inverter for asymmetrical input voltages. Journal of Electrical Engineering & Technology. 2021 Nov;16(6):3025-36.
19. Moaidi, F.; Moaidi, M. Optimal Placement and Sizing of Distributed Generation in Microgrid for Power Loss Reduction and Voltage Profile Improvement. World Acad. Sci. Eng. Technol. Int. J. Energy Power Eng. 2019, 18, 13
20. Gkaidatzis, P.A.; Bouhouras, A.S.; Sgouras, K.I.; Doukas, D.I.; Christoforidis, G.C.; Labridis, D.P. Efficient RES penetration under optimal distributed generation placement approach. Energies 2019, 12, 1250.
21. Mehta, P.; Bhatt, P.; Pandya, V. Optimal selection of distributed generating units and its placement for voltage stability enhancement and energy loss minimization. Ain Shams Eng. J. 2018, 9, 187–201.
22. Dehghani, M.; Ghiasi, M.; Niknam, T.; Kavousi-Fard, A.; Shasadeghi, M.; Ghadimi, N.; Taghizadeh-Hesary, F. Blockchain-Based Securing of Data Exchange in a Power Transmission System Considering Congestion Management and Social Welfare. Sustainability 2021, 13, 90
23. Murty, V.V.; Kumar, A. Optimal, D.G integration and network reconfiguration in microgrid system with realistic time varying load model using hybrid optimisation. IET Smart Grid. 2019, 2, 192–202.
24. Hong, H.; Hu, Z.; Guo, R.; Ma, J.; Tian, J. Directed graph-based distribution network reconfiguration for operation mode adjustment and service restoration considering distributed generation. J. Mod. Power Syst. Clean Energy 2017, 5, 142–149.
25. Jamali, A.A.; Nor, N.M.; Ibrahim, T.; Romlie, M.F. An analytical approach for the sizing and siting of battery-sourced inverters in
distribution networks. In Proceedings of the 2016 6th International Conference on Intelligent and Advanced Systems (ICIAS), Kuala Lumpur, Malaysia, 15–17 August 2016; pp. 1–6.
26. Rajput, A.S., Dwivedi, A., Dwivedi, P., Rajput, D.S., Pattanaik, M. (2022). Read–Write Decoupled Single-Ended 9T SRAM Cell for Low
Power Embedded Applications. In: Smys, S., Bestak, R., Palanisamy, R., Kotuliak, I. (eds) Computer Networks and Inventive Communication Technologies . Lecture Notes on Data Engineering and Communications Technologies, vol 75. Springer, Singapore.
27. Ang, S.; Leeton, U. Optimal placement and size of distributed generation in radial distribution system using whale optimization
algorithm. Suranaree J. Sci. Technol. 2019.
International journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, ISSN: 2278-8875, Vol:4, Issue:6,
June,2015.
2. M. Kashyap, A. Mittal, and S. Kansal, “Optimal placement of distributed generation using genetic algorithm approach,” Lecture Notes in Electrical Engineering, vol. 476, pp. 587–597, 2019.
3. A. Ali, D. Raisz, and K. Mahmoud, “Optimal oversizing of utility-owned renewable DG inverter for voltage rise prevention in MV
distribution systems,” International Journal of Electrical Power & Energy Systems, vol. 105, pp. 500–513, 2019.
4. M. Pesaran, P. D. Huy, and V. K. Ramachandaramurthy, “A review of the optimal allocation of distributed generation: objectives,
constraints, methods, and algorithms,” Renewable and Sustainable Energy Reviews, vol. 75, pp. 293–312, 2017.
5. S. A. ChithraDevi, L. Lakshminarasimman, and R. Balamurugan, “Stud Krill herd algorithm for multiple DG placement and sizing in a
radial distribution system,” Engineering Science and Technology, an International Journal, vol. 20, no. 2, pp. 748–759, 2017.
6. S. Kamel, A. Selim, W. Ahmed, and F. Jurado, “Single- and multi-objective optimization for photovoltaic distributed generators
implementation in probabilistic power flow algorithm,” Electrical Engineering, vol. 102, no. 1, pp. 331–347, 2019.
7. Chattoraj, Juhi, Arpan Dwivedi, and Dr Yogesh Pahariya. "Enhancement of power quality in SAPS system with multilevel inverter." Int. J.Eng. Sci. Res. Technol. 6.5 (2017): 779-788.
8. M. Ghosh, S. Kumar, S. Mandal, and K. K. Mandal, “Optimal sizing and placement of DG units in radial distribution system using cuckoo search algorithm,” 2021
9. S. Kumar, K. K. Mandal, and N. Chakraborty, “Optimal DG placement by multi-objective opposition based chaotic differential evolution for techno-economic analysis,” Applied Soft Computing, vol. 78, pp. 70–83, 2019.
10. A. Onlam, D. Yodphet, R. Chatthaworn, C. Surawanitkun, A. Siritaratiwat, and P. Khunkitti, “Power loss minimization and voltage stability improvement in electrical distribution system via network reconfiguration and distributed generation placement using novel adaptive shuffled frogs leaping algorithm,” Energies, vol. 12, no. 3, p. 553, 2019.
11. Dwivedi, Arpan, and Yogesh Pahariya. "Design and Analysis of 1.4 MW Hybrid Saps System for Rural Electrification in Off-Grid
Applications." International Journal of Energy and Power Engineering 11.11 (2017): 1143-1147.
12. A. P. Sirat, H. Mehdipourpicha, N. Zendehdel, and H. Mozafari, “Sizing and allocation of distributed energy resources for loss reduction using heuristic algorithms,” in Proceedings of the 2020 IEEE Power and Energy Conference at Illinois, PECI 2020, Champaign, IL USA, February 2020.
13. A. M. Helmi, R. Carli, M. Dotoli, and H. S. Ramadan, “Efficient and sustainable reconfiguration of distribution networks via metaheuristic optimization,” IEEE Transactions on Automation Science and Engineering, vol. 19, no. 1, 2021.
14. T. Agheb, I. Ahmadi, and A. Zakariazadeh, “Optimum sizing and placement of wind turbines in distribution networks considering correlation of load demand and wind power,” Iranian Journal of Electrical and Electronic Engineering, vol. 17, no. 3, p. 1916, 2021.
15. K. Balu and V. Mukherjee, “Optimal siting and sizing of distributed generation in radial distribution system using a novel student
psychology-based optimization algorithm,” Neural Computing & Applications, vol. 33, pp. 1–29, 2021.
16. E. A. Al-Ammar, “ABC algorithm based optimal sizing and placement of DGs in distribution networks considering multiple objectives,” Ain Shams Engineering Journal, vol. 12, no. 1, pp. 697–708, 2021.
17. Hussain, A.; Shah, S.D.; Arif, S.M. Heuristic optimisation-based sizing and siting of DGs for enhancing resiliency of autonomous microgrid networks. IET Smart Grid. 2019, 2, 269–282.
18. Dwivedi A, Pahariya Y. Design and analysis of hybrid multilevel inverter for asymmetrical input voltages. Journal of Electrical Engineering & Technology. 2021 Nov;16(6):3025-36.
19. Moaidi, F.; Moaidi, M. Optimal Placement and Sizing of Distributed Generation in Microgrid for Power Loss Reduction and Voltage Profile Improvement. World Acad. Sci. Eng. Technol. Int. J. Energy Power Eng. 2019, 18, 13
20. Gkaidatzis, P.A.; Bouhouras, A.S.; Sgouras, K.I.; Doukas, D.I.; Christoforidis, G.C.; Labridis, D.P. Efficient RES penetration under optimal distributed generation placement approach. Energies 2019, 12, 1250.
21. Mehta, P.; Bhatt, P.; Pandya, V. Optimal selection of distributed generating units and its placement for voltage stability enhancement and energy loss minimization. Ain Shams Eng. J. 2018, 9, 187–201.
22. Dehghani, M.; Ghiasi, M.; Niknam, T.; Kavousi-Fard, A.; Shasadeghi, M.; Ghadimi, N.; Taghizadeh-Hesary, F. Blockchain-Based Securing of Data Exchange in a Power Transmission System Considering Congestion Management and Social Welfare. Sustainability 2021, 13, 90
23. Murty, V.V.; Kumar, A. Optimal, D.G integration and network reconfiguration in microgrid system with realistic time varying load model using hybrid optimisation. IET Smart Grid. 2019, 2, 192–202.
24. Hong, H.; Hu, Z.; Guo, R.; Ma, J.; Tian, J. Directed graph-based distribution network reconfiguration for operation mode adjustment and service restoration considering distributed generation. J. Mod. Power Syst. Clean Energy 2017, 5, 142–149.
25. Jamali, A.A.; Nor, N.M.; Ibrahim, T.; Romlie, M.F. An analytical approach for the sizing and siting of battery-sourced inverters in
distribution networks. In Proceedings of the 2016 6th International Conference on Intelligent and Advanced Systems (ICIAS), Kuala Lumpur, Malaysia, 15–17 August 2016; pp. 1–6.
26. Rajput, A.S., Dwivedi, A., Dwivedi, P., Rajput, D.S., Pattanaik, M. (2022). Read–Write Decoupled Single-Ended 9T SRAM Cell for Low
Power Embedded Applications. In: Smys, S., Bestak, R., Palanisamy, R., Kotuliak, I. (eds) Computer Networks and Inventive Communication Technologies . Lecture Notes on Data Engineering and Communications Technologies, vol 75. Springer, Singapore.
27. Ang, S.; Leeton, U. Optimal placement and size of distributed generation in radial distribution system using whale optimization
algorithm. Suranaree J. Sci. Technol. 2019.
Related Articles
2023
A Mobile Application to Promote the Idea of Recycling
2023
Web Based Printing Press Management System (WBPPMS)
2023
Review: CFD Analysis Of triangular, square and Circular Shaped Helical Coil Heat Exchanger by Using Titanium Oxide Nano fluid
2023
Review: Steady and Transient Thermal Analysis of 100 Cc Engine at 3000c, 5000c & 7000c
2023
Overview of Advancement of Inventory Models for Deteriorating Items with Time Based Uniform Price
2023
Enhanced Dynamic Voltage Restorer for Improving the Power Quality Using RETO Algorithm
Share Article
Or copy link
https://theijire.com/archives/optimal-dg-placement-for-loss-minimization-and-voltage-profile-improvement-using-optimization-techniques-a-review
*Instagram doesn't support direct link sharing from web. Copy the link and share it in your Instagram story or post.