1. Ishraque, M. F., A. Rahman, S. A. Shezan, G. Shafiullah, A. H. Alenezi, M. D. Hossen and N. E. N. Bintu (2024). "Design Optimization of a Grid-Tied Hybrid System for a Department at a University with a Dispatch Strategy-Based Assessment." Sustainability 16(7): 2642.

  2. Ishraque, M. F., S. A. Shezan, G. Shafiullah, S. Muyeen, T. Alharbi, A. H. Alenezi and M. D. Hossen (2024). "Operational assessment of solar-wind-biomass-hydro-electrolyser hybrid microgrid for load variations using model predictive deterministic algorithm and droop controllers." e-Prime-Advances in Electrical Engineering, Electronics and Energy 9: 100745.

  3. Paul, L. C., M. T. R. Jim, T. Rani, S. Muyeen, M. Karaaslan, S. A. Shezan, M. F. Ishraque and V. Akdogan (2024). "A low-profile antenna with parasitic elements and a DGS-based partial ground plane for 5G/WMAN applications." Discover Applied Sciences 6(1): 22.

  4. Punitha, K., A. Rahman, A. Radhamani, R. S. Nuvvula, S. A. Shezan, S. R. Ahammed, P. P. Kumar and M. F. Ishraque (2024). "An Optimization Algorithm for Embedded Raspberry Pi Pico Controllers for Solar Tree Systems." Sustainability 16(9): 3788.

  5. Shaik, M., D. N. Gaonkar, R. S. Nuvvula, S. Muyeen, S. A. Shezan and G. Shafiullah (2024). "Nataf-KernelDensity-Spline-based point estimate method for handling wind power correlation in probabilistic load flow." Expert Systems with Applications 245: 123059.

  6. Tabassum, F., M. R. Islam, M. I. Azim, M. A. Rahman, M. O. Faruque, S. A. Shezan and M. Hossain (2024). "Secured energy data transaction for prosumers under diverse cyberattack scenarios." Sustainable Energy, Grids and Networks 40: 101555.

  7. K. E. Fahim, L. C. De Silva, F. Hussain, S. A. Shezan, and H. Yassin, "An Evaluation of ASEAN Renewable Energy Path to Carbon Neutrality," Sustainability, vol. 15, no. 8, p. 6961, 2023.

  8. M. F. Ishraque, A. Rahman, S. A. Shezan, and S. Muyeen, "Grid connected microgrid optimization and control for a coastal Island in the Indian Ocean," Sustainability, vol. 14, no. 24, p. 16697, 2022.

  9. M. F. Ishraque, A. Rahman, S. A. Shezan, and G. Shafiullah, "Operation and assessment of a microgrid for maldives: Islanded and grid-tied mode," Sustainability, vol. 14, no. 23, p. 15504, 2022.

  10. J. J. R. Melo, M. F. Ishraque, G. Shafiullah, and S. A. Shezan, "Centralized monitoring of a cost efficient PLC‐SCADA based islanded microgrid considering dispatch techniques," The Journal of Engineering, vol. 2023, no. 8, p. e12293, 2023.

  11. S. M. Rizvi, A. Abu-Siada, N. Das, M. F. Ishraque, and S. A. Shezan, "Active Power Sharing Method for Microgrids with Multiple Dispatchable Generation Units using Modified FFC and IFC Mode Controller," IEEE Access, 2023.

  12. S. A. Shezan et al., "Selection of the best dispatch strategy considering techno-economic and system stability analysis with optimal sizing," Energy strategy reviews, vol. 43, p. 100923, 2022.

  13. S. A. Shezan et al., "Optimization and control of solar-wind islanded hybrid microgrid by using heuristic and deterministic optimization algorithms and fuzzy logic controller," Energy Reports, vol. 10, pp. 3272-3288, 2023.

  14. S. A. Shezan et al., "Evaluation of different optimization techniques and control strategies of hybrid microgrid: a review," Energies, vol. 16, no. 4, p. 1792, 2023.

  15. M. D. Hossen, M. F. Islam, M. F. Ishraque, S. A. Shezan, and S. Arifuzzaman, “Design and Implementation of a Hybrid Solar-Wind-Biomass Renewable Energy System considering Meteorological Conditions with the Power System Performances,” International Journal of Photoenergy, vol. 2022, 2022.

  16. M. F. Ishraque and S. A. Shezan et al., “Optimal sizing and assessment of a renewable rich standalone hybrid microgrid considering conventional dispatch methodologies,” Sustainability, vol. 13, no. 22, p. 12734, 2021.

  17. P. P. Kumar and S. A. Shezan et al., “Optimal Operation of an Integrated Hybrid Renewable Energy System with Demand-Side Management in a Rural Context,” Energies, vol. 15, no. 14, p. 5176, 2022.

  18. R. Muppidi, R. S. Nuvvula, S. Muyeen, S. A. Shezan, and M. F. Ishraque, “Optimization of a Fuel Cost and Enrichment of Line Loadability for a Transmission System by Using Rapid Voltage Stability Index and Grey Wolf Algorithm Technique,” Sustainability, vol. 14, no. 7, p. 4347, 2022.

  19. M. M. Rana and S. A. Shezan et al., “A Comparative Analysis of Peak Load Shaving Strategies for Isolated Microgrid Using Actual Data,” Energies, vol. 15, no. 1, p. 330, 2022.

  20. M. M. Rana and S. A. Shezan et al., “Efficient Energy Distribution for Smart Household Applications,” Energies, vol. 15, no. 6, p. 2100, 2022.

  21. S. K. Sarker and S. A. Shezan et al., “Ancillary Voltage Control Design for Adaptive Tracking Performance of Microgrid Coupled With Industrial Loads,” IEEE Access, vol. 9, pp. 143690-143706, 2021.

  22. S. A. Shezan, K. N. Hasan, A. Rahman, M. Datta, and U. Datta, “Selection of appropriate dispatch strategies for effective planning and operation of a microgrid,” Energies, vol. 14, no. 21, p. 7217, 2021.

  23. S. A. Shezan et al., “Selection of the best dispatch strategy considering techno-economic and system stability analysis with optimal sizing,” Energy Strategy Reviews, vol. 43, p. 100923, 2022.

  24.  S. A. Shezan et al., “Effective dispatch strategies assortment according to the effect of the operation for an islanded hybrid microgrid,” Energy Conversion and Management: X, vol. 14, p. 100192, 2022.

  25.  S. A. Shezan et al., “Assortment of dispatch strategies with the optimization of an islanded hybrid microgrid,” MIST International Journal of Science and Technology, vol. 10, no. 1, pp. 15-24, 2022.

  26. Shezan, S. K. A., Das, N., & Mahmudul, H. (2017). Techno-economic analysis of a smart-grid hybrid renewable energy system for Brisbane of Australia. Energy Procedia, 110, 340-345.

  27. M. F. Ishraque, S. A. Shezan, M. Ali, and M. Rashid, “Optimization of load dispatch strategies for an islanded microgrid connected with renewable energy sources,” Applied Energy, vol. 292, p. 116879, 2021.

  28. M. F. Ishraque, S. A. Shezan et al., “Techno-Economic and Power System Optimization of a Renewable Rich Islanded Microgrid Considering Different Dispatch Strategies,” in IEEE Access, vol. 9, pp. 77325-77340, 2021.

  29. S. A. Shezan, “Design and demonstration of an islanded hybrid microgrid for an enormous motel with the appropriate solicitation of superfluous energy by using iHOGA and matlab,” International Journal of Energy Research, vol. 45, no. 2020, pp. 5567– 5585, 2020.

  30. S. Shezan, “Feasibility analysis of an Islanded Hybrid Wind-Diesel-Battery Microgrid with Voltage and Power Response for Offshore Islands,” Journal of Cleaner Production, vol. 288, p. 125568, 2020.

  31. M. F. Ishraque, S. A. Shezan, J. N. Nur, and M. S. Islam, “Optimal Sizing and Assessment of an Islanded Photovoltaic‐Battery‐Diesel Generator Microgrid Applicable to a Remote School of Bangladesh,” Engineering Reports, p. e12281, 2020.

  32. Rashid, S., Rana, S., Shezan, S., AB Karim, S., & Anower, S. (2016). Optimized design of a hybrid PV-wind-diesel energy system for sustainable development at coastal areas in Bangladesh. Environmental Progress & Sustainable Energy, 36(1), 297-304. 

  33. Hasan Mahmudul, M. M. R., SK. A. Shezan, H.S.C. Metselaar, S. Mekhilef, Rana Sohel, SBA Karim, WNI Badiuzaman, HM. (2016). Temperature Regulation of Photovoltaic Module Using Phase Change Material: A Numerical Analysis and Experimental Investigation. International Journal of Photoenergy, 2016, 1-8. 

  34. Shezan, S., Al‐Mamoon, A., & Ping, H. (2018). Performance investigation of an advanced hybrid renewable energy system in ndonesia. Environmental Progress & Sustainable Energy, 37(4), 1424-1432. 

  35. Shezan, S., & Ping, H. (2017). Techno-Economic and Feasibility Analysis of a Hybrid PV-Wind-Biomass-Diesel Energy System for Sustainable Development at Offshore Areas in Bangladesh. Current Alternative Energy, 1(1), 20-32. 

  36. Shezan, S. A. (2019). Optimization and assessment of an off‐grid photovoltaic–diesel–battery hybrid sustainable energy system for remote residential applications. Environmental Progress & Sustainable Energy, 38(6). 

  37. Shezan, S. A., & Das, N. (2017). Optimized Hybrid Wind-Diesel Energy System with Feasibility Analysis. Technology and Economics of Smart Grids and Sustainable Energy, 2(1), 9. 

  38. Shezan, S. A., Julai, S., Kibria, M., Ullah, K., Saidur, R., Chong, W., & Akikur, R. (2016). Performance analysis of an off-grid wind-PV (photovoltaic)-diesel-battery hybrid energy system feasible for remote areas. Journal of Cleaner Production, 125(2016), 121-132. 

  39. Shezan, S. A., Saidur, R., Ullah, K. R., Hossain, A., Chong, W. T., & Julai, S. (2015). Feasibility analysis of a hybrid off-grid wind-DG-battery energy system for the eco-tourism remote areas. Clean Technologies and Environmental Policy, 17, 2417-2430. 

Published Date
07 Sha’ban 1446
Last Change Date
07 Sha’ban 1446
Rating
Contact
Shezan@nbu.edu.sa
Office Hours
Sunday 08:00 am03:30 pm