Analyzing Tidal Energy Scheme with Variable Inputs that are affected by Tides

Authors

  • Shivam Dixit
  • Prof. Pankaj Badgaiyan

DOI:

https://doi.org/10.24113/ijoscience.v8i2.472

Keywords:

Tidal Energy, Tides, Barrages, tidal streams, energy generator, tidal lagoons.

Abstract

Architecture of a tidal power station using a permanent magnet synchronous generator (PMSG) with a Maximum Power Point Tracking Algorithm and a grid-connected final output. The goal of this paper is to increase the power of a tidal power plant by using the MPPT algorithm, that is more accurate and consistent than the escalation automated system. It is required to boost the voltage and amperage accessible on the line to make the system more efficient in managing direct current loads on site after switching to three-phase alternating current. Expand the research to adapt the algorithm to adjustments in the tide and, as a result, changes in the conversion system's output power.

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Author Biographies

Shivam Dixit

M.Tech Scholar

Department of Energy Technology

Truba Institute Of Engineering & Information Technology

Bhopal, M.P, India

Prof. Pankaj Badgaiyan

Assistant Professor

Department of Energy Technology

Truba Institute Of Engineering & Information Technology

Bhopal, M.P, India

References

Ahmed G. Abo-Khalil & Ali S. Alghamdi, 2021. "MPPT of Permanent Magnet Synchronous Generator in Tidal Energy Systems Using Support Vector Regression," Sustainability, MDPI, Open Access Journal, vol. 13(4), pages 1-15, February.

Ali S. Alghamdi& Ali M. Eltamaly& M. S. Al-Saud & Praveen R. P. &KhairySayed& G. R. Bindu&IskanderTlili, 2019. "Design of State Feedback Current Controller for Fast Synchronization of DFIG in Wind Power Generation Systems," Energies, MDPI, Open Access Journal, vol. 12(12), pages 1-26, June.

Mamdooh Al-Saud &KhairySayed& Ahmed G. Abo-Khalil, 2020. "Sensorless Active and Reactive Control for DFIG Wind Turbines Using Opposition-Based Learning Technique," Sustainability, MDPI, Open Access Journal, vol. 12(9), pages 1-14, April.

KhairySayed&AymanAlhejji, 2019. "Dynamic Modeling of Wind Turbines Based on Estimated Wind Speed under Turbulent Conditions," Energies, MDPI, Open Access Journal, vol. 12(10), pages 1-25, May.

YunusEmami, Orang AsefAfshar, ArashEmdadi “Electricity Generation by the Tidal Barrages”, ICSGCE 2011: 27–30 September 2011, Chengdu, China, Energy Procedia 12 (2011) 928 – 935.

Eduardo ÁlvarezÁlvarez, Antonio Navarro-Manso “Design and feasibility study of a microgeneration system to obtain renewable energy from tidal currents”, Journal of Renewable and Sustainable Energy > Volume 6, Issue 3 > 10.1063/1.4878845.

K. P. Kim, M. R. Ahmed, and Y. H. Lee, “Conceptual design of a 100 kW energy integrated type bi-directional tidal current turbine,” AIP Conf. Proc. 1225, 650 (2010).

MattLewis, JamesMcNaughton “Power variability of tidal-stream energy and implications for electricity supply”, Energy, Volume 183, 15 September 2019, Pages 1061-1074.

Ko, D.H., Chung, J., Lee, K.S., Park, J.S. and Yi, J.H., 2019. “Current policy and technology for tidal current energy in Korea”, Energies, 12(9), 1807.

Jo, C.H., Lee, K.H. and Yim, J.Y., 2010. “A study on the interference effects for tidal current power rotors”, Science China Technological Sciences, 53(11), 3094–3101.

Y.H. and Lee, Jo, C.H., Lee, J.H., Rho, K.H., 2014. “Performance analysis of a HAT tidal current turbine and wake flow characteristics”, Renewable Energy, 65, 175–182.

Hwang, S.J., Tong, J.C.K. and Chan, J.C.L., 2018. “Implementation of tidal energy convertor in low current area”, Advances in Renewable Energies Offshore: Proceedings of the 3rd International Conference on Renewable Energies Offshore, CRC Press, Lisbon, pp. 169.

Funke, S.W., Farrell, P.E. and Piggott, M.D., 2014. “Tidal turbine array optimisation using the adjoint approach”, Renewable Energy, 63, 658–673.

S.J. and Lee, Jo, C.H., Hwang, , K.H., 2015a. “Tidal current energy resource assessment technique and procedure applied in western coastal region”, South Korea, Journal of Power and Energy Engineering, 9(4), 358–366.

Masters, I., Chapman, J.C., Willis, M.R. and Orme, J.A.C., 2011. “A robust blade element momentum theory model for tidal stream turbines including tip and hub loss corrections”, Journal of Marine Engineering & Technology, 10(1), 25–35

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Published

02/18/2022

How to Cite

Dixit, S. ., & Badgaiyan, P. P. . (2022). Analyzing Tidal Energy Scheme with Variable Inputs that are affected by Tides. SMART MOVES JOURNAL IJOSCIENCE, 8(2), 31–38. https://doi.org/10.24113/ijoscience.v8i2.472

Issue

Volume 8, Issue 2, February 2022

Section

Articles

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Copyright (c) 2022 Shivam Dixit, Prof. Pankaj Badgaiyan

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