![]() Olatomiwa, L., Mekhilef, S., Ismail, M.S., Moghavvemi, M.: Energy management strategies in hybrid renewable energy systems: a review. Sawle, Y., Gupta, S.C., Bohre, A.K.: Review of hybrid renewable energy systems with comparative analysis of off-grid hybrid systems. Twaha, S., Ramli, M.A.M.: A review of optimization approaches for hybrid distributed energy generation systems: off-grid and grid-connected systems. Zia, M.F., Elbouchikhi, E., Benbouzid, M.: Microgrids energy management systems: a critical review on methods, solutions, and prospects. Īkinyele, D.: Techno-economic design and performance analysis of nanogrid systems for households in energy-poor villages. Quek, T.Y.A., Alvin Ee, W.L., Chen, W., Ng, T.S.A.: Environmental impacts of transitioning to renewable electricity for Singapore and the surrounding region: a life cycle assessment. Senthil Kumar, J., Charles Raja, S., Srinivasan, D., Venkatesh, P.: Hybrid renewable energy-based distribution system for seasonal load variations. Shouman, E.R.: International and national renewable energy for electricity with optimal cost effective for electricity in Egypt. IRENA: Global Energy, a Roadmap to 2050 by IRENA (2020). The proposed HRPP unit can be deployed in order to produce off-grid electricity to remote areas unreachable to the regional or national electricity grid. The combined units could generate power up to 20 KW. On top of that, 8 KW wind turbines can be placed at each junction point that covers the entire top surface with solar panels. Each of these can generate up to 24 KW in ideal conditions and there’s one at each corner of each 12 × 2-m floating unit. It supports hybrid offshore power generation platforms in order to produce off-grid electricity in remote areas. This paper proposes a novel and stand- alone HRPP that combines wind turbines, solar panels and water current energy all three together. Therefore, it is necessary to discover the most suitable hybrid combinations to develop HRPP more efficiently and also environment friendly. Due to the digital revolution, the consumption of electricity has been increased and there is a steady increase in the prices of petroleum products. It helps in the production of electricity in remote areas due to technological advancement in the field of renewable energy. HRPP is an emergent power generation technology that comprises a combination of distinct renewable energy systems. Recent days, the Hybrid Renewable Power Platform (HRPP) is disseminated widely as stand-alone power systems.
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