Co-Location Potential of Floating PV with Hydropower Plants: Case Study in Ecuador
This study explores the potential for co-locating floating photovoltaics (FPVs) with existing hydropower plants (HPPs) in Ecuador. Ecuador’s heavy reliance on hydropower for electricity generation, combined with recent blackouts caused by prolonged dry seasons, underscores the importance of diversif...
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MDPI AG
2025-02-01
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| author | Carlos D. Rodríguez-Gallegos Oktoviano Gandhi César A. Rodríguez-Gallegos Manuel S. Alvarez-Alvarado |
| author_facet | Carlos D. Rodríguez-Gallegos Oktoviano Gandhi César A. Rodríguez-Gallegos Manuel S. Alvarez-Alvarado |
| author_sort | Carlos D. Rodríguez-Gallegos |
| collection | DOAJ |
| description | This study explores the potential for co-locating floating photovoltaics (FPVs) with existing hydropower plants (HPPs) in Ecuador. Ecuador’s heavy reliance on hydropower for electricity generation, combined with recent blackouts caused by prolonged dry seasons, underscores the importance of diversifying energy sources. The integration of FPVs with HPPs offers a promising opportunity to enhance energy security by reducing dependency on a single energy source and improving economic, electrical, and environmental outcomes. In this paper, we assess all HPPs in Ecuador and quantify the potential performance of FPV systems when installed at their sites. Our results show that FPV systems can not only contribute additional electricity to the grid but also improve HPP performance by reducing water evaporation from reservoirs and maintaining generation capacity during dry seasons, when solar irradiation is typically higher. To model the energy production, yield, and performance of the FPV systems, we applied RINA’s methodology to estimate representative weather conditions for each site and simulate FPV performance, accounting for system design loss factors. Additionally, we calculated the water savings resulting from FPV installation. Our findings reveal that, out of approximately 70 HPPs in Ecuador, 11 present favorable conditions for large-scale FPV deployment. Among these, Cumbayá HPP (40 MW) exhibited the most suitable conditions, supporting a maximum FPV capacity of 17 MWp. Marcel Laniado de Wind HPP (213 MW) and Mazar HPP (170 MW) were also identified as optimal candidates, each with potential FPV capacities equal to their installed HPP capacities. While this study primarily aims to provide scientific evidence on the potential of FPV-HPP co-location, the results and methodology can also guide Ecuadorian government authorities and investors in adopting FPV technology to strengthen the country’s energy infrastructure. |
| format | Article |
| id | doaj-art-49edf22a227f4cd2a77ef5bc5dca3559 |
| institution | Kabale University |
| issn | 2673-9941 |
| language | English |
| publishDate | 2025-02-01 |
| publisher | MDPI AG |
| record_format | Article |
| series | Solar |
| spelling | doaj-art-49edf22a227f4cd2a77ef5bc5dca35592025-08-20T03:44:05ZengMDPI AGSolar2673-99412025-02-0151310.3390/solar5010003Co-Location Potential of Floating PV with Hydropower Plants: Case Study in EcuadorCarlos D. Rodríguez-Gallegos0Oktoviano Gandhi1César A. Rodríguez-Gallegos2Manuel S. Alvarez-Alvarado3RINA Tech Renewables Australia, RINA Consulting, Melbourne, VIC 3000, AustraliaSolar Energy Research Institute of Singapore (SERIS), National University of Singapore (NUS), Singapore 117574, SingaporeDepartment of Mechanical and Industrial Engineering, Concordia University, Montreal, QC H3G 1M8, CanadaFaculty of Electrical and Computer Engineering, Escuela Superior Politécnica del Litoral (ESPOL), Guayaquil EC090112, EcuadorThis study explores the potential for co-locating floating photovoltaics (FPVs) with existing hydropower plants (HPPs) in Ecuador. Ecuador’s heavy reliance on hydropower for electricity generation, combined with recent blackouts caused by prolonged dry seasons, underscores the importance of diversifying energy sources. The integration of FPVs with HPPs offers a promising opportunity to enhance energy security by reducing dependency on a single energy source and improving economic, electrical, and environmental outcomes. In this paper, we assess all HPPs in Ecuador and quantify the potential performance of FPV systems when installed at their sites. Our results show that FPV systems can not only contribute additional electricity to the grid but also improve HPP performance by reducing water evaporation from reservoirs and maintaining generation capacity during dry seasons, when solar irradiation is typically higher. To model the energy production, yield, and performance of the FPV systems, we applied RINA’s methodology to estimate representative weather conditions for each site and simulate FPV performance, accounting for system design loss factors. Additionally, we calculated the water savings resulting from FPV installation. Our findings reveal that, out of approximately 70 HPPs in Ecuador, 11 present favorable conditions for large-scale FPV deployment. Among these, Cumbayá HPP (40 MW) exhibited the most suitable conditions, supporting a maximum FPV capacity of 17 MWp. Marcel Laniado de Wind HPP (213 MW) and Mazar HPP (170 MW) were also identified as optimal candidates, each with potential FPV capacities equal to their installed HPP capacities. While this study primarily aims to provide scientific evidence on the potential of FPV-HPP co-location, the results and methodology can also guide Ecuadorian government authorities and investors in adopting FPV technology to strengthen the country’s energy infrastructure.https://www.mdpi.com/2673-9941/5/1/3floating photovoltaicshydropower plantsco-location assessmentelectrical performancewater savings |
| spellingShingle | Carlos D. Rodríguez-Gallegos Oktoviano Gandhi César A. Rodríguez-Gallegos Manuel S. Alvarez-Alvarado Co-Location Potential of Floating PV with Hydropower Plants: Case Study in Ecuador Solar floating photovoltaics hydropower plants co-location assessment electrical performance water savings |
| title | Co-Location Potential of Floating PV with Hydropower Plants: Case Study in Ecuador |
| title_full | Co-Location Potential of Floating PV with Hydropower Plants: Case Study in Ecuador |
| title_fullStr | Co-Location Potential of Floating PV with Hydropower Plants: Case Study in Ecuador |
| title_full_unstemmed | Co-Location Potential of Floating PV with Hydropower Plants: Case Study in Ecuador |
| title_short | Co-Location Potential of Floating PV with Hydropower Plants: Case Study in Ecuador |
| title_sort | co location potential of floating pv with hydropower plants case study in ecuador |
| topic | floating photovoltaics hydropower plants co-location assessment electrical performance water savings |
| url | https://www.mdpi.com/2673-9941/5/1/3 |
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