Solar panels are installed on the floating system on Đa Mi reservoir. Việt Nam’s first float solar farm in Bình Thuận Province was successfully connected to the power grid in May this year. — Photo courtesy of DHD/ADB
Solar energy, especially photovoltaics (PV), is developing fast globally, driven by technological advancements and the falling cost of solar cells and modules.
Most solar energy installations are either ground-mounted or on the rooftops of commercial buildings or private residences. Floating solar, the term used to refer to floating PV structure installed on water bodies, such as lakes, reservoirs, mining or irrigation ponds, is expected to become the ‘next frontier’ of the solar energy industry.
Việt Nam’s first floating solar farm on Đa Mi Reservoir was connected to the power grid in May this year. The VNĐ1.2 trillion (US$51.5 million) plant, developed by Đa Nhim-Hàm Thuận-Đa Mi Hydropower Joint Stock Company (DHD), has a total capacity of 47.5MWp (megawatt peak) and power output of about 70 million kWh per year.
The project features 143,940 solar panels on 50ha of the reservoir in Tánh Linh and Hàm Thuận Bắc districts of Bình Thuận Province. In the first phase, it is operating at a capacity of 20.5MWp.
According to Nguyễn Trọng Oánh, chairman of DHD, floating solar systems are similar to land-based solar power except the solar panels are installed on pontoon-type floats, with an anchoring and mooring system holding the platform in place.
Besides the advantage of using existing electricity transmission infrastructure at hydropower sites, eliminating the need for major site preparation, floating solar farms have been proven to bring higher energy yield thanks to the cooling effects of water and decreased presence of dust which hurts panel performance.
“Under the same solar radiation, floating solar installations will be more efficient than ground-mounted or rooftop solar power systems,” Oánh told Việt Nam News.
Last week, Đồng Nai People’s Committee proposed the Ministry of Industry and Trade develop eight floating solar farms on the man-made Trị An Lake. Spanning more than 7,100ha of water surface across different districts in the province, these floating solar projects would have total capacity of 5,400MWp and be added to the national power development plan by 2025.
“The potential for floating solar is quite promising in Việt Nam, especially in existing hydropower reservoirs,” Jackie B Surtani, Director of Infrastructure Finance Division, ADB Private Sector Operations Department, told Việt Nam News.
Surtani said ADB had conducted “quick look” satellite imagery surveys of Việt Nam’s hydropower resources and found there would easily be room for several gigawatts of floating solar in existing reservoirs. Protected bays are a second possibility for floating solar and could allow for hundreds of additional megawatts.
Hybrid hydro-PV system
Since the first floating PV system was built in 2007 in Japan, the floating solar market has been well established in many countries, with China the largest player. However, the development of hybrid systems that combine hydropower and floating solar is still at an early stage.
“The combination of hydropower and float solar is definitely feasible,” Surtani said.
Hydropower and solar can be co-located, with either floating or ground-mounted solar around a hydropower reservoir, he said, adding that using existing hydropower infrastructure reduces installation costs of the solar farm. Depending on daily demand, it is possible to reduce hydropower output during the day and bring it back up in the evening, with solar covering a portion of peak demand in the afternoon.
“The ADB-DHD floating project shows that the solar output can be coupled with hydropower output. In practice, hydropower output can be varied to smooth out or ‘mask’ the intermittency of solar output,” he said, saying that blending hydro and solar output required an intelligent energy management system, and this technology is proven and currently being used in Việt Nam.
On the difficulties of developing Việt Nam’s first hydro-floating solar system, Oánh said the project had received mixed feedback on its feasibility and efficacy.
“We’ve spent a lot of time researching, measuring radiation and environmental parameters, visiting similar works at home and abroad to support and prove the project's efficiency,” Oánh said.
Since being put into operation in June, the performance of Đa Mi solar power plant has been high thanks to the effective solar panels, which are naturally cooled by natural cooling surface temperatures, he said.
Project progress was also a major challenge. Oánh said to be able to sell electricity at 9.35 US cents/kWh, all solar power plants must be operational by June 30, 2019, thus the company rushed to complete the project and successfully run it commercially in early June, a month ahead of schedule.
He said the project was contributing to the development of the province by recruiting local workers, easing electricity shortages for the province and the southern region, as well as paying tax to the local budget.
The combination of hydro and solar power on the reservoirs could be a new direction in electricity in Việt Nam but challenges remain.
“In my experience, utilising hydroelectric reservoirs to install solar power platforms will be only effective for lakes with low water level fluctuations,” Oánh said, adding that if water levels fluctuate greatly, the cost of the anchoring system would be very high.
Both local and foreign investors have shown interest in floating solar power in Việt Nam. Vietnam Electricity is considering building floating solar farms on lakes and reservoirs in Bình Thuận, Đồng Nai and Gia Lai provinces.
Companies from South Korea and Norway have carried out surveys in Việt Nam, seeking partners to build floating solar power plants on lakes.
“The next phase of the renewable programme in Việt Nam should focus on leveraging private sector competition to reduce the cost of renewable energy generation. If this goes through an auction or some other mechanism, Việt Nam can benefit from lower generation costs,” Surtani said.
Technology is moving fast and Việt Nam needs to catch up with the trend to rapidly transition to a green energy market.