Singapore's state-owned utility SP plans to start up a 240MW peak (MWp) agrivoltaic project in Guangdong province's Huizhou city, which will be fully operational by the end of this year.
MWp refers to the maximum power output potential a solar farm has when reaching ideal conditions. SP expects the project to generate 7.5bn kWh of green electricity over the next 25 years, reduce coal use by 920,000t and avoid 4.46mn t/yr of carbon emissions.
The project's solar installation capacity is 240MW, and marks SP's largest solar investment in China, the company said on 5 September. SP has secured 1.45GW of solar projects in China to date, spanning 18 provinces and municipalities.
SP in May also partnered with China environmental technology solutions provider Qingdao Daneng Environmental Protection Equipment to invest and build a 90MW aquavoltaic farm in Qingdao city. This will power a green hydrogen facility in Qingdao, likely referring to Chinese refiner Sinopec's 4,500 t/yr facility.
The solar project has an investment value of over 76mn Singapore dollars ($58.5mn) and is on track to connect to the grid by the end of the year. SP expects it to produce 162mn kWh/yr of green electricity and reduce carbon emissions by 160,000 t/yr. The operational model will incorporate renewable energy generation, grid integration, demand-side management, and energy storage.
SP's first investment in solar assets was in June 2023, for 78MWp of agrivoltaics assets across four agricultural sites in the Dabu county of Meizhou city in Guangdong province. The project will generate 91.3GWh/yr of clean electricity, and reduce coal usage by almost 30,000t, which amounts to cutting more than 91,000 t/yr of carbon emissions. The operational date of this project was not disclosed.
SP in May entered a strategic alliance with Shanghai-based CMB Financial Leasing to obtain financing services, which is expected to reach up to 8bn yuan ($1.13bn) over the next three years, to support the firm's deployment of renewable energy solutions in China. The projects will span utility-scale solar farms, distributed solar photovoltaic, energy storage, and district cooling and heating.