Geothermal power in the Philippines
Geothermal power in the Philippines is the country's second largest source of renewable energy, and the fifth largest source of energy overall. Among sources of renewable energy, it is second only to hydroelectric power, although both sources are surpassed by the amount of energy drawn from coal, oil, and natural gas in that order.[1]
The Philippines is one of the world's top producers of geothermal power, owing to its location along the Ring of Fire zone of Pacific volcanoes.[2] The Geothermal Education Office and a 1980 article titled "The Philippines geothermal success story" by Rudolph J. Birsic published in the journal Geothermal Energy noted the remarkable geothermal resources of the Philippines.[3][4] During the World Geothermal Congress 2000 held in Beppu, Ōita Prefecture of Japan held from May to June 2000, it was reported that the Philippines is the largest consumer of electricity from geothermal sources and highlighted the potential role of geothermal energy in providing energy needs for developing countries.[5]
According to a 2015 study by Bertani, the Philippines ranks second to the United States worldwide in producing geothermal energy. The study notes that in 2015, the US had a capacity of 3450 megawatts from geothermal power, while the Philippines had a capacity of 1870 megawatts. The Philippines was then followed by Indonesia, which had 1340 MWe.[6]
Early statistics from the Institute for Green Resources and Environment stated that Philippine geothermal energy provides 16% of the country's electricity.[7] By 2005, geothermal energy accounted for 17.5% of the country's electricity production.[8] More recent statistics from the IGA show that combined energy from the nation's six geothermal fields, located in the islands of Luzon, Leyte, Negros and Mindanao, still accounts for approximately 17% of the country's electricity generation.
Geothermal Powerplants in the Philippines
editLeyte island is where the first geothermal power plant, a 3 megawatt wellhead unit, started operations in July 1977.[4] Larger-scale commercial production of geothermal power began in 1979 with the commissioning of a 110-megawatt plant at Tiwi field in Albay province. IGA figures[9] as of December 2009 show the nation's installed geothermal capacity stands at 1904 megawatts, with gross generation of 10,311 gigawatt-hrs for all of 2009, representing 17% of the nation's total power generation mix.
As of 2017, the International Renewable Energy Agency estimates the Philippines' net installed geothermal energy capacity to at 1.9 gigawatts (GW)—out of the global geothermal installed capacity of 12.7 GW ranking behind the United States (2.5 GW) and ahead of Indonesia (1.5 GW).[10] It also estimates that the country can potentially generate 2.1 GW from geothermal sources by 2025.[11]
The country commissioned the 12-megawatt Maibarara Geothermal Power Plant-2 on March 9, 2018, in Santo Tomas, Batangas.[12]
Ownership of geothermal projects
editPrior to 2020, foreign investments in geothermal projects were limited by a constitutional provision which limited foreign ownership of public utilities in the Philippines to 40 percent.[13] On October 20, 2020, however, a modification of the implementing rules and regulations of the Renewable Energy Act of 2008 allowed an exception in the case of financial or technical agreements covering the large-scale exploration, development, and utilization of such resources, effectively allowing 100% ownership of any geothermal projects whose initial investment costs are over $50 million.[13][14]
See also
editReferences
edit- ^ U, Peter Lee; Center for Research and Communication, University of Asia and the Pacific; De Leon, R.E. (October 29, 2021), "Philippine Power Situationer: Investment Implications", Energy Services and Renewable Energy in the New Normal, Series of Economic Fora Session 6, Center for Local and Constitutional Reform, event occurs at 1:37:11, archived from the original on December 4, 2021
- ^ Morella, Cecil (October 10, 2018). "Going geothermal: Philippines revs up flagging green energy engine". ABS-CBN News. Retrieved January 17, 2019.
- ^ Geothermal Education Office - The Philippines
- ^ a b Birsic, R.J. The Philippines geothermal success story Geothermal Energy (vol. 8, Aug.-Sept. 1980, p. 35-44)
- ^ "World Geothermal Congress 2000". Archived from the original on May 23, 2009. Retrieved April 10, 2009.
- ^ Bertani, Ruggero (2016). "Geothermal power generation in the world 2010–2014 update report". Geothermics. 60: 31–43. doi:10.1016/j.geothermics.2015.11.003. Retrieved November 5, 2024. Archived 2024-11-05 at the Wayback Machine
- ^ "Institute for Green Resources and Environment: Asian Geothermal Symposium". Archived from the original on December 19, 2008. Retrieved April 10, 2009.
- ^ "International Energy Agency, Energy Statistic - Electricity/Heat in Philippines in 2005". Retrieved April 24, 2007.
- ^ http://www.geothermal-energy.org/216,welcome_to_our_page_with_data_for_philippines.html [dead link ]
- ^ Geothermal Power: Technology Brief. Abu Dhabi: International Renewable Energy Agency. 2017. p. 7. ISBN 978-92-9260-036-5.
- ^ Geothermal Power: Technology Brief. Abu Dhabi: International Renewable Energy Agency. 2017. p. 16. ISBN 978-92-9260-036-5.
- ^ Lectura, Lenie (March 12, 2018). "Maibarara Geothermal puts power plant online". Business Mirror. Retrieved January 17, 2019.
- ^ a b Fuentebella, Felix William B.; Center for Research and Communication, University of Asia and the Pacific; De Leon, R.E. (October 29, 2021), "Economic Liberalization in Geothermal Power Generation", Energy Services and Renewable Energy in the New Normal, Series of Economic Fora Session 6, Center for Local and Constitutional Reform, event occurs at 29:57, archived from the original on December 4, 2021
- ^ Rey, Aika (October 27, 2020). "Philippines allows 100% foreign ownership in large-scale geothermal projects". Retrieved January 26, 2024.