Jump to content

Geothermal power in Indonesia

From Wikipedia, the free encyclopedia

This is an old revision of this page, as edited by WikiCleanerBot (talk | contribs) at 18:56, 18 April 2020 (v2.02b - Bot T12 - WP:WCW project (Punctuation in link)). The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

First successful geothermal test boring in Indonesia at Kawah Kamojang in 1926

Geothermal power in Indonesia is an increasingly significant source of renewable energy. As a result of its volcanic geology, it is often reported that Indonesia has 40% of the world's potential geothermal resources, estimated at 28,000 megawatts (MW).[1]

With an achievement of 1,924.5 MW it put Indonesia in second place in the world after the United States in utilizing geothermal power, shifting second position previously occupied by the Philippines[2]. In 2007, geothermal energy represented 1.9% of the country's total energy supply and 3.7% of its electric power.[3]

At the 2010 World Geothermal Congress in Bali, President Susilo Bambang Yudhoyono announced a plan to build 44 new geothermal plants by 2014, more than tripling capacity to 4,000 MW. By 2025, Indonesia aims to produce more than 9,000 MW of geothermal power, becoming the world's leading geothermal energy producer.[1] This would account for 5% of Indonesia's total energy needs.[3]

A detailed report on the geothermal sector in Indonesia issued in 2015 by the Asian Development Bank and World Bank, Unlocking Indonesia's Geothermal Potential, indicated that reforms in key areas of policy were likely to be needed to stimulate sustained expansion in the sector.

History

The first proposal on energy from volcanoes came in 1918 during the Dutch colonial era. In 1926, five test borings were drilled in Java's Kawah Kamojang field, the third being the first that was successful.[4] In the early 1980s, it was still discharging superheated steam from a depth of 66 metres at a temperature of 140 °C and a pressure of 3.5 to 4 bars. A prefeasibility study for electricity generation was initiated in 1972 by Geothermal Energy New Zealand.[5] The first generator was inaugurated in 1983 by President Suharto and subsequently expanded in 1987. Current capacity is 140 MW.[6]

Since the mid-1980s, Chevron, the world's largest geothermal power producer, has operated two geothermal fields in West Java at Salak and Darajat[7] with a combined capacity of around 365 MW.[8] Between 1989 and 1997 explorations were conducted at the Sibayak geothermal field in northern Sumatra,[9] and subsequently a 12 MW plant has been placed in operation.[10]

In 1991, the Indonesia Geothermal Association (Asosiasi Panasbumi Indonesia - API), a non-governmental organisation, was established to promote and advertise geothermal energy. It has approximately 500 members including geothermal experts, companies, and stakeholders.[3] The Wayang Windu Geothermal Power Station in West Java, owned by British Star Energy, has been in operation since 2000. It currently comprises two units with a total capacity of 227 MW. There are plans for a third unit of 127 MW which is expected to be on-stream by mid-2013.[11]

Exploration and development

Exploration of the Bedugul Geothermal Field in Bali started in 1974[12] and though production capacity was estimated at 175 MW in 2008, the project is on hold after being opposed by local residents.[13]

At the 2010 World Geothermal Congress in Bali, several companies were awarded the rights to develop geothermal fields and power plants: Golden Spike Indonesia won the tender to develop a power plant at Mount Ungaran in Central Java, Sokoria Geothermal Indonesia gained rights to develop a plant at Ende, on Flores island, while Supreme Energy was chosen to develop plants at Mount Rajabasa in Lampung and Solok in West Sumatra. These projects were estimated to require a total investment of US$1.68 billion.[14]

As of 2010, a total of 265 potential sites for plants have been identified across the country.[1] Development of the industry, however, involves a range of complex policy issues, some of which are proving to be a continuing source of controversy.[15] In mid-2011, for example, the Indonesian Government issued an expected regulation providing certain guarantees for investors with the aim of encouraging increased investment in the geothermal sector. However, investor response was guarded, suggesting that key aspects had not been addressed in the regulation.[16]

In late 2013, PT Pertamina Geothermal Energy (PGE) -- a geothermal business branch of state oil and gas company PT Pertamina—said that it planned to develop eight new geothermal plants with a total capacity of 655 MW (expected to require $2.0 bn of new investments). These included:

Column-generating template families

The templates listed here are not interchangeable. For example, using {{col-float}} with {{col-end}} instead of {{col-float-end}} would leave a <div>...</div> open, potentially harming any subsequent formatting.

Column templates
Type Family
Handles wiki
table code?
Responsive/
mobile suited
Start template Column divider End template
Float "col-float" Yes Yes {{col-float}} {{col-float-break}} {{col-float-end}}
"columns-start" Yes Yes {{columns-start}} {{column}} {{columns-end}}
Columns "div col" Yes Yes {{div col}} {{div col end}}
"columns-list" No Yes {{columns-list}} (wraps div col)
Flexbox "flex columns" No Yes {{flex columns}}
Table "col" Yes No {{col-begin}},
{{col-begin-fixed}} or
{{col-begin-small}}
{{col-break}} or
{{col-2}} .. {{col-5}}
{{col-end}}

Can template handle the basic wiki markup {| | || |- |} used to create tables? If not, special templates that produce these elements (such as {{(!}}, {{!}}, {{!!}}, {{!-}}, {{!)}})—or HTML tags (<table>...</table>, <tr>...</tr>, etc.)—need to be used instead.

Of these, several were to be financed with loans from World Bank and Japan International Cooperation Agency.[17]

In addition, work is starting on the Sarulla geothermal plant in North Sumatra with a total planned capacity of 320 MW. The plant has been on the books since the early 1990s but development was stalled over various issues. The plant, expected to cost around $1.65 billion, will be built with financial support from the Asian Development Bank along with the Japan Bank for International Cooperation and other lenders.[18] The first 110 MW started in 2017.[19]

Installed capacity

According to the Renewable Energy Policy Network's Renewables 2013 Global Status Report, Indonesia has the third largest installed generating capacity in the world in the geothermal sector. With 1.3 GW installed capacity, Indonesia trails only the United States (3.4 GW) and the Philippines (1.9 GW). However it leads Mexico (1.0 GW), Italy (0.9 GW), New Zealand (0.8 GW), Iceland (0.7 GW), and Japan (0.5 GW).[20]

Recent developments

In recent years, the Indonesian Government has announced plans for two 'fast-track' increases in the total capacity of Indonesia's electricity generation network of 10,000 MW each. Under the second 10,000 MW fast-track plan it was forecast that a relatively large share of 3,970 MW would be installed in geothermal plants. But under the first 10,000 MW fast-track plan, investment in the geothermal sector appears to be lagging.

  • September 2011: The Indonesian state-owned electricity utility Perusahaan Listrik Negara (PLN) announced that the outlook was that by 2014 only 1,200 MW of power was likely to be produced from geothermal plants. The then-president director of the PLN, Dahlan Iskan, said that plans to develop a number of geothermal plants were behind schedule because private sector investors were reluctant to invest as a result of the perceived risks in the sector.[21]
  • July 2012: A senior official from the PLN reported that there were 13 geothermal power plants that were still stuck in the exploration stages and were likely to miss development deadlines. Problems mentioned included disappointing results at drilling sites, lack of adequate supporting infrastructure (mainly roads), and difficulties that firms faced in obtaining required permits for their activities from the forestry department and local governments.[22]
  • June 2013: The first International Geothermal Conference and Exhibition was held in Indonesia. The relatively slow development of the sector attracted comment. The Minister for Energy and Mineral Resources announced that the prices to be paid for energy supplied by geothermal suppliers would be increased to encourage activity in the sector. Speaking at the conference, the Indonesian Vice President Boediono called for changes in policy to speed up development.[23]
  • June 2013: Work on a significant geothermal project in Lampung in South Sumatra (planned size, 220 MW) was suspended following local protests. Local villagers in the Mount Rajabasa area claimed that development of the project would damage the social structure of the community. The Forestry Minister, Zulkifli Hasan, sided with the local community saying that the company developing the site, PT Supreme Energy, would need to convince the local villagers of the safety of the project. In response, the chair of the Indonesian Geothermal Association said that the government should shut all geothermal projects if top officials were "half-hearted" in their commitment to investors.[24]
  • August 2014: The Indonesian Parliament approved a new Geothermal Law aimed at facilitating development in the sector. Key points of the new law included the following: (a) Geothermal activities would no longer be considered mining activities; development of geothermal resources can be carried out in forest conservation areas. Under the existing Forestry Law, mining operations are prohibited in protected forests. (b) Tenders for geothermal projects will be called by the central government instead of by local administrations. (c) New geothermal projects will be developed under new, more favorable, pricing arrangements. (d) Local administrations will receive a portion of the revenues derived from geothermal resources. (e) Quite detailed provisions were set out regarding such things as surveys of geothermal sites, exploration, tendering procedures, the size of working areas, arrangements for determining prices and administrative sanctions, obligations of the holders of geothermal licenses, and so on.[25]

Policy issues

Expansion in the sector appears to be being held back by a range of factors including an uncertain regulatory environment (including, especially, uncertainty over land laws) and the perceived risks of development.[26] The Indonesian Government's plans for development of the geothermal sector rely largely on private sector investment.[27] But numerous reports indicate that private sector investors are concerned about a range of risks including technical (geological) risks, regulatory risks stemming from uncertain government policy, and financial risks arising from the pricing policies determined by the Indonesian Government.[28] For example, coal has been indirectly subsidised through the Domestic Market Obligation policy, which requires coal companies to sell at a government-specified, subsidised rate to the national utility.[29] By comparison, geothermal power has enjoyed relatively unfavourable tender processes and is sold at higher prices. This makes it difficult for geothermal plants to compete with conventional fuels.[30]

There is disagreement within the Indonesian Government as to how to mitigate risks or, where that is not possible, who should bear these risks. Policy makers in the power sector, with an eye to meeting the government's official investment targets, are often inclined to the view that at least some of the risks should be borne by the Indonesian Government through the national budget managed by the Ministry of Finance.[31] Official policy from the Ministry of Finance has traditionally been cautious, resisting the suggestion that unspecified risks should be borne by the Indonesian budget.

In response to reports about certain of the risks that private sector investors were concerned about, in mid-2011 the government issued a regulation intended to provide guarantees that the state electricity utility PLN would meet financial obligations to independent power producers (IPPs) who invested in the geothermal sector. But the regulation was quickly criticised by representatives of private investors as being too limited and for failing to clarify important concerns.[32]

Pricing policy

Prices have been another important policy issue in the sector. In an effort to encourage private sector investment, the Indonesian government has been establishing a feed-in tariff scheme by instructing state electricity utility PLN to purchase power from geothermal projects at various rates ranging from around 6.5 US cents to over 12 US cents per kWh.[33] The government is also preparing a regulation that is expected to specify the price that the PLN must purchase power from geothermal plans in the second 10,000 MW fast-track electricity sector program which the government has announced; this regulation is expected to be finalised by early 2012.[34]

Environmental issues

According to the Ministry of Forestry, around 80% of geothermal reserves are located in designated conserved forest areas. The 2009 mineral and coal mining law lists geothermal exploration as a mining activity so a presidential decree would be required to allow geothermal activities conserved forest areas. According to the ministry, geothermal mining is unlikely to cause environmental harm.[35] In May 2011 the Indonesian government imposed a two-year moratorium on logging. However this excepts the energy sector, including geothermal activities.[36]

See also

References

  1. ^ a b c Tom Allard: "Indonesia's hot terrain set to power its future", The Sydney Morning Herald, 1 May 2010, retrieved 25 August 2010
  2. ^ "Indonesia reaches 1,925 MW installed geothermal power generation capacity". Think GeoEnergy - Geothermal Energy News. Retrieved 2019-01-10.
  3. ^ a b c International Energy Agency: Energy Policy Review of Indonesia, Paris, 2008 Archived 2010-12-29 at the Wayback Machine ISBN 978-92-64-04828-7, retrieved 26 August 2010
  4. ^ M. Neumann Van Padang:The steam borings in Kawah Kamodjang, in Bulletin of Volcanology, Volume 23, Number 1, 251-255, doi:10.1007/BF02596652, retrieved 25 August 2010
  5. ^ Wilson, Raymond: Stage 1 Development of the Kamojang Geothermal Power Station and Steamfield - West Java, Indonesia, Offshore South East Asia Show, Singapore, 1982, retrieved 26 August 2010
  6. ^ Indonesia Power: Kamojang Generation Business Unit Archived 2010-11-02 at the Wayback Machine, retrieved 26 August 2010
  7. ^ Hillary Brenhouse:Indonesia Seeks to Tap Its Huge Geothermal Reserves, in the New York Times, July 26, 2010, retrieved 25 August 2010
  8. ^ Reuters:Chevron Indonesia plans to expand geothermal power, Nov 1, 2007, retrieved 25 August 2010
  9. ^ Atmojo,J.O. et al: Evaluation of Reservoir Characteristics Using Well Data of Sibayak Geothermal Field, North Sumatra, Indonesia in Mem Fac Eng Kyushu Univ, Vol.60, No.3, 2000, retrieved 30 August 2010
  10. ^ PT Pertamina: Working Area Maps Archived 2011-07-15 at the Wayback Machine (in Indonesian), retrieved 30 August 2010
  11. ^ www.power-technology.com: Wayang Windu Geothermal Power Station, retrieved 25 August 2010[unreliable source?]
  12. ^ Hochstein, M. P. et al.:The Bedugul Geothermal Field, Bali, in International Geothermal Association (IGA) News, No.59, 2005 Archived 2008-08-07 at the Wayback Machine, retrieved 11 August 2010
  13. ^ Davies, Ed and Lema, Karen:Geothermal-rich SE Asia struggles to tap earth's power, in Reuters Jun 28, 2008, retrieved 11 August 2010
  14. ^ Indonesian Embassy, Rome, retrieved 30 August 2010
  15. ^ Surya Darma, Sugiharto Harsoprayitno, Herman Darnel Ibrahim, Agusman Effendi, Agus Triboesono (2010), 'Geothermal in Indonesia: Government Reguatlions and Power Utilities, Opportunities and Challenges of its Development'[permanent dead link], in Proceedings World Geothermal Congress 2010, Bali Indonesia, 25–30 April.
  16. ^ Rangga D. Fadillah, Govt guarantee for IPP projects is 'unclear', The Jakarta Post, 13 September 2011.
  17. ^ Yessar Rosendar:Pertamina Geothermal Receives $1b In Loans to Develop 3 Power Plants, in Jakarta Globe, December 14, 2009 Archived January 18, 2010, at the Wayback Machine, retrieved 30 August 2010
  18. ^ Raras Chahyafitri, 'Sarulla plant construction set for March', The Jakarta Post, 27 November 2013.
  19. ^ http://www.power-technology.com/projects/sarullgeothermalpowe/
  20. ^ Renewables 2013 Global Status Report[permanent dead link]
  21. ^ Rangga D. Fadillah, 'Electricity: Delays may hit several geothermal projects', The Jakarta Post, 1 October 2011.
  22. ^ Rabby Pramudatama, 'PLN's geothermal plants likely to miss deadline', The Jakarta Post, 26 July 2012.
  23. ^ Slamet Susanto, 'RI's geothermal energy still "untouched"', The Jakarta Post, 13 June 2013, and {http://www.thejakartapost.com/news/2013/06/13/govt-set-raise-prices-geothermal-power.html Govt set to raise prices of geothermal power'], The Jakarta Post, 13 June 2013.
  24. ^ Amal S. Azwar, 'Protests freeze out Lampung geothermal power plant', The Jakarta Post, 20 June 2013.
  25. ^ Raras Cahyafitri, 'Legal barrier to geothermal development removed', The Jakarta Post, 27 August 2014.
  26. ^ Hanan Nugroho, 'Geothermal: Challenges to keep the development on track', The Jakarta Post, 23 October 2013.
  27. ^ A comment on the issues holding geothermal issues back from the private sector point of view is in an interview with a senior Chevron executive at 'Executive Column: Better pricing structure needed for geothermal development: Cheveron', The Jakarta Post, 5 May 2014.
  28. ^ Rangga D. Fadillah, 'Geothermal firm awaiting govt contract assurance', The Jakarta Post, 18 August 2011
  29. ^ Chattopadhyay D, Jha S (2014). "The impact of energy subsidies on the power sector in Southeast Asia". The Electricity Journal. 27 (4): 70–83. doi:10.1016/j.tej.2014.04.007.
  30. ^ Colenbrander S, Gouldson A, Sudmant AH, Papargyropoulou E (2015). "The economic case for low-carbon development in rapidly growing developing world cities: A case study of Palembang, Indonesia". Energy Policy. 80: 24–35. doi:10.1016/j.enpol.2015.01.020.
  31. ^ See the suggestions for reducing risk for private investors from the president director of the Indonesian electricity company in Rangga D. Fadillah, 'Electricity: Delays may hit several geothermal projects', The Jakarta Post, 1 October 2011.
  32. ^ Rangga D. Fadillah, 'Govt guarantee for IPP projects is 'unclear' ', The Jakarta Post, 13 September 2011.
  33. ^ 'Power deals signed to up electrification rate', The Jakarta Post, 4 November 2011. See also Kemal Azis Stamboel, 'Fuel mix policy and energy security', The Jakarta Post, 2 January 2012.
  34. ^ Rangga D. Fadillah, 'More regulations planned to boost geothermal use', The Jakarta Post, 8 November 2011.
  35. ^ Rangga D Fadillah, 'Govt to allow geothermal mining activities in conserved forests' in The Jakarta Post, 13 January 2011
  36. ^ Reuters, 20 May 2011