How Geothermal Could Cleanly Power the Planet: Indonesia's Tale

[katarabhumi]

The Earth's heat offers a clean and steady source of electricity, though it doesn't come cheap.

By : Wendy Koch
National Geographic
PUBLISHED MARCH 3, 2015

A 237-acre tea plantation surrounds the Wayang Windu Geothermal Power Station in Pangalengan, Indonesia, on the island of Java.

PANGALENGAN, Indonesia—In this serene corner of Java, farmworkers pick tea leaves from striped-green hills threaded with pipes. The three-foot-wide pipes carry steam from a broiling underground reservoir, a reminder of the volcano that once erupted.

Here, along the volcano-rich Ring of Fire, the Wayang Windu Geothermal Power Station uses the Earth's heat to produce energy that emits few or no greenhouse gases. It aims to expand, because it's discovered what may be the world's biggest hot steam well.

"We have a very big resource," says plant engineer Boyke Bratakusuma, as he points to the increasingly deep exploratory wells that Jakarta-based Star Energy is drilling in the shadow of the Wayang and Windu Mountains.

Indeed, this archipelago nation has the world's largest known geothermal reserves, and it desperately needs clean energy. Now the fourth most populous country, it's developing so rapidly that a quarter of its people still live in homes without electricity. Awash in cheap coal, it relies on coal-fired power plants for nearly half its electricity and plans to expand that usage.

An alternative to fossil fuels, geothermal has potential far beyond Indonesia. It could help tame global warming by producing copious amounts of renewable energy. The United Nations estimates global reserves at about 200 gigawatts—double the total capacity of all U.S. nuclear power plants. Yet despite decades of effort, only 6.5 percent of that potential has been tapped.

Indonesia's story explains why.

Volcanoes Offer Peril and Promise

A chain of more than 17,000 islands, Indonesia has dozens of active volcanoes—more than any other country. Those volcanoes offer the nation a potent energy source via deep underground reservoirs of hot water that seeps out of molten rock. Power plants can extract steam from those reservoirs and use it to turn turbines that generate electricity.

NG STAFF
SOURCE: VOLCANOLOGICAL SURVEY OF INDONESIA

Geothermal energy has ancient roots. The Romans used it to heat buildings in the city of Pompeii, and in medieval times people fought wars over lands with hot springs. Such "hot spots" dot the globe. In the United States, they're mostly found in Alaska, California, Oregon, and Nevada.

Indonesia currently produces the third largest amount of geothermal power, after the U.S. and the Philippines. Still, it's tapping less than 5 percent of its potential 29-gigawatt capacity. It has 62 projects under way, and if all get built, Indonesia could overtake the Philippines by the end of this year and the U.S. in another decade or two, according to a 2015 industry analysis by the Washington-based Geothermal Energy Association.

"Its resources are so startlingly good," says Paul Brophy, president of EGS Inc., a California-based firm that recently did consulting work for Indonesia's government on the geothermal industry.

The country, aiming to triple geothermal output from 1.4 to 4.9 gigawatts by 2019 and to hit 10 gigawatts by 2025, is trying to fast-track projects.

Last year it amended a law to stop defining geothermal development as "mining" and thus allow work in protected forests, where many resources are located. The revision also shifts project approval from local to federal officials.

"That's critical," Brophy says, noting that the central government has more geothermal expertise.

Implementing the new provisions will take time, says Josh Nordquist of U.S.-based Ormat Technologies, which has invested in geothermal projects in Indonesia. Doing so could be a "real burden" for the government, he says, but adds, "I believe in the end it will work."

The Wayang Windu plant extracts steam and hot water from underground reservoirs, using the steam to turn turbines that generate electricity.

Also promising is multimillion-dollar funding from the World Bank and other development groups, including Climate Investment Funds. In September, at the UN Climate Summit in New York City, Indonesia joined the U.S. and 22 other countries to form the Global Geothermal Alliance, aimed at reducing the financial risks of exploratory drilling.

Fiscal Challenges Linger

"Geothermal power plants are more complicated to build than solar and wind projects," says Ben Matek, industry analyst for the Geothermal Energy Association. "It's much easier to plop solar panels on a farm."

Yet geothermal offers something some other renewables don't—continuous power. With a steady supply of steam, geothermal power plants don't have to wait for the sun to shine or the wind to blow and can operate 24/7.

Attempts to tap that potential come with substantial financial risk. Developers can spend millions of dollars just to build access roads to exploratory wells that might not deliver enough steam to make a project pay off. Some delay or pull out of projects when initial wells lack promise. Last year Chevron halted exploration in Lampung, Sumatra.

"This is the world's most common issue for geothermal power," says Herman Darnel Ibrahim, vice president of International Geothermal Association and former president of the Indonesian Geothermal Association.

Exploration risks, along with permitting and pricing problems, have slowed geothermal's growth. "There's a huge backlog of projects in Indonesia," says Matek.

He and other industry-watchers expect Indonesia will boost its geothermal capacity in the coming decade but perhaps not as quickly or extensively as its government would like.

Investors remain wary. Some U.S. companies that worked in Indonesia in the late 1990s lost a lot of money when the currency, the rupiah, was drastically devalued.

Three-foot-wide pipes carry steam and hot water across the tea plantation.

"You have to have some stability," says Kevin Wallace of Idaho-based POWER Burns and Roe, who helped engineer the third unit of Chevron's Darajat geothermal power plant on Java, Indonesia's most populous island. Chevron has a second plant, Salak, on Java—home to six of Indonesia's nine operational geothermal power plants.

Wallace says there can be year-to-year fluctuations in how much the government pays for electricity and its overall support of geothermal energy, posing potential problems for developers with costly long-term projects.

Some projects have stalled for other reasons. Local officials stopped a proposed one on Bali, because residents were concerned about the impact of drilling in the Bedugul forests. Opposition may be softening, and the project may be reactivated, however, as increasing tourism on the island has caused frequent power shortages.

Other plants are moving ahead. In a landmark deal last year, after decades of delay, the mammoth 330-megawatt Sarulla project in Sumatra secured $1.2 billion in financing from its partners, which include Ormat and Medco Power Indonesia.

Unlike prior geothermal projects, it got funding for all three of its planned units at the same time, and the first unit is slated to begin operation next year.

Why Wayang Windu Waits

Wayang Windu has no such guarantee. Its financing has come piecemeal, and its story stretches back even further. In 1985 a geological survey found hot spots near where the volcano erupted a thousand or so years ago, but it wasn't until 1994 that the government signed a contract to allow a 400-megawatt geothermal plant.

Years went by before the first unit opened in 2000 and the second in 2009. Their combined 227-megawatt capacity taps only a fraction of the area's potential. Another two or three units could be added if JStar Energy got a higher price for its electricity.

"The company is negotiating with the government," says Bratakusuma, the plant engineer, noting that a single well can cost $10 million to drill. Though the government said last year that it would pay between 11.8 cents and 29.6 cents per kilowatt-hour to attract projects, Star Energy gets paid less than the new minimum under its 30-year contract.

For now, the plant waits for a better price. In the meantime, it has become part of this rural community where local men pull crop-laden wooden carts and workers in cone-shaped straw hats pick tea leaves.

In the nearby village, powered by its electricity, Star Energy has built a school and a mosque, where many of its 200 employees worship alongside the families who harvest the fields on the tea plantation.

How Geothermal Could Cleanly Power the Planet: Indonesia's Tale

 

[thesolar65]

Mars's interior was as hot as Earth's. Something happened and it cooled down, scientists say, thereby destroying its magnetic field and started chain of reaction. Oceans evaporated etc.. Could it be....?

 

[katarabhumi]

Gov't to Develop Geothermal Energy in Flores Island

MetroTVNews - 11 October 2016

Kelimutu, Flores, Indonesia.

The Energy and Mineral Resources Ministry will develop geothermal energy in Flores Island in East Nusa Tenggara.

The ministry's geothermal director Yunus Saefulhak said Indonesia will cooperate with the the United Kingdom (UK) and the World Bank.

"We will make the road map with the UK," he told Metrotvnews.com in Jakarta on Tuesday (10/11).

He explained Flores island has many potential geothermal hot spots. The island has at least 1,900 MW of geothermal energy potential.

However, the island only has two geothermal power plants. A 10 MW power plant in Ulumbu, Manggarai and a 2.5 MW power plant in Malaloko, Ende.

"We will cooperate with the World Bank to build a 50 MW power plant in Waisano," he stated.

http://en.metrotvnews.com/business/Rb17eM1K-gov-t-to-develop-geothermal-energy-in-flores-island

 

[Shotgunner51]

The Earth's heat offers a clean and steady source of electricity, though it doesn't come cheap.

By : Wendy Koch
National Geographic
PUBLISHED MARCH 3, 2015

A 237-acre tea plantation surrounds the Wayang Windu Geothermal Power Station in Pangalengan, Indonesia, on the island of Java.

PANGALENGAN, Indonesia—In this serene corner of Java, farmworkers pick tea leaves from striped-green hills threaded with pipes. The three-foot-wide pipes carry steam from a broiling underground reservoir, a reminder of the volcano that once erupted.

Here, along the volcano-rich Ring of Fire, the Wayang Windu Geothermal Power Station uses the Earth's heat to produce energy that emits few or no greenhouse gases. It aims to expand, because it's discovered what may be the world's biggest hot steam well.

"We have a very big resource," says plant engineer Boyke Bratakusuma, as he points to the increasingly deep exploratory wells that Jakarta-based Star Energy is drilling in the shadow of the Wayang and Windu Mountains.

Indeed, this archipelago nation has the world's largest known geothermal reserves, and it desperately needs clean energy. Now the fourth most populous country, it's developing so rapidly that a quarter of its people still live in homes without electricity. Awash in cheap coal, it relies on coal-fired power plants for nearly half its electricity and plans to expand that usage.

An alternative to fossil fuels, geothermal has potential far beyond Indonesia. It could help tame global warming by producing copious amounts of renewable energy. The United Nations estimates global reserves at about 200 gigawatts—double the total capacity of all U.S. nuclear power plants. Yet despite decades of effort, only 6.5 percent of that potential has been tapped.

Indonesia's story explains why.

Volcanoes Offer Peril and Promise

A chain of more than 17,000 islands, Indonesia has dozens of active volcanoes—more than any other country. Those volcanoes offer the nation a potent energy source via deep underground reservoirs of hot water that seeps out of molten rock. Power plants can extract steam from those reservoirs and use it to turn turbines that generate electricity.

NG STAFF
SOURCE: VOLCANOLOGICAL SURVEY OF INDONESIA

Geothermal energy has ancient roots. The Romans used it to heat buildings in the city of Pompeii, and in medieval times people fought wars over lands with hot springs. Such "hot spots" dot the globe. In the United States, they're mostly found in Alaska, California, Oregon, and Nevada.

Indonesia currently produces the third largest amount of geothermal power, after the U.S. and the Philippines. Still, it's tapping less than 5 percent of its potential 29-gigawatt capacity. It has 62 projects under way, and if all get built, Indonesia could overtake the Philippines by the end of this year and the U.S. in another decade or two, according to a 2015 industry analysis by the Washington-based Geothermal Energy Association.

"Its resources are so startlingly good," says Paul Brophy, president of EGS Inc., a California-based firm that recently did consulting work for Indonesia's government on the geothermal industry.

The country, aiming to triple geothermal output from 1.4 to 4.9 gigawatts by 2019 and to hit 10 gigawatts by 2025, is trying to fast-track projects.

Last year it amended a law to stop defining geothermal development as "mining" and thus allow work in protected forests, where many resources are located. The revision also shifts project approval from local to federal officials.

"That's critical," Brophy says, noting that the central government has more geothermal expertise.

Implementing the new provisions will take time, says Josh Nordquist of U.S.-based Ormat Technologies, which has invested in geothermal projects in Indonesia. Doing so could be a "real burden" for the government, he says, but adds, "I believe in the end it will work."

The Wayang Windu plant extracts steam and hot water from underground reservoirs, using the steam to turn turbines that generate electricity.

Also promising is multimillion-dollar funding from the World Bank and other development groups, including Climate Investment Funds. In September, at the UN Climate Summit in New York City, Indonesia joined the U.S. and 22 other countries to form the Global Geothermal Alliance, aimed at reducing the financial risks of exploratory drilling.

Fiscal Challenges Linger

"Geothermal power plants are more complicated to build than solar and wind projects," says Ben Matek, industry analyst for the Geothermal Energy Association. "It's much easier to plop solar panels on a farm."

Yet geothermal offers something some other renewables don't—continuous power. With a steady supply of steam, geothermal power plants don't have to wait for the sun to shine or the wind to blow and can operate 24/7.

Attempts to tap that potential come with substantial financial risk. Developers can spend millions of dollars just to build access roads to exploratory wells that might not deliver enough steam to make a project pay off. Some delay or pull out of projects when initial wells lack promise. Last year Chevron halted exploration in Lampung, Sumatra.

"This is the world's most common issue for geothermal power," says Herman Darnel Ibrahim, vice president of International Geothermal Association and former president of the Indonesian Geothermal Association.

Exploration risks, along with permitting and pricing problems, have slowed geothermal's growth. "There's a huge backlog of projects in Indonesia," says Matek.

He and other industry-watchers expect Indonesia will boost its geothermal capacity in the coming decade but perhaps not as quickly or extensively as its government would like.

Investors remain wary. Some U.S. companies that worked in Indonesia in the late 1990s lost a lot of money when the currency, the rupiah, was drastically devalued.

Three-foot-wide pipes carry steam and hot water across the tea plantation.

"You have to have some stability," says Kevin Wallace of Idaho-based POWER Burns and Roe, who helped engineer the third unit of Chevron's Darajat geothermal power plant on Java, Indonesia's most populous island. Chevron has a second plant, Salak, on Java—home to six of Indonesia's nine operational geothermal power plants.

Wallace says there can be year-to-year fluctuations in how much the government pays for electricity and its overall support of geothermal energy, posing potential problems for developers with costly long-term projects.

Some projects have stalled for other reasons. Local officials stopped a proposed one on Bali, because residents were concerned about the impact of drilling in the Bedugul forests. Opposition may be softening, and the project may be reactivated, however, as increasing tourism on the island has caused frequent power shortages.

Other plants are moving ahead. In a landmark deal last year, after decades of delay, the mammoth 330-megawatt Sarulla project in Sumatra secured $1.2 billion in financing from its partners, which include Ormat and Medco Power Indonesia.

Unlike prior geothermal projects, it got funding for all three of its planned units at the same time, and the first unit is slated to begin operation next year.

Why Wayang Windu Waits

Wayang Windu has no such guarantee. Its financing has come piecemeal, and its story stretches back even further. In 1985 a geological survey found hot spots near where the volcano erupted a thousand or so years ago, but it wasn't until 1994 that the government signed a contract to allow a 400-megawatt geothermal plant.

Years went by before the first unit opened in 2000 and the second in 2009. Their combined 227-megawatt capacity taps only a fraction of the area's potential. Another two or three units could be added if JStar Energy got a higher price for its electricity.

"The company is negotiating with the government," says Bratakusuma, the plant engineer, noting that a single well can cost $10 million to drill. Though the government said last year that it would pay between 11.8 cents and 29.6 cents per kilowatt-hour to attract projects, Star Energy gets paid less than the new minimum under its 30-year contract.

For now, the plant waits for a better price. In the meantime, it has become part of this rural community where local men pull crop-laden wooden carts and workers in cone-shaped straw hats pick tea leaves.

In the nearby village, powered by its electricity, Star Energy has built a school and a mosque, where many of its 200 employees worship alongside the families who harvest the fields on the tea plantation.

How Geothermal Could Cleanly Power the Planet: Indonesia's Tale

Good progress on exploring green energy, worth attention!

 

[Jlaw]

Good progress on exploring green energy, worth attention!

still indonesia is a poor country and the article said its economically not feasible. No money no talk.

perhaps i misread but how much energy can this generate if they were magically able to use this geothermal energy?

 

[Shotgunner51]

still indonesia is a poor country and the article said its economically not feasible. No money no talk.

perhaps i misread but how much energy can this generate if they were magically able to use this geothermal energy?

I disagree. Indonesia is doing fine, even leading her peer group on many technological, economic fronts.

I am no tech guy, but enthusiastic in any new venture on green energy, effort should be encouraged. And if such a tech is subsequently proven financially sound, it will be chased by capital.

 

[katarabhumi]

CRUNCH NETWORK
The future of cleantech in Indonesia

Hugh Harsono, October 14 2016

With its projected population of more than 283 million by 2025, and its economy ripe for becoming Southeast Asia’s next big technology hub, Indonesia presents unique challenges in the form of renewable energies. Indonesia currently lacks significant infrastructure capable of supporting such expansion, with its mobile-first economy only being able to provide so much support for structured growth.

However, if capitalized correctly, Indonesia has the potential to harness clean technology into a vehicle for prosperity. The Indonesian government is just beginning to make changes to focus on resource efficiency and management, with both established companies and startups working together with Indonesia’s utilities to provide innovative solutions.

Investment in Indonesia’s renewable energies sector

Indonesia has attracted record amounts of renewable energy investment within the last several years, announcing certain deregulations to help encourage FDI. Early 2015 saw Indonesia cutting its consumers’ fuel subsidies, with the intent being to manage oil/gas resources more efficiently. This, in turn, attracted attention from the Asian Development Bank in late 2015, which approved $500 million in loans for Indonesia to help stimulate investment in the country’s emerging clean technology sector. Indonesia’s Energy and Mineral Resources Ministry also announced in early 2016 that it had attracted more than $325 million in renewable energy investment, further driving the cause of cleantech in Indonesia.

Indonesian-focused cleantech

Kopernik, a former startup seeing unprecedented growth since its inception in 2010, established its headquarters in Ubud, with the goal of bringing cleantech to Indonesia. With funding partners, including tech incubator Inotek, and asset management firm Russell Investments, Kopernik has developed multiple internal projects to accomplish this goal. One of its best-known initiatives includes the “Wonder Women” program, where women from rural villages are empowered and trained to become Tech Agents, establishing Tech Kiosk micro-stores to sell cleantech appliances on commission. With exclusively designed products, including the micro-solar BrightBox energy system and the CO2-reducing CH-2300 cookstove, Kopernik is bringing affordable clean technology to rural areas, encompassing all sorts of renewable energies in Indonesia.

Another company emerging from its startup roots and becoming a true industry power in Indonesian cleantech is Fluidic Energy. With more than $150 million invested (including an undisclosed Series D round with Caterpillar as the majority investor in 2015 and Series C funding of more than $20 million from Chevron Energy Solutions and Madrone Capital Partners in 2011), Fluidic Energy’s rechargeable zinc-air battery technology has drawn intense interest from the energy investment community.

The 2015 announcement of the “500 Islands” project has Fluidic promoting both rural development and increasing renewable energy usage to Indonesia’s weak power grid environment. Fluidic has so far delivered energy to more than 90 villages in the archipelago nation, making its efforts one of the region’s largest rural electrification projects. With more than 40MWh of energy storage worldwide, Fluidic Energy leverages its zinc-air energy storage technology to bring sustainable energy to developing regions, such as Indonesia, bolstering the growing cleantech market in this nation.

Renewable energy in Indonesia

Solar

The solar industry in Indonesia currently faces certain framework and developmental challenges. However, with government involvement in clean technology growing alongside privately funded projects, the solar realm seems to be gaining ground on the road to industry maturity.

The government has taken huge strides in addressing concerns about the Indonesian solar market, with the Ministry of Energy and Mineral Resources taking on both large and small projects, providing funding for rooftop solar systems at airports and government buildings and funding more than 500 solar PV mini/microgrid projects. Additionally, the Indonesian government has created new regulations to support solar systems for utilities, furthering the future of Indonesian cleantech.

Hydropower

Indonesia is among the top 10 countries with the biggest hydropower potential in the world. As Indonesia’s dependency on fossil fuels rises, clean technology is becoming increasingly focused on by consumers, the government and private sector alike.

Micro-hydro power, producing about 5KW to 100KW of electricity, has seen a growth rate of more than 700 percent since 2000, with more than 450 MW of electricity currently coming from micro-hydro power in Indonesia. The government has set goals to quintuple this number by 2025, developing partnerships and funding through the domestic economy utilizing feed-in tariffs. These are payments to ordinary energy users for the renewable electricity they generate, which incentivize Indonesians to pursue hydroelectric power, among other cleantech initiatives.

Wind

Wind power is another form of renewable energy that Indonesians must capitalize on. With help from the U.S.-based Overseas Private Investment Corporation (OPIC), UPC Sidrap Bayu Energi has secured funding to build a $120 million wind farm, providing 70 MW of wind-generated electricity to Indonesians in South Sulawesi. UPC Sidrap Bayu Energi, a joint venture between UPC Renewables and Binatek Energi Terbarukan, is further looking at adding more than 1,000 MW of wind energy to Indonesia in the next five years. With this project being the first utility-scale wind power, Indonesia’s goal of increasing its amount of renewable energy from 6 percent in 2016 to 23 percent by 2025 is becoming increasingly more realistic.

Conclusion

Given the unprecedented growth in the Indonesian renewable energy space in the last several years, Indonesia has a prosperous road ahead for cleantech. With viable solutions through solar, hydro and wind platforms, combined with successful implementations of these solutions through organizations like Kopernik and Fluidic Energy, Indonesia’s weak grid environment is emerging as one of its potential strengths.

Indonesia has showcased its ability to not only grow its cleantech industry, but also thrive in it, given the proper combination of governmental support, strategic partnerships between startups and established energy and financial organizations and technological know-how. Indonesia’s renewable energy industry is one that is on track to thrive and drive investment in this country for many years to come.

Hugh Harsono is a former financial analyst currently serving as a U.S. Army Officer.

https://techcrunch.com/2016/10/14/the-future-of-clean-tech-in-indonesia/

 

[katarabhumi]

Toshiba in Indonesia hydropower deal

By Kelvin Ross, 17 October 2016

Toshiba has won a major order to supply equipment for the Malea hydropower plant which is being built in South Sulawesi, Indonesia.

The orders were received from PT Malea Energy, the subsidiary of Kalla Group that generates and distributes hydropower in Indonesia, and are for two sets of 45 MW turbines and generating equipment.

Deliveries are due to start in 2018 and the plant is scheduled to enter commercial operation in 2020.

The Indonesian government has an aggressive power development plan to add 35 GW in installed capacity over the next five years, and the new plant will contribute to reaching this target.

Toshiba Group has provided hydroelectric turbines and generators to many ASEAN countries, including Laos, Malaysia, Myanmar, Philippines, Thailand and Vietnam.

Takao Konishi of Toshiba's Energy Systems & Solutions company, said: “Demand for power is growing fast in Indonesia, and Toshiba is pleased to help increase capacity. Toshiba established PT. Toshiba Asia Pacific Indonesia in 2014 to deploy Toshiba’s resources and expertise to help enhance infrastructure solutions in Indonesia.”

http://www.powerengineeringint.com/articles/2016/10/toshiba-in-indonesia-hydropower-deal.html

 

[katarabhumi]

Tidal Power Developers Bet on Sea Change in Indonesia Renewables Sector

Fortune Magazine - 20 November 2016

A well-connected Indonesian marine renewable energy company and OpenHydro, a unit of French state-owned naval defense company DCNS, aim to be the first to plug into the vast untapped tidal energy potential of the world’s biggest archipelago.

Renewables have so far played little part in Indonesia’s power sector, despite the country sitting on the world’s biggest geothermal reserves and being bathed in sunshine, crowded out by an abundance of cheap coal and bureaucratic bottlenecks.

But declining costs of renewable electricity and a new push by President Joko Widodo to develop renewables in the remote eastern parts of the archipelago are changing the picture.

With narrow straits straddling the Indian and Pacific oceans, Indonesia has significant tidal power potential, and PT Arus Indonesia Raya (AIR) and OpenHydro plan to build the country’s first such project.

“This project is important for Indonesia and the world so we can stop burning coal,” AIR president director Panji Adhikumoro Soeharto told Reuters.

OpenHydro, a company specializing in the design and manufacture of marine turbines to generate renewable energy from tidal streams, already has projects in Japan, Britain, France and Canada.

The AIR and OpenHydro model would appeal to renewable energy investors because it is relatively inexpensive and low in maintenance compared with other renewables, said Soeharto, grandchild of former Indonesian president Suharto.

“We’re doing the investment ourselves, with banks,” he said. He did not say how much had been invested so far.

According to the partners, Indonesia has the potential for up to 60 gigawatts of tidal power, more than Indonesia’s total electricity capacity of just over 50 gigawatts last year.

Land and permitting issues that often hold up power infrastructure projects should be no obstacle for AIR, Soeharto said, referring to plans to build a factory in Indonesia and utilize 70 percent local content in their turbines.

The turbines, which sit on the seabed, can cost up to $7 million each in Europe, a cost PT AIR plans to slash to as little as $4 million, Soeharto said.

“The only thing we can’t produce is the magnets – French technology. Maybe in future we’ll study this.”

Over the next three years, the two companies plan to develop up to 20 2-megawatt turbines in a pilot tidal array in the Bali strait, which will supply power directly to state energy company Pertamina, Soeharto said.

According to a release on the DCNS website, the Indonesian project is targeted to reach 300MW of installed capacity by 2023.

Indonesia wants renewable energy to make up around a quarter of its total by 2025 from around 5% now, though critics have questioned its seriousness in meeting its climate goals, and its overall plans to ramp up power production have got off to a slow start.

Yet attitudes toward renewable energy among Asian investors are changing as costs come down and environmental pressures mount, a Singapore-based hedge fund manager told Reuters.

Over the past two years the cost of producing solar and onshore wind power had begun to reach a level where it was competitive with fossil fuels, below 10 cents per kilowatt hour, he said.

“It is beginning to happen.”

India and China, Indonesia’s two biggest coal buyers, are accelerating the global transformation from coal to cleaner energy sources. Some of Indonesia’s biggest coal miners, such as state-owned Bukit Asam and Adaro, are also diversifying into renewables.

“Renewable energy is a must. It’s no longer an option. We don’t have any choice,” recently appointed deputy energy minister Arcandra Tahar said at a forum in Jakarta last week.

While incentives will be needed to kickstart renewable developments in Indonesia, on a per-kilowatt-hour basis they may already be cheaper than the diesel that many remote islands currently rely on for power, Tahar said.

By assisting state electricity company Perusahaan Listrik Negara (PLN) to develop renewable energy, Indonesia could phase out diesel use and reduce its costly fuel subsidy bill, Tahar said, adding that his office was making this a priority over the next three years.

“Our focus now is on providing incentives and regulating prices that are acceptable to all sides,” Dadan Kusdiana, secretary at the Renewable Energy Directorate, told Reuters.

A spokesman for PLN said it was “wide open” to developing hybrid power systems in remote areas, combining renewables with traditional generators to guarantee electricity is available 24 hours a day.

“We have to be oriented so that we reduce the cost of electricity,” PLN spokesman Made Suprateka told Reuters.

http://fortune.com/2016/11/20/tidal-power-indonesia-renewables/
.

 

[kadamba-warrior]

Mars's interior was as hot as Earth's. Something happened and it cooled down, scientists say, thereby destroying its magnetic field and started chain of reaction. Oceans evaporated etc.. Could it be....?

I came to this thread to post the exact same thing!

I am no expert but I think industrial scale exploitation of geothermal power could do irreparable damage to earth's magnetic core due to cooling effect and render us totally vulnerable to extremely harmful radiation from Space and solar winds.

I know some would say that it is a vast and underutilized resource that will never deplete. But then nobody believed, a hundred years ago, that man could change earth's atmosphere by burning carbon!

 

[katarabhumi]

Tidal Turbines to Power Remote Site in Indonesia

Eric H - 22 November 2016

Over the last year a team of Indonesian and international specialists has worked in a remote part of Bintuni Bay, West Papua, Indonesia. The goal was to assess the local electricity situation, renewable energy options, including tidal in-stream power; and to then install a demonstration tidal turbine to support an isolated industrial island micro-grid. This project may act as a model for smaller scale energy developments in coastal areas throughout Southeast Asia.

Green Forest Product & Tech Pte. Ltd. (GFPT) and its exclusive supplier PT Bintuni Utama Murni Wood Industries (PT BUMWI), together with SCHOTTEL HYDRO, OceanPixel, Aquatera and the Energy Research Institute at Nanyang Technological University, Singapore (NTU Singapore) has successfully completed the first tidal turbine installation at PT BUMWI's woodchip factory located in the remote Pulau Amutu Besar, Bintuni Bay, West Papua, Indonesia.

The project was initiated by GFPT and its key supplier PT BUMWI with the long-term objective to significantly reduce the dependency on fossil fuel while tapping on the available local natural resources. Assessment done by the team from OceanPixel and PT BUMWI indicated that tidal current near the site can run at up to 2.5 meters per second providing an ideal site for harnessing tidal energy. Diesel generators currently provide all of the electrical power for the wood chipping operation and supporting infrastructure.

"This endeavor to introduce marine renewable energy on a logging site plays well with our commitment to sustainable carbon-neutral forest management," Muljadi Tantra, Deputy Managing Director of GFPT explained. "PT BUMWI has been a pioneer in this, and is one of the first mangrove concession to obtain the Forest Stewardship Council (FSC) coveted Forest Management certification."

An international team comprising OceanPixel, Energy Research Institute @ NTU (ERI@N), SCHOTTEL HYDRO from Germany as the provider of the tidal turbine, and marine energy operations specialists Aquatera from Scotland provided the expertise to enable this unique deployment. They worked alongside PT BUMWI resources that cover management, electrical, mechanical, fabrication and marine operations specialists. The integrated team successfully devised and executed a number of innovative approaches utilizing local resources whenever possible to enable the completion of the project in 12 months.

Dr. Michael Lochinvar Sim Abundo, Director of OceanPixel, a spin-off company from ERI@N, commented, "PT BUMWI and OceanPixel's collaboration enables us to complete a detailed assessment of energy use on the site, bathymetry, current flow speed, backed up by resource and hydrodynamic modelling to establish the suitability the site. It is also through this collaboration, together with experts from SCHOTTEL HYDRO Germany and SCHOTTEL Far East Singapore, Aquatera and ERI@N that we could devise the most suitable and cost effective deployment strategy that covers the floating platform design, mooring, turbine attachment and power delivery for this first test case in one of the most remote setting."

SCHOTTEL HYDROs SIT 250 turbine is suspended below a floating barge in a simple and robust arrangement which allows for straightforward inspection and maintenance. The cable is suspended in the air from driven piles, a method that suited local conditions and resources. Similar approaches can be easily replicated elsewhere with appropriate adaptations to local conditions, skills and supply chain resources.

The SIT 250 tidal turbine was delivered by SCHOTTEL HYDRO to Indonesia and then onward to the site by PT BUMWI. SCHOTTEL HYDRO also plays a crucial role in engineering support for the successful integration of the turbine into the floating barge platform as well as the installation and commissioning of the turbine.

"We are excited to be part of the first grid connected tidal turbine deployment in South East Asian waters. This project is a stepping stone for our industry and was delivered with the support from our regional office SCHOTTEL Far East in Singapore who managed the commissioning of the turbine on site," said Dr. Ralf Starzmann, Sales Director of SCHOTTEL HYDRO.

Aquatera provided the much needed expertise in marine turbine deployment, taking into account both the local assets and limitations as well as considering the broad lessons learned from previous work in tidal streams and remote operating locations.

Dr. Gareth Davies of Aquatera added, "We wanted to make sure that the deployment process went safely and efficiently making maximum use of the local resources. All of these objectives were achieved. It was a privilege for us to work with such a talented international team including the enthusiastic and innovative local team from PT BUMWI. The operational strategy that has been developed can act as a model for other developments locally and in the wider region."

A substantial amount of system integration work was undertaken in Singapore to ensure the successful progression of the project from planning to deployment. Engineers and researchers from ERI@N supported the design work with a number of analyses which helped to confirm that the operating conditions and proposed equipment were compatible. Dr. Srikanth Narasimalu, Program Director and Senior Scientist of Wind and Marine Renewables, ERI@N remarked that the present design demonstration is a simple way of deploying tidal turbine to reduce installation and maintenance cost through a semi-buoyant system due to its easy towable and deployment capability in optimal energy sites to power remote coastal locations. "We are grateful working with GFPT and SCHOTTEL HYDRO for this initiative and we believe that this project could become a model for future deployments in the region," he mentioned.

From a regional perspective, the ASEAN Centre for Energy (ACE) is encouraged to see the tidal turbine installation in West Papua, which promotes the use of marine renewables to de-carbonize energy supplies across the region. ACE-having made ERI@N its technical working group in driving ocean renewable projects, activities and events in Southeast Asia-feels that such initiative needs to be further explored. "Through demonstration projects like this, and continuous regional collaboration on marine renewable energy, Southeast Asia sees a promising future in advancing towards energy security and sustainable development. We at ACE hope to hear more about how it affects West Papuans around the factory area, and how the partners plan to replicate the initiative in other parts of the region," Dr. Sanjayan Velautham, ACE's Executive Director, concluded.

http://maritimeglobalnews.com/news/tidal-turbines-power-remote-cf8670

I came to this thread to post the exact same thing!

I am no expert but I think industrial scale exploitation of geothermal power could do irreparable damage to earth's magnetic core due to cooling effect and render us totally vulnerable to extremely harmful radiation from Space and solar winds.

I know some would say that it is a vast and underutilized resource that will never deplete. But then nobody believed, a hundred years ago, that man could change earth's atmosphere by burning carbon!

COULD TAPPING THE PLANET FOR GEOTHERMAL ENERGY COOL THE EARTH’S CORE?

Geothermal energy systems don't drain heat directly from the core. Instead, they pull radiant heat from the crust—the rocky upper 20 or so miles of the planet's surface—either by sucking up pockets of heated water or by circulating water through the hot rock. Power plants then use steam from the hot water to spin turbines to make electricity. Geothermal energy generates 7 to 10 billion watts worldwide, barely enough to account for 0.05 percent of global energy consumption and far less than the estimated 44 trillion watts the planet produces.

But drawing energy from the crust won't send it into a deep freeze: Its heat is constantly renewed by the virtually continuous decay of radioactive elements sprinkled throughout it. "Cooling the Earth's core by drawing geothermal energy from the crust is like trying to cool the western end of Lake Superior with a few ice cubes," says Paul Richards, a professor of natural science at Columbia University.

It's a good thing that we can't cool the core. The spinning metal there generates Earth's magnetic field, which protects us from deadly cosmic radiation. If the outer core cooled, the liquid would solidify, and both it and the solid inner core would grind to a halt, the magnetic field would dissipate, and high-energy cosmic radiation would bombard the planet, essentially turning Earth into a giant microwave and ending life on the surface.

http://www.popsci.com/stuart-fox/ar...ng-planet-geothermal-energy-cool-earth’s-core

 

[katarabhumi]

Indonesia and New Zealand to cooperate on geothermal drilling in Indonesia
Alexander Richter - 8 Mar 2017

Indonesia and New Zealand have signed a partnership agreement on geothermal drilling project development in Indonesia.

As reported today by Rambu Energy, the governments of Indonesia and New Zealand have signed a partnership agreement on geothermal drilling project development in Indonesia.

Signed yesterday by Yunus Saefulhak, Director for Geothermal at the Directorate General for New, Renewable and Energy Conservation at the Energy and Mineral Resources Ministry (ESDM) and Foreign and Trade Ministry of New Zealand and Development Counselor of the New Zealand Embassy in Indonesia Mehaka Rountree.

The aim of the agreement is to help Indonesia speed up geothermal development through a government driven drilling program. It seems like the program is to guide drilling activities through deep slimhole drilling programs.

Various institutions under the Energy Ministry are involved in the program, as well as state-owned PT Sarana Multi Infrasruktur (SMI).

Indonesia has seen challenges in pushing its ambitious fast track program to develop 4,825 MW, but has seen an upswing in recent months with several projects coming online are about to start operation.

http://www.thinkgeoenergy.com/indon...ooperate-on-geothermal-drilling-in-indonesia/

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Indonesia eases development of geothermal in conservation areas
Alexander Richter - 9 Mar 2017

With new regulations put in place, Indonesia finalises legislation that opens up conservation areas for geothermal development.

Today, the Indonesia Ministry of Environment and Forests (KLHK) has given a “green light” to uses of geothermal energy or geothermal for new renewable energy (EBT) in conservation area in “order to support energy security and sovereignty of energy and to help reduce emissions of greenhouse gases ( GRK).”, as reported by Antara News.

“The land needed for geothermal in conservation areas is not as big as in other potential uses and the overall potential fo geothermal is quite substantial.”, said Director of Environmental Services Utilization of Forest Conservation (PJLHK) Is KLHK Mugiono

With the Act (Act) No. 21 of 2014 on Geothermal, Government Regulation (PP) No. 108 of 2015 on Amendments to Regulation 28 of 2011 on the Management Zone of Nature Reserve and Conservation Areas, and the Regulation of the Minister of Environment and Forestry No. p.46 / Menlhk / Secretariat / Kum.1 / 5/2016 concerning Geothermal Environment Services at the National Park, Forest Parks and Wildlife Nature, regulation for geothermal utilization in the conservation area to be complete.

Previously the use of geothermal energy in conservation areas was not allowed based on the status of geothermal as a mining activity in Law No. 5 of 1990 on Conservation of Biological Resources and Ecosystem, which prohibited development activities..

In a thorough review of the performance PROPER Geothermal Industry 2015-2016 period, only one of 14 projects were rated red. That, too, according to Director General of Pollution Control and Environmental Degradation Karliansyah, not because of operational processes, but because of the maintenance of the wastewater permit.

“If you look at data from the Ministry of Energy and Mineral Resources (ESDM) has 4 percent of the geothermal potential is utilized for energy, but environmentally friendly. So we naturally support its development,” he said.

So far, according to him, the development and operation of geothermal plants is not problematic for the environment. Only at the exploratory stage which requires more precautionary principle.

With the data from the Ministry of Energy, the potential distribution of interesting geothermal hot spots in the largest forest areas is shown at 145 points with a potential 12,176 MW, according to Nur.

http://www.thinkgeoenergy.com/indonesia-eases-development-of-geothermal-in-conservation-areas/
http://www.thinkgeoenergy.com/indonesia-eases-development-of-geothermal-in-conservation-areas/
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[katarabhumi]

Indonesia to build ‘world’s largest’ tidal power plant

The US$550m project has been welcomed by Greenpeace as an alternative energy source to coal, the darling of energy-hungry Indonesia’s growth ambitions. But questions remain about the project’s environmental and social impact.

Robin Hicks - 8 May 2017

The Larantuka Strait, which by 2019 is to be connected by an 800 metre-long bridge with a built-in 115 MW-capacity tidal power plant. Johanes Randy Prakoso, CC BY-NC-ND 2.0

The Indonesian government has approved a plan to build what has been billed as the world’s largest tidal power facility in the ecologically rich Indonesian island of Flores.

The new plant, known as the Palmerah Tidal Bridge, will be built into a floating 800 metre-long bridge on the Larantuka Strait in East Flores, and promises to deliver power capacity of 18 to 23 megawatts (MW), providing enough electricity for 100,000 people in the area. It is the first deal to emerge from a strategic hydropower alliance between the Indonesian and Dutch governments.

A second phase of construction could see capacity increased to 90 to 115 MW, enough power for more than half a million Indonesians in a region that largely relies on polluting diesel generators for electricity.

An artist’s impression of the Palmerah Tidal Bridge. Image: Tidal Bridge BV

Environmental group Greenpeace has said that it approves of the project as an alternative to coal in fossil fuels-dependent Indonesia, but that caution is needed to ensure that the biodiversity of the marine environment is not affected.

Tidal power is a relatively uncommon form of renewable energy that harnesses the energy of marine currents, a potentially more reliable power source than wind or the sun. The International Energy Agency estimates that in 2014, global tidal power capacity was about 0.5GW, compared to 128GW of solar and 8.8GW of offshore wind.

Indonesia is an ideal location for tidal power, because of strong ocean currents that move between the world’s largest archipelago’s thousands of islands. The Larantuka Strait between Flores and Adonara is one such area, with a number of sites now being considered by the Indonesian government.

The Palmerah Tidal Bridge is also being trumpeted as a way of improving grid connectivity in the eastern part of Indonesia, and giving people in the area better access to education, healthcare and job opportunities.

The project has been awarded to Tidal Bridge BV, a joint venture between Dutch engineering firm Strukton International and venture capital fund Dutch Expansion Capital. It is slated to be completed by 2019 at a cost of US$550 million.

The companies behind the project claim Palmerah Tidal Bridge will be the largest tidal power facility in the world. However, South Korea’s Sihwa Lake Tidal Power Station, with power output of 254 MW, has around double the capacity of the Palmerah project, as does the Rance Tidal Power Station in France, with power capacity of 240 MW.

Greenpeace Indonesia climate and energy campaigner Hindun Mulaika told Eco-Business that the organisation supported the development of renewable energy in Indonesia, a country that is a big coal extractor and user, and continues to approve plans to build new coal-fired power plants to meet its growing energy demands.

http://www.eco-business.com/news/indonesia-to-build-worlds-largest-tidal-power-plant/

 

[Shotgunner51]

Good green tech progress!

 

[katarabhumi]

AC Energy’s Indonesia wind farm to go live early-2018
By Lenie Lectura - October 23, 2017

INDONESIA’S first wind farm being undertaken by AC Energy Inc. and partner is nearing completion, with commercial operations expected to happen early next year.

“Indonesia’s first utility-scale wind farm’s construction stays on track, nearing 70-percent completion and is expected to be ready for commercial operations in the first quarter of 2018,” the power arm of conglomerate Ayala Corp. said on Monday.

PT UPC Sidrap Bayu Energi (UPC Sidrap), the project proponent, has started the installation of 30 Gamesa G114 2.5-megawatt (MW) wind-turbine generators. The wind-farm power project will have a generating capacity of 75 MW and is estimated to cost $150 million.

Also recently, Indonesian Energy and Mineral Resources Minister Ignasius Jonan, together with local government officials of South Sulawesi and high-ranking officials of the State Electricity Co. (PLN) in the Sulawesi region, visited the site. The visit, according to AC Energy, demonstrated the government’s support to the ongoing construction of the country’s first commercial wind farm.

AC Energy has partnered with UPC Renewables Indonesia Ltd. for the development, construction and operation of the said wind project in Sidrap, South Sulawesi, Indonesia.

The project will also be AC Energy’s first greenfield offshore investment through its affiliate AC Energy International Holdings Pte. Ltd., a Singapore private limited company.

Ayala Corp. said the Sidrap project will be funded through equity and project financing to be provided by the Overseas Private Investment Corp., the United States government’s development finance institution, and PT Bank Sumitomo Mitsui Indonesia, the Indonesian subsidiary of the Sumitomo Mitsui Banking Corp. of Japan.

UPC Renewables is a leading global energy player that develops, finances, constructs, owns and operates a portfolio of wind-power generation assets. The company and its proponents have successfully developed and operated renewable-energy projects in Italy, the US, Canada, China and the Philippines.

UPC Renewables and AC Energy have previously forged a partnership under North Luzon Renewable Energy Corp., the owner and operator of the 81-MW Caparispisan wind-farm project in Pagudpud, Ilocos Norte.

AC Energy has been expanding its footprint in the Southeast Asian region. Apart from the 75-MW Sidrap wind-farm project, the Ayala energy arm also has a 20-percent stake in Star Energy (Salak-Darajat) B.V., which acquired Chevron’s geothermal operations in Indonesia. The acquisition was a major milestone for the company as it plans to scale up its renewable-energy portfolio to 1,000 MW.

https://businessmirror.com.ph/ac-energys-indonesia-wind-farm-to-go-live-early-2018/

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