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Environment

Island nation of Tokelau gets ready to go solar

July 30, 2012
Island nation of Tokelau gets ready to go solar
Workers install a solar array in Tokelau, an island nation that will be powered with renewable energy from September 2012
Workers install a solar array in Tokelau, an island nation that will be powered with renewable energy from September 2012
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Workers install a solar array in Tokelau, an island nation that will be powered with renewable energy from September 2012
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Workers install a solar array in Tokelau, an island nation that will be powered with renewable energy from September 2012
Solar panels arrive by sea at Tokelau
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Solar panels arrive by sea at Tokelau

Adopting renewable energy sources such as solar and wind power is a great way to reduce emissions and produce energy locally. In places like remote Pacific islands, however, those benefits are potentially a key to independence. For that reason Tokelau, a 10 sq. km. (3.86 sq. mi) island nation that lies around 500 km (311 mi) north of Samoa and which is a territory of New Zealand, is about to ditch diesel as a source of electricity and switch to solar power.

In order to turn sunlight into electricity, Tokelau will activate 4,032 solar panels, 392 inverters and 1,344 batteries. The solar system will be spread across Tokelau’s three atolls - Fakaofo, Nukunonu, and Atafu. Special attention has been paid to the resilience and longevity of the materials due the faster wear and tear caused by the harsh tropical and marine weather conditions, besides the corrosiveness of the salty air. PowerSmart, a New Zealand-based company, is designing and installing the project, which will include one photovoltaic (PV) mini grid on each atoll.

Besides the environmental benefits, the NZ$7 million (US$5.66 million) New Zealand is investing in the project makes logistical sense as well. Because there are no flights, all transportation is done by water. The ship that covers the route to and from Samoa needs to anchor outside the reefs, from where passengers and goods are taken to shore on a landing barge.

Solar panels arrive by sea at Tokelau
Solar panels arrive by sea at Tokelau

Solar comes as an ideal solution to such a small population (1,411 people) and low power demand, which means the country will go from 0 percent to more than 90 percent renewable electricity in one fell swoop. The government estimates the solar system will prevent 12,000 tonnes (13,228 tons) of carbon dioxide from going into the atmosphere over the life of the project. For backup during long spells of cloudiness, coconut oil-powered generators will supply power and recharge the battery bank.

Many Pacific Island nations depend on fossil fuels for energy and are vulnerable to international price fluctuations. In some cases, the cost of importing fuel is higher than all export earnings combined. Tokelau burns around 200 liters (53 US gallons) of fuel every day and spends about NZ$1 million (US$0.81 million) per year shipping in the stuff. Currently, Tokelau’s population has 15 to 18 hours per day of electricity.

When the system goes live in late September after a commissioning ceremony, the Tokelau population will be at the leading edge of climate change mitigation efforts and on its way to energy independence.

Source: New Zealand Aid Programme via Celsias

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EnvironmentRenewable EnergyPhotovoltaicNew Zealand
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13 comments
Mike Nemeth
Definitely forward thinking and cool. Thanks Antonio.
Slowburn
I would have preferred OTEC (possibly enhanced with solar water heaters) and wave power and have it over the horizon but with just a teeny bit of luck photoelectric is better than going broke buying diesel. That depends on how well the system works and lasts, and how well the contract was written from the islander point of view.
Paul van Dinther
So, let me get this right. A country that claims rising sea levels is reducing available land now thinks it is a good idea to use that land to fill it with solar panels and coconut trees to produce fuel?
Are they out of their minds? This is a nonsense token project. I'd love to hear a year from now how it is doing. Most likely half the batteries are no longer functional and dumped on some reef. Talking about pollution!
This technology requires specialised electronics, controllers and inverters where as diesel generators are simple and can be maintained by the people living there.
Tony Smale
Hang on a minute. They are living on a coral atoll. I was under the impression that coral grew under water...wouldn't this imply that the islands were once underwater? This makes it a bit hard for me to believe that anthropogenic climate change is the cause for rising sea levels...when they were that high previously.
Of course, someone will point out that volcanic/tectonic activity has thrust these atolls out of the water and ruin my argument, but until then...what gives?
Tony Smale
Also, according to celsias, there is 1MW of capacity, which isn't stated in the article.
Slowburn
re; Paul van Dinther
If they hadn't been subject to New Zealand* I would say they should have gone nuclear perhaps after independence.
They already have coconuts and to power a backup generator it does not take a high production level to provide adequate supplies of oil.
What makes you think that they don't have, can't hire, or can't train techs?
Assuming solid state electronics locked into airtight boxes they should be good for 25-30 years without maintenance. Nickle-iron batteries while maintenance intensive# have a real good service life.
* which is why I would have gone with the OTEC and wave power. # What has to be done is simple and automating it would not be too hard either.
L1ma
The actual intention is to be positive (http://www.tokelau.org.nz/site/tokelau/files//11th%20Edition%20Te%20Vakai.pdf) generating 90% of power by solar. However the risk is with putting all the solar panels in one field surrounded by trees they will simply be destroyed by the first storm.
American Samoa has a policy of wind power generation instead(http://www.epa.gov/region9/islands/conf04/pdf/jeff-shively.pdf) payback for PV is 18 years, since this is about independance it is not an issue. I expect a combination of wind to suppliment solar after this year and the panels to be broken up and fitted to individual homes only after the first tree has fallen on one.
yawood
I lived on Karkar Island off the coast of Madang, PNG in 1969 as a teacher and we had power for 45 minutes in the morning to get breakfast, 30 minutes at lunchtime and then it came on at 5:00pm and was on until 11:00pm (all from the diesel generator). This was on the small government station, those who lived on other parts of the island had nothing unless they generated it themselves with portable generators. We had wood stoves for cooking, kerosene fridges and cold water showers. These days you could have solar panels on the roof with inverters and batteries to get power whenever you wanted it and could run electric fridges and even air-conditioning if you wanted. What a difference that would have made. Mind you, life was simpler then.
L1ma
Antonio Pasolini has gave out some figures
I would like to elaborate:
Tokelau is burning 200 litres of fuel a day,
Diesel fuel oil density at 15oc is 885 kg/m3, 200 litres is 0.177 t
burning this fuel for 365 days in a year 0.177*365 = 64.605 t per annum
give spot price of diesel today's date in US $ per MT is $522
so 522*64.605 = $33723.81 annual cost
In the PDF I previously provided the Island is going to burn coconut oil for 10% of its power generation
Coconut oil density = 924.27 kg/m3, 200 litres is 0.184854 t
burning this fuel for 365 days in a year 0.1848*365 = 67.452 t per annum
Spot price for coconut oil in US $ per MT = 1060
so 1060*67.452 = 71499.12 – so the Island will still be burning through $7000 of coconut oil at least – but this is not imported being grown locally so will cost nothing.
Since PV pays for itself within 18 – 25 years costing for the initial solar farm must have been $607014 – 843075(ish).
Simply shipping fuel to Tokelau is costing $0.81 million per year or roughly doubling the price of diesel, replacing Diesel generators with PV will pay for itself in 8 years.
L1ma
When I did my rough calculation I forgot the $ 5.6 million quote for the entire instal. :p
Annual shipping fee: $ 810000 Cost of diesel per annum: $33723
total over 8 years= $ 6,749,684 so Tokelau breaks even in year 7. This means it could pay for 3 more PV plants in the next 25 years with falling prices.
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