Launched in May 2011, the new global magazine Southern Innovator (ISSN 2222-9280) is about the people across the global South shaping our new world, eradicating poverty and working towards the achievement of the Millennium Development Goals (MDGs).
The geothermal heat produced by the earth’s molten core is a resource receiving more and more attention across the global South. Properly harnessed, geothermal energy (http://en.wikipedia.org/wiki/Geothermal_energy) offers a low-cost, non-polluting source of power and hot water that does not harm the environment or contribute to climate change (http://en.wikipedia.org/wiki/Climate_change).
The country that has made the most of this resource is the Scandinavian island nation of Iceland (http://www.visiticeland.com/), one of the world’s most volcanically active places.
The country was once one of the poorest in Europe, dependent on fishing as its main income source. But by 2007-2008, Iceland was ranked as having the highest level of human development in the world.
One of the contributors to this impressive improvement in human development is the tapping of the country’s geothermal energy reserves (http://www.geothermal.is/).
According to the Geothermal Energy Association (GEA), “Iceland is widely considered the success story of the geothermal community. The country of just over 300,000 people is now fully powered by renewable forms of energy, with 17 per cent of electricity and 87 per cent of heating needs provided by geothermal energy.”
Worldwide, geothermal energy supplies power to 24 countries, producing enough electricity to meet the needs of 60 million people (GEA).
The Philippines generates 23 per cent of its electricity from geothermal energy, and is the world’s second biggest producer behind the U.S. Geothermal energy is also helping provide power in Indonesia, Guatemala, Costa Rica and Mexico.
Energy is critical to advances in human development. Electricity enables the introduction of lighting in homes, the use of washing machines and other modern appliances and of communications tools such as computers and televisions.
Geothermally heated water can be used to heat homes, provide hot water for bathing, heat swimming pools and bathing places and power electricity turbines. Industry can benefit from the low-cost energy, giving a boost to economic development.
And, crucially, it does not harm the natural environment like conventional energy sources such as coal, gas or nuclear power with its legacy of radioactive waste.
While not all countries are as well positioned as volcanically active Iceland or the Philippines, many can find a way to tap this natural resource.
Interest in this power source is increasing in Central and South America, whose energy consumption is forecast to increase by 72 per cent by 2035 (International Energy Outlook 2011).
South America currently relies heavily on hydro-electric power, but this is proving insufficient to meet the growing demand (http://www.esmap.org/esmap/node/1136). A World Bank study says “Latin American and Caribbean countries could boost region-wide electricity supply by 30 percent by 2030 by diversifying the energy mix to include hydropower, natural gas, and renewable energy” (ESMAP).
The report estimates the region has the potential to generate 300 terawatts of geothermal energy per year, roughly equivalent to the output of fifty 1,000-megawatt power plants or the emission of 210 million metric tons of carbon greenhouse gases (ARPA).
The areas best placed to tap this resource are located along the Pacific Rim from Mexico to Chile, and in parts of the Caribbean.
The 2012 Geothermal International Market Overview Report by the Geothermal Energy Association (GEA) (http://www.geo-energy.org/reports.aspx) found Argentina, Chile and Peru are moving ahead with plans.
Because of government support and legislation, there are now 83 geothermal exploration concessions under review in Chile, according to Renewable Energy World.com.
The Renewable Energy Center (http://www.ecpamericas.org/initiatives/?id=23) has been established in Chile and is the fruit of a partnership between the US Department of Energy (DOE) and the Chilean National Energy Commission. It is being used to gather data on global best practices and techniques to be adapted for use in Chile, and hopes to become a knowledge source for the region. A law is also in place to oblige power utilities with a capacity above 200 megawatts (MW) to have 10 per cent of their energy come from renewable sources.
Central America has already enthusiastically embraced geothermal resources, according to the report by the GEA.
Currently, El Salvador and Costa Rica derive 24 per cent (204 MW) and 12 per cent (163 MW) of their electricity production from geothermal energy. Nicaragua and Guatemala are also generating a portion of their electricity from geothermal energy.
And Central America has still more geothermal potential it can tap. Estimates place this between 3,000 megawatts and 13,000 megawatts at 50 identified geothermal sites.
5) Iceland Geothermal Conference 2013: An international conference on geothermal will be held 5-8 March 2013 at Harpa Conference Centre in Reykjavik, Iceland and is hosted by the Iceland Geothermal initiative. Website:http://geothermalconference.is/
In an effort to diversify its power supply and meet growing electricity demand, Kenya is looking to increase its use of geothermal energy sources (http://en.wikipedia.org/wiki/Geothermal_electricity). Tapping the abundant heat and steam that lurks underground to drive electric power plants offers a sustainable and long-term source of low-cost energy.
Kenya currently gets most of its electricity from hydroelectric projects. This is great until there is a drought, which there now is. With water resources low, the country has had to turn to fossil fuels to power electricity generators. This means relying on imported diesel, which is both expensive and polluting. It is also not generating enough electricity to keep up with demand.
Electricity blackouts have become common in the country and this is harming economic development. This is a particularly damaging setback in a country that has, in the last five years, gained a deserved reputation for its technological advances in mobile phone applications and Internet services – all needing reliable supplies of electricity.
Kenya is Africa’s largest geothermal producer and has geothermal resources concentrated near a giant volcanic crater in the Great Rift Valley with 14 fields reaching from Lake Magadi to Lake Turkana. There are also low temperature fields in Homa Hills and Massa Mukwe (http://www.gdc.co.ke/index.php?option=com_content&view=article&id=191&Itemid=163).
Kenya is expecting its gross domestic product (GDP) to grow by 10 per cent from 2012 onwards. The country hopes to become a middle income country by 2030.
Around 1,400 steam wells will be drilled by companies to meet these goals.
There are also many spin-off opportunities from tapping geothermal heat sources. These include using the steam heat for greenhouses growing plants, for cooling and heating buildings, and for drying and pasteurising foods.
Kenya is currently building a 52-megawatt (MW) geothermal project with funding from the United States government. It is also receiving US$149 million funding from the African Development Bank Group (AfDB) to build the Menengai Geothermal Development Project. This plant will be able to generate 400 megawatts of renewable electricity from the Menengai geothermal sources in the steam field located 180 kilometres northwest of the capital, Nairobi (http://www.gdc.co.ke/index.php?option=com_content&view=category&layout=blog&id=49&Itemid=137).
Speaking at a press conference this month, Gabriel Negatu, AfDB’s Regional Director, said he sees geothermal technology as an important driver of Kenya’s green growth ambition.
“Geothermal generation yields energy that is clean, affordable, reliable and scalable,” he said.
The Geothermal Development Company (GDC) (gdc.co.ke) is a state-owned company in Kenya and recently declared it had tapped steam with a well in the Menengai steam field. GDC started surface exploration in 2009 and has been using two drilling rigs to look for geothermal steam.
The Menengai Geothermal Development Project is slated to be completed by 2016 and will boost the country’s geothermal capability by 20 per cent. It is estimated to be able to power the electricity needs of 500,000 Kenyan households and power the needs of 300,000 small businesses.
Geothermal as a source of energy and electricity can help a country make big development gains. The best example is the Northern European island nation of Iceland. According to Orkustofnun (nea.is/geothermal), Iceland’s National Energy Authority, the country is a successful example of how a small, poor nation (Iceland was one of Europe’s poorest countries in the 20th century), shook off its dependence on burning peat and importing coal for its energy use. By 2007, Iceland was listed in the global Human Development Report as the country with the highest level of human development in the world. And one aspect of this success was the country’s ability to tap its renewable energy resources. Around 84 per cent of the country’s primary energy use comes from renewable resources, and 66 per cent of this is geothermal.
It is estimated Kenya could generate 7,000 megawatts of geothermal power and the Kenyan government is looking to increase the nation’s geothermal capacity from the current 198 MW to 1,700 MW by 2020 and 5,530 MW by 2031.
David South Consulting 
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