The Middle East’s Renewable Energy Potential


Middle East's Great Solar Potential

Middle East’s Great Solar Potential

The world’s largest solar thermal power plant went online Monday 18/03/2013—in Abu Dhabi. The Middle Eastern petro-states are the new solar-energy hot-spots. (An excerpt from an article in Quatz, by Todd Woody and from Power Engineering).

The inauguration of the 100-megawatt Shams 1 power station by Abu Dhabi renewable energy company Masdar underscores the emergence of Middle East petro-kingdoms as the new hot market for solar energy as European markets constrict and developers in the US face hurdles to building massive projects in fragile desert environments.

Masdar chief executive Sultan Ahmed Al Jaber called Shams 1 “a major breakthrough for renewable energy in the Middle East,” noting that the company now generates nearly 10% of the world’s solar thermal electricity. Shams 1 will power about 20,000 homes in the emirate.

“The Middle East holds nearly half of the world’s renewable energy potential,” said Santiago Seage, CEO of Abengoa Solar. “The abundance of solar energy is an opportunity to integrate sustainable, clean sources of power that address energy security and climate change. The region needs more projects like Shams 1, and we look forward to pushing the boundaries of future energy.”

For OPEC states, renewable energy is a long-term strategy to preserve their most precious resource. The more solar electricity sun-soaked, oil-rich nations like the United Arab Emirates can produce to power their domestic economies, the more petroleum they conserve to export.

Saudi Arabia, for instance, announced late last year that it’s seeking $100 billion in investment to build enough solar energy capacity to supply a third of the nation’s electricity demand. And petroleum-poor Israel is looking to solar to lessen its dependence on Middle East Oil. In November, it awarded a contract to California developer BrightSource Energy and Alstom, the French energy giant, to build a 121-megawatt solar thermal power plant.

The $600 million Shams 1 project is also a boost for the solar thermal industry, which has faced growing competition from photovoltaic power developers as the price of solar panels has plunged in recent years.

Covering an area of 2.5 km – or 285 football fields – Shams 1 incorporates the latest in parabolic trough technology and features more than 258,000 mirrors mounted on 768 tracking parabolic trough collectors. The project uses a booster heater to heat steam as it enters the turbine, dramatically boosting the cycle’s efficiency. Shams 1also features a dry-cooling system that significantly reduces water consumption – a critical advantage in the arid desert.

Unlike photovoltaic power plants, which put on the ground thousands of solar panels like those found on residential rooftops, solar thermal—also called concentrating solar power (CSP)—uses mirrors to heat a boiler full of liquid to generate steam, which drives an electricity-generating turbine. While technologically more complicated than photovoltaic power plants, solar thermal stations can operate for longer periods and are less prone to losing power from passing clouds, because it takes time for the liquid in the boiler to cool.

solar-thermal-power-plant

How a solar thermal power plant works

The 2.5-square-kilometer (0.96 square mile) Shams 1 deploys long rows of curved mirrors called parabolic troughs to focus sun on overhead pipes filled with synthetic oil. Shams 1 is unlikely to keep its world title for long, though. Later this year BrightSource Energy’s 370-megawatt Ivanpah solar thermal power plant is set to come online in the California desert, as is a 280-megawatt solar trough project in Arizona built by Abengoa of Spain.

The joint venture that built Shams 1 is also an indicator of the changing economics of large solar thermal projects, which often require billions of dollars to construct. Masdar created a partnership with Total, the French energy conglomerate that owns a majority stake in US photovoltaic developer SunPower, and Abengoa.

Such alliances among competitors are becoming increasingly common. On Friday, BrightSource and Abengoa announced they had formed a partnership to build a 500-megawatt solar thermal power plant in California using BrightSource’s technology.

Original Articles:

http://qz.com/64142/why-middle-eastern-petro-states-are-the-new-solar-energy-hotspots/

http://www.power-eng.com/news/2013/03/17/masdar-launches-shams-1-the-world-s-largest-concentrated-solar-power-plant-in-operation.html

 

Advertisements

About Georges Abi-Aad

CEO, electronic engineer with MBA in marketing. Multicultural; French citizen born in Lebanon working in the Middle East and fluent in French, English and Arabic. I have more than 30 years of proven experience in the Middle East with European know how. I am good in reorganization and in Global strategic management business. I am a dependable leader with an open approach in working with people, forging a strong team of professionals dedicated to the Company and its clientele. Perseverance is my key word. Married to Carole and having 2 children: Joy-Joelle and Antoine (Joyante!).
This entry was posted in Energy, Engineering, Green Energy, Green Technology, Middle east, Technology, UAE and tagged , , , , , , , , . Bookmark the permalink.

2 Responses to The Middle East’s Renewable Energy Potential

Leave a Reply

Fill in your details below or click an icon to log in:

WordPress.com Logo

You are commenting using your WordPress.com account. Log Out / Change )

Twitter picture

You are commenting using your Twitter account. Log Out / Change )

Facebook photo

You are commenting using your Facebook account. Log Out / Change )

Google+ photo

You are commenting using your Google+ account. Log Out / Change )

Connecting to %s