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ABB hails green energy grid breakthrough 

Credit:  CAROLINE COPLEY AND CHRIS WICKHAM ZURICH AND LONDON — Reuters | via www.theglobeandmail.com Nov 07, 2012 ~~

Swiss firm ABB Ltd. announced a breakthrough in technology to carry electricity over long distances, making desert solar plants and ocean wind farms much more viable.

Its new circuit breaker makes it easier to send electricity through high-voltage direct-current (DC) lines into the grids that link power stations to consumers, the engineering company said on Wednesday.

DC lines are much more efficient over long distances than the alternating-current (AC) lines that are largely used at the moment. They are also more compatible with some forms of renewable power generation.

But using DC lines widely has been impractical without a heavy-duty circuit breaker that can cut power when need be.

The search for such a circuit breaker has taken more than 100 years and ABB has been battling rivals Alstom SA and Siemens AG to invent one first – potentially giving it an important advantage in what it hopes will be a multibillion-dollar market for DC grids.

“If they’ve managed to do this, it’s very significant,” said Roger Kemp, an engineering professor at Lancaster University in northern England. “DC transmission is a much higher-efficiency way of moving electricity around.”

It could bring closer the idea of huge solar power arrays in the Sahara Desert supplying electricity to Europe, Prof. Kemp said.

ABB chief executive officer Joe Hogan hailed what he said was “a new chapter in the history of electrical engineering.”

High voltage DC is already used to connect wind farms to the power grid and for delivering power to offshore oil and gas platforms. But without a breaker, its use is very limited.

If you try to switch off direct current at the very high voltages needed for power transmission, it can cause a spark across the switch which simply keeps the electricity flowing. That is not a problem with alternating current because there is a window to interrupt the flow.

The challenge of breaking direct current can be compared to quickly stopping a truck hurtling down a highway at top speed, said ABB’s chief power engineer, Claes Rytoft.

ABB’s circuit breaker works by combining mechanical and power electronics that are capable of interrupting power flows equivalent to the output of a large power station within five milliseconds – 30 times faster than the blink of a human eye.

Conventional AC grids are also not compatible with the DC power produced by many renewable sources, particularly solar energy. Computers, televisions and mobile phones also run on DC, meaning electricity has to be converted from AC.

The two systems have been at odds since their proponents, Nikola Tesla and Thomas Edison, battled for supremacy in the new technology a century ago.

Edison even electrocuted an elephant to highlight the dangers of Tesla’s AC power, but his rival’s system took off because it could transmit electricity further. At the time, DC power couldn’t carry power beyond a few city blocks.

High voltage DC can transmit 30- to 40-per-cent more energy than conventional overhead lines carrying alternating current, however, making it a better option for bringing power from distant sources.

ABB is in talks with utility companies to identify pilot projects for the technology over the next 12 months.

ABB has already installed a 2,000-kilometre line in China that operates DC power while a 2,375-km high-voltage DC project under construction in Brazil will be the world’s longest such transmission line when it comes online in 2013.

In Europe, high voltage DC is currently used to connect Britain and the Netherlands. The island of Majorca, whose tourists push up power demand every summer, was hooked up to the Spanish mainland in September, 2011.

Source:  CAROLINE COPLEY AND CHRIS WICKHAM ZURICH AND LONDON — Reuters | via www.theglobeandmail.com Nov 07, 2012

This article is the work of the source indicated. Any opinions expressed in it are not necessarily those of National Wind Watch.

The copyright of this article resides with the author or publisher indicated. As part of its noncommercial educational effort to present the environmental, social, scientific, and economic issues of large-scale wind power development to a global audience seeking such information, National Wind Watch endeavors to observe “fair use” as provided for in section 107 of U.S. Copyright Law and similar “fair dealing” provisions of the copyright laws of other nations. Send requests to excerpt, general inquiries, and comments via e-mail.

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