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HYDROELECTRIC POWER (3) answer(s).
 
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ID:   133158


Ethiopia's grand renaissance dam: ending Africa's oldest geopolitical rivalry? / Gebreluel, Goitom   Journal Article
Gebreluel, Goitom Journal Article
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Publication 2014.
Summary/Abstract Ethiopia surprised northeastern Africa in 2011 by announcing its plan to construct the first hydroelectric dam on the Blue Nile. With an annual production capacity of 6,000 megawatts, the Grand Ethiopian Renaissance Dam (GERD) is set to become the largest hydroelectric power plant in Africa. Expected to be completed by 2015, the dam will not only break Egypt's millennia-long monopoly over the Nile waters, but will also, according to Cairo, threaten its water supply. The Nile is Egypt's only major source of freshwater and has served as the lifeline of the nation since the dawn of its civilization.
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2
ID:   108444


Reservoirs of problems / Dastageer, Ghulam   Journal Article
Dastageer, Ghulam Journal Article
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Publication 2011.
Key Words Electricity  Dam  Hydroelectric Power  Panacea  Pakistan - 1967-1977 
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3
ID:   128023


Sustainable power and scenic beauty: the Niagara River water diversion treaty and its relevance today / Sedoff, Andrei; Schott, Stephan; Karney, Bryan   Journal Article
Sedoff, Andrei Journal Article
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Publication 2014.
Summary/Abstract Niagara Falls and the Niagara River have always attracted great public interest due to their natural beauty, their enormous potential for electricity generation, their recreational value and as an important ecosystem. There have been simultaneous efforts to preserve this unique natural wonder and harness its power through hydroelectric development projects by both the United States and Canada. This paper explores the evolution of these efforts that culminated with the signing of the 1950 Niagara River Water Diversion Treaty that established minimum water flow rates to protect the "scenic beauty" of the falls, allowing the remaining water to be diverted for power production. We examine the rationale that led to specific water flow restrictions and question to what extent they are relevant today, as water intake capacity on the Canadian side has just been extended by around 25%. We find that current restrictions under the Niagara River Water Treaty (that expired in 2000) are not based on sound scientific evidence and estimate the upper limit of potential foregone benefits from clean electricity generation and greenhouse gas reductions. We identify a number of important issues that emerged in the last decades and that would justify an exploration of new treaty rules.
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