Search results
Results From The WOW.Com Content Network
Egypt is concerned that Ethiopia is using water from the Nile to fill its giant Renaissance dam.
The Qattara Depression Project or Qattara Project is a macro-engineering project concept in Egypt. Rivalling the Aswan High Dam in scope, the intention is to develop the hydroelectric potential of the Qattara Depression by creating an artificial lake. [1]
The High Dam protects Egypt from floods, stores water for year-round irrigation and produces hydropower. With a live storage capacity of 90 billion cubic the dam stores more than one and a half the average annual flow of the Nile River, thus providing a high level of regulation in the river basin compared to other regulated rivers in the world.
Collectively, the dams will use nearly 500 million mcm/y of the Nile’s annual flow. [3] Ethiopia is the only Nile River riparian to make a legal claim to Nile waters other than Egypt or Sudan since the Nile Waters Treaty was signed in 1959. Like in Egypt, population growth in Ethiopia has led to an increase in water consumption.
Why is Egypt worried about Ethiopia's dam on the Nile? A quick guide to Somaliland [Getty Images/BBC] Go to BBCAfrica.com for more news from the African continent.
Ethiopia's move to fill the dam's reservoir could reduce Nile flows by as much as 25% and devastate Egyptian farmlands. [1]Water conflict typically refers to violence or disputes associated with access to, or control of, water resources, or the use of water or water systems as weapons or casualties of conflicts.
The agreement granted Egypt the right to construct the Aswan High Dam that can store the entire annual Nile River flow of a year. It granted the Sudan to construct the Rosaries Dam on the Blue Nile and, to develop other irrigation and hydroelectric power generation until it fully utilizes its Nile share.
One dam burst, then a second, sending a huge wave of water gushing down through the mountains towards the coastal Libyan city, killing thousands as entire neighborhoods were swept into the sea.