Dam break analysis of Old Aswan Dam on Nile River using HEC-RAS

2020 ◽  
Vol 10 (6) ◽  
pp. 557
Author(s):  
Amira M. Helwa ◽  
Mohamed H. Elgamal ◽  
Ashraf H. Ghanem
Keyword(s):  
Dam Break ◽  
Nile River ◽  
Aswan Dam

Dam Break Analysis of Old Aswan Dam on Nile River Using HecRas

2020 ◽  
Vol 1 (1) ◽  
pp. 1
Author(s):  
Ashraf Ghanem ◽  
Amira Helwa ◽  
Mohamed Elgamal
Keyword(s):  
Dam Break ◽  
Nile River ◽  
Aswan Dam

scholarly journals Effect of Grand Ethiopian Renaissance Dam on the Water Footprint of Aswan High Dam Hydropower

2020 ◽  
Author(s):  
Sherine Ahmed Elbaradei ◽  
Sarah Ehab Abdelkader
Keyword(s):  
Mathematical Modeling ◽  
Water Footprint ◽  
Nile River ◽  
High Aswan Dam ◽  
Aswan Dam ◽  
Negative Effect ◽  
Aswan High Dam ◽  
Reservoir Filling

Abstract Construction of the Ethiopian Grand Renaissance dam (GRD) has many impacts and implication on the water share and future use in Egypt. Especially the period of the reservoir filling will have a great effect on the Nile River and its water in Egypt. Many of these effects of the GRD on Egypt has been studied before, but no study was done on the effect of its existence on the hydropower water footprint of the High Aswan dam. This research is concerned by simulating the effect of the different GRD reservoir filling scenarios on the water footprint of the hydropower generated from the High Aswan dam. Also, the effect on the hydropower of the Aswan dam itself is also simulated and assessed. Mathematical modeling is used to reach those goals. Three filling scenarios of the GRD were investigated: namely 3 years, 5 years, and 6 years. It was found that as the filling duration of the GRD decreases the negative effect on the hydropower water footprint increases.

scholarly journals Optimal operation of a multipurpose multireservoir system in the Eastern Nile River Basin

2010 ◽  
Vol 14 (10) ◽  
pp. 1895-1908 ◽  
Author(s):  
Q. Goor ◽  
C. Halleux ◽  
Y. Mohamed ◽  
A. Tilmant
Keyword(s):  
River Basin ◽  
Economic Benefits ◽  
Optimal Operation ◽  
Nile River ◽  
Hydropower Generation ◽  
Blue Nile ◽  
High Aswan Dam ◽  
Basin Scale ◽  
Aswan Dam ◽  
Nile River Basin

Abstract. The upper Blue Nile River Basin in Ethiopia is a largely untapped resource despite its huge potential for hydropower generation and irrigated agriculture. Controversies exist as to whether the numerous infrastructural development projects that are on the drawing board in Ethiopia will generate positive or negative externalities downstream in Sudan and Egypt. This study attempts at (1) examining the (re-)operation of infrastructures, in particular the proposed reservoirs in Ethiopia and the High Aswan Dam and (2) assessing the economic benefits and costs associated with the storage infrastructures in Ethiopia and their spatial and temporal distribution. To achieve this, a basin-wide integrated hydro-economic model has been developed. The model integrates essential hydrologic, economic and institutional components of the river basin in order to explore both the hydrologic and economic consequences of various policy options and planned infrastructural projects. Unlike most of the deterministic economic-hydrologic models reported in the literature, a stochastic programming formulation has been adopted in order to: (i) understand the effect of the hydrologic uncertainty on management decisions, (ii) determine allocation policies that naturally hedge against the hydrological risk, and (iii) assess the relevant risk indicators. The study reveals that the development of four mega dams in the upper part of the Blue Nile Basin would change the drawdown refill cycle of the High Aswan Dam. Should the operation of the reservoirs be coordinated, they would enable an average annual saving of at least 2.5 billion m3 through reduced evaporation losses from the Lake Nasser. Moreover, the new reservoirs (Karadobi, Beko-Abo, Mandaya and Border) in Ethiopia would have significant positive impacts on hydropower generation and irrigation in Ethiopia and Sudan: at the basin scale, the annual energy generation is boosted by 38.5 TWh amongst which 14.2 TWh due to storage. Moreover, the regulation capacity of the above mentioned reservoirs would enable an increase of the Sudanese irrigated area by 5.5%.

scholarly journals Rebuilding Cultural Identity

2018 ◽  
Vol 3 (1) ◽  
pp. 17
Author(s):  
Mourad S. Amer
Keyword(s):  
Cultural Identity ◽  
Cultural Heritage ◽  
Main Idea ◽  
Urban Spaces ◽  
Nile River ◽  
Architectural Elements ◽  
Lake Nasser ◽  
Aswan Dam ◽  
The World ◽  
Different Parts

Ever since the completion of the High Dam in 1964, Nubians have lost their culture and heritage as a result of sacrificing their land to flooding. Eventually, they became dispersed all over Sudan and Egypt with some ending up in different parts of the world and struggling to return to the shores of Lake Nasser. With short-lived success, Nubians managed to make a resurrection of Wade Half and re-locate in Sudanese towns. This paper aims to conserve the Nubian identity, which has been abandoned throughout the people’s emigration process. This paper presents a proposal of rehabilitation to the Nubians and their homeland along the shore of Lake Nasser. This paper provides recommendations for methods to repairing the damage caused to the Nubian population following their relocation and construction of the Aswan dam. The main idea behind this proposal is to re- link the Nubians to a life they loved and violated in terms of their association with the Nile River. It is an attempt to restore their favorite urban spaces and architectural elements. Without a doubt, the proposal encompasses recommendations to producing new designs to the Nubian house conforming to their identity, cultural heritage, and modern-day civilization as a way of rehabilitation.

scholarly journals Optimal operation of a multipurpose multireservoir system in the Eastern Nile River Basin

2010 ◽  
Vol 7 (4) ◽  
pp. 4331-4369 ◽  
Author(s):  
Q. Goor ◽  
C. Halleux ◽  
Y. Mohamed ◽  
A. Tilmant
Keyword(s):  
River Basin ◽  
Economic Benefits ◽  
Optimal Operation ◽  
Nile River ◽  
Hydropower Generation ◽  
Blue Nile ◽  
High Aswan Dam ◽  
Basin Scale ◽  
Aswan Dam ◽  
Nile River Basin

Abstract. The upper Blue Nile River Basin in Ethiopia is a largely untapped resource despite its huge potential for hydropower generation and irrigated agriculture. Controversies exist as to whether the numerous infrastructural development projects that are on the drawing board in Ethiopia will generate positive or negative externalities downstream in Sudan and Egypt. This study attempts at 1) examining the (re-)operation of infrastructures, in particular the proposed reservoirs in Ethiopia and the High Aswan Dam and 2) assessing the economic benefits and costs associated with the storage infrastructures in Ethiopia and their spatial and temporal distribution. To achieve this, a basin-wide integrated hydro-economic model has been developed. The model integrates essential hydrologic, economic and institutional components of the river basin in order to explore both the hydrologic and economic consequences of various policy options and planned infrastructural projects. Unlike most of the deterministic economic-hydrologic models reported in the literature, a stochastic programming formulation has been adopted in order to: i) understand the effect of the hydrologic uncertainty on management decisions, ii) determine allocation policies that naturally hedge against the hydrological risk, and iii) assess the relevant risk indicators. The study reveals that the development of four mega dams in the upper part of the Blue Nile Basin would change the drawdown refill cycle of the High Aswan Dam. Should the operation of the reservoirs be coordinated, they would enable an average annual saving of at least 2.5 billion m3 through reduced evaporation losses from the Lake Nasser. Moreover, the new reservoirs (Karadobi, Beko-Abo, Mandaya and Border) in Ethiopia would have significant positive impacts on hydropower generation and irrigation in Ethiopia and Sudan: at the basin scale, the annual energy generation is boosted by 38.5 TWh amongst which 14.2 TWh due to storage. Moreover, the regulation capacity of the above mentioned reservoirs would enable an increase of the Sudanese irrigated area by 5.5%.

scholarly journals Development of Nile River islands between Old Aswan Dam and new Esna barrages

Water Science ◽  
2015 ◽  
Vol 29 (1) ◽  
pp. 77-92 ◽  
Author(s):  
Yasser Raslan ◽  
Radwa Salama
Keyword(s):  
Nile River ◽  
River Islands ◽  
Aswan Dam

From individualistic behavior to full cooperation: optimal management policy design under varying cooperation levels in the Nile River basin

2020 ◽  
Author(s):  
Giacomo Trombetta ◽  
Andrea Castelletti ◽  
Matteo Giuliani ◽  
Marta Zaniolo ◽  
Paul Block
Keyword(s):  
Water Supply ◽  
River Basin ◽  
Optimal Operation ◽  
Management Policy ◽  
Nile River ◽  
Blue Nile ◽  
High Aswan Dam ◽  
Aswan Dam ◽  
Nile River Basin ◽  
Full Cooperation

<p>Transboundary river basins worldwide are commonly managed by unique, institutionally independent decision makers and characterized by multiple stakeholders with conflicting interests, including distribution, co-management, and use of water resources across sectors and among countries. This competition is expected to exacerbate in the future due to climate change induced water scarcity, increasing demand, and the development of infrastructure, which is often criticized for potentially jeopardizing downstream security by affecting water supply, irrigation, and energy production. </p><p>The Nile River basin is an emblematic transboundary basin, encompassing 11 countries and home to one-third of the African population. The largest fraction of Nile River streamflow originates in Ethiopia and is conveyed into the system via the Blue Nile. However, the larger water users have historically been downstream, in particular Egypt, where the High Aswan Dam (HAD) constitutes the backbone of Egyptian electricity supply and enables the irrigation of vast agricultural districts. This geographic disparity between water origination and consumption provides both the potential for conflict and the rationale for cooperation. Currently, the ongoing construction of the soon-to-be largest dam in Africa, the Grand Ethiopian Renaissance Dam (GERD) on the Blue Nile, is highly debated given concerns rising from how it will affect water supply and power generation in downstream countries. However, GERD may represent a response to the frequent regional power shortages, foster economic development, and represents a unique opportunity for cooperation between riparian countries from which all parties can benefit.</p><p>In this work we explore how varying levels of cooperation among the riparian countries, from individualistic behavior to full cooperation, might impact hydropower production and irrigated agriculture in the Nile River basin. We use an Evolutionary Multi-Objective Direct Policy Search approach to design optimal operation of a three-dimensional reservoir system, including GERD (Ethiopia), HAD (Egypt), and Merowe Dam (Sudan), under historical hydro-climatic conditions and under different cooperation levels, assuming the capacity of re-optimization of the High Aswan Dam and the Merowe Dam. Expected results may illustrate the benefits of implementing a centralized rather than an individualistic strategy, highlighting the value of full information exchange and of basin-wide cooperation.</p>

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