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Aswan Dam

February 16, 2024

For the older Aswan Dam built downstream in 1902, see Aswan Low Dam.

The Aswan Dam, or more specifically since the 1980s, the Aswan High Dam, is one of the world's largest embankment dams, which was built across the Nile in Aswan, Egypt, between 1960 and 1970. When it was completed, it was the tallest earthen dam in the world, eclipsing the United States' Chatuge Dam.[2] Its significance largely upstaged the previous Aswan Low Dam initially completed in 1902 downstream. Based on the success of the Low Dam, then at its maximum utilization, construction of the High Dam became a key objective of the new regime the Free Officers movement of 1952; with its ability to better control flooding, provide increased water storage for irrigation and generate hydroelectricity, the dam was seen as pivotal to Egypt's planned industrialization. Like the earlier implementation, the High Dam has had a significant effect on the economy and culture of Egypt.

Aswan High Dam
The Aswan High Dam as seen from space
Location of the Aswan Dam in Egypt
Official nameAswan High Dam
LocationAswan, Egypt
Coordinates23°58′14″N 32°52′40″E / 23.97056°N 32.87778°E / 23.97056; 32.87778
Construction began1960; 64 years ago (1960)
Opening date1970; 54 years ago (1970)
Owner(s)Egypt
Dam and spillways
Type of damEmbankment
ImpoundsRiver Nile
Height111 m (364 ft)
Length3,830 m (12,570 ft)
Width (base)980 m (3,220 ft)
Spillway capacity11,000 m3/s (390,000 cu ft/s)
Reservoir
CreatesLake Nasser
Total capacity132 km3 (107,000,000 acre⋅ft)
Surface area5,250 km2 (2,030 sq mi)
Maximum length550 km (340 mi)
Maximum width35 km (22 mi)
Maximum water depth130 m (430 ft)
Normal elevation183 m (600 ft)
Power Station
Commission date1967–1971
Turbines12×175 MW (235,000 hp) Francis-type
Installed capacity2,100 MW (2,800,000 hp)
Annual generation10,042 GWh (2004)[1]

Before the High Dam was built, even with the old dam in place, the annual flooding of the Nile during late summer had continued to pass largely unimpeded down the valley from its East African drainage basin. These floods brought high water with natural nutrients and minerals that annually enriched the fertile soil along its floodplain and delta; this predictability had made the Nile valley ideal for farming since ancient times. However, this natural flooding varied, since high-water years could destroy the whole crop, while low-water years could create widespread drought and consequently famine. Both these events had continued to occur periodically. As Egypt's population grew and technology increased, both a desire and the ability developed to completely control the flooding, and thus both protect and support farmland and its economically important cotton crop. With the greatly increased reservoir storage provided by the High Aswan Dam, the floods could be controlled and the water could be stored for later release over multiple years.

The Aswan Dam was designed by the Moscow-based Hydroproject Institute.[3] Designed for both irrigation and power generation, the dam incorporates a number of relatively new features, including a very deep grout curtain below its base. Although the reservoir will eventually silt in, even the most conservative estimates indicate the dam will give at least 200 years of service.[4]

Construction history edit

The earliest recorded attempt to build a dam near Aswan was in the 11th century, when the Arab polymath and engineer Ibn al-Haytham (known as Alhazen in the West) was summoned to Egypt by the Fatimid Caliph, Al-Hakim bi-Amr Allah, to regulate the flooding of the Nile, a task requiring an early attempt at an Aswan Dam.[5] His field work convinced him of the impracticality of this scheme.[6]

Aswan Low Dam, 1898–1902 edit

Main article: Aswan Low Dam

The British began construction of the first dam across the Nile in 1898. Construction lasted until 1902 and the dam was opened on 10 December 1902. The project was designed by Sir William Willcocks and involved several eminent engineers, including Sir Benjamin Baker and Sir John Aird, whose firm, John Aird & Co., was the main contractor.[7][8]

Aswan High Dam prelude, 1954–1960 edit

See also: Closure of the Suez Canal (1956-1957)

In 1952, the Greek-Egyptian engineer Adrian Daninos began to develop the plan of the new Aswan Dam. Although the Low Dam was almost overtopped in 1946, the government of King Farouk showed no interest in Daninos's plans. Instead the Nile Valley Plan by the British hydrologist Harold Edwin Hurst was favored, which proposed to store water in Sudan and Ethiopia, where evaporation is much lower. The Egyptian position changed completely after the overthrow of the monarchy, led by the Free Officers Movement including Gamal Abdel Nasser. The Free Officers were convinced that the Nile Waters had to be stored in Egypt for political reasons, and within two months, the plan of Daninos was accepted.[9] Initially, both the United States and the USSR were interested in helping development of the dam. Complications ensued due to their rivalry during the Cold War, as well as growing intra-Arab tensions.

In 1955, Nasser was claiming to be the leader of Arab nationalism, in opposition to the traditional monarchies, especially the Hashemite Kingdom of Iraq following its signing of the 1955 Baghdad Pact. At that time the U.S. feared that communism would spread to the Middle East, and it saw Nasser as a natural leader of an anticommunist procapitalist Arab League. America and the United Kingdom offered to help finance construction of the High Dam, with a loan of $270 million, in return for Nasser's leadership in resolving the Arab-Israeli conflict. While opposed to communism, capitalism, and imperialism, Nasser identified as a tactical neutralist, and sought to work with both the U.S. and the USSR for Egyptian and Arab benefit.[10] After the UN criticized a raid by Israel against Egyptian forces in Gaza in 1955, Nasser realized that he could not portray himself as the leader of pan-Arab nationalism if he could not defend his country militarily against Israel. In addition to his development plans, he looked to quickly modernize his military, and he turned first to the U.S. for aid.

 
Egyptian President Nasser and Soviet leader Nikita Khrushchev at the ceremony to divert the Nile during the construction of the Aswan High Dam on 14 May 1964. At this occasion Khrushchev called it "the eighth wonder of the world".

American Secretary of State John Foster Dulles and President Dwight Eisenhower told Nasser that the U.S. would supply him with weapons only if they were used for defensive purposes and if he accepted American military personnel for supervision and training. Nasser did not accept these conditions, and consulted the USSR for support.

Although Dulles believed that Nasser was only bluffing and that the USSR would not aid Nasser, he was wrong: the USSR promised Nasser a quantity of arms in exchange for a deferred payment of Egyptian grain and cotton. On 27 September 1955, Nasser announced an arms deal, with Czechoslovakia acting as a middleman for the Soviet support.[11] Instead of attacking Nasser for turning to the Soviets, Dulles sought to improve relations with him. In December 1955, the US and the UK pledged $56 and $14 million, respectively, toward construction of the High Aswan Dam.[12]

 
Gamal Abdel Nasser observing the construction of the dam, 1963

Though the Czech arms deal created an incentive for the US to invest at Aswan, the UK cited the deal as a reason for repealing its promise of dam funds. Dulles was angered more by Nasser's diplomatic recognition of China, which was in direct conflict with Dulles's policy of containment of communism.[13]

Several other factors contributed to the US deciding to withdraw its offer of funding for the dam. Dulles believed that the USSR would not fulfil its commitment of military aid. He was also irritated by Nasser's neutrality and attempts to play both sides of the Cold War. At the time, other Western allies in the Middle East, including Turkey and Iraq, were resentful that Egypt, a persistently neutral country, was being offered so much aid.[14]

In June 1956, the Soviets offered Nasser $1.12 billion at 2% interest for the construction of the dam. On 19 July the U.S. State Department announced that American financial assistance for the High Dam was "not feasible in present circumstances."[12]

On 26 July 1956, with wide Egyptian acclaim, Nasser announced the nationalization of the Suez Canal that included fair compensation for the former owners. Nasser planned on the revenues generated by the canal to help fund construction of the High Dam. When the Suez War broke out, the United Kingdom, France, and Israel seized the canal and the Sinai. But pressure from the U.S. and the USSR at the United Nations and elsewhere forced them to withdraw.

In 1958, the USSR proceeded to provide support for the High Dam project.

 
A view from the vantage point in the middle of High Dam towards the monument of Arab-Soviet Friendship (Lotus Flower) by architects Piotr Pavlov, Juri Omeltchenko and sculptor Nikolay Vechkanov

In the 1950s, archaeologists began raising concerns that several major historical sites, including the famous temple of Abu Simbel were about to be submerged by waters collected behind the dam. A rescue operation began in 1960 under UNESCO (for details see below under Effects).

Despite its size, the Aswan project has not materially hurt the Egyptian balance of payments. The three Soviet credits covered virtually all of the project's foreign exchange requirements, including the cost of technical services, imported power generating and transmission equipment and some imported equipment for land reclamation. Egypt was not seriously burdened by payments on the credits, most of which were extended for 12 years with interest at the very low rate of 2-1/2%. Repayments to the USSR constituted only a small net drain during the first half of the 1960s, and increased export earnings derived from crops grown on newly reclaimed land have largely offset the modest debt service payments in recent years. During 1965–70, these export earnings amounted to an estimated $126 million, compared with debt service payments of $113 million.[15]

Construction and filling, 1960–1976 edit

 
A central pylon of the monument to Arab-Soviet Friendship. The memorial commemorates the completion of the Aswan High Dam. The coat of arms of the Soviet Union is on the left and the coat of arms of Egypt is on the right.

The Soviets also provided technicians and heavy machinery. The enormous rock and clay dam was designed by the Soviet Hydroproject Institute along with some Egyptian engineers. 25,000 Egyptian engineers and workers contributed to the construction of the dams.

Originally designed by West German and French engineers in the early 1950s and slated for financing with Western credits, the Aswan High Dam became the USSR's largest and most famous foreign aid project after the United States, the United Kingdom, and the International Bank for Reconstruction and Development (IBRD) withdrew their support in 1956. The first Soviet loan of $100 million to cover construction of coffer dams for diversion of the Nile was extended in 1958. An additional $225 million was extended in 1960 to complete the dam and construct power-generating facilities, and subsequently about $100 million was made available for land reclamation. These credits of some $425 million covered only the foreign exchange costs of the project, including salaries of Soviet engineers who supervised the project and were responsible for the installation and testing of Soviet equipment. Actual construction, which began in 1960, was done by Egyptian companies on contract to the High Dam Authority, and all domestic costs were borne by the Egyptians. Egyptian participation in the venture has raised the construction industry's capacity and reputation significantly.[4]

On the Egyptian side, the project was led by Osman Ahmed Osman's Arab Contractors. The relatively young Osman underbid his only competitor by one-half.[16]

  • 1960: Start of construction on 9 January[17]
  • 1964: First dam construction stage completed, reservoir started filling
  • 1970: The High Dam, as-Sad al-'Aali, completed on 21 July[18]
  • 1976: Reservoir reached capacity.

Specifications edit

The Aswan High Dam is 3,830 metres (12,570 ft) long, 980 m (3,220 ft) wide at the base, 40 m (130 ft) wide at the crest and 111 m (364 ft)[19] tall. It contains 43,000,000 cubic metres (56,000,000 cu yd) of material. At maximum, 11,000 cubic metres per second (390,000 cu ft/s) of water can pass through the dam. There are further emergency spillways for an extra 5,000 cubic metres per second (180,000 cu ft/s), and the Toshka Canal links the reservoir to the Toshka Depression. The reservoir, named Lake Nasser, is 500 km (310 mi) long[20] and 35 km (22 mi) at its widest, with a surface area of 5,250 square kilometres (2,030 sq mi). It holds 132 cubic kilometres (1.73×1011 cu yd) of water.

 
A panorama of the Aswan Dam looking south

Irrigation scheme edit

See also: Water resources management in modern Egypt
 
Green irrigated land along the Nile amidst the desert
 
Water balances
 
Main irrigation systems (schematically)

Due to the absence of appreciable rainfall, Egypt's agriculture depends entirely on irrigation. With irrigation, two crops per year can be produced, except for sugar cane which has a growing period of almost one year.

The high dam at Aswan releases, on average, 55 cubic kilometres (45,000,000 acre⋅ft) water per year, of which some 46 cubic kilometres (37,000,000 acre⋅ft) are diverted into the irrigation canals.

In the Nile valley and delta, almost 336,000 square kilometres (130,000 sq mi) benefit from these waters producing on average 1.8 crops per year. The annual crop consumptive use of water is about 38 cubic kilometres (31,000,000 acre⋅ft). Hence, the overall irrigation efficiency is 38/46 = 0.826 or 83%. This is a relatively high irrigation efficiency. The field irrigation efficiencies are much less, but the losses are reused downstream. This continuous reuse accounts for the high overall efficiency.

The following table shows the distribution of irrigation water over the branch canals taking off from the one main irrigation canal, the Mansuriya Canal near Giza.[21]

Branch canal Water delivery in m3/feddan *
Kafret Nasser 4,700
Beni Magdul 3,500
El Mansuria 3,300
El Hammami upstream 2,800
El Hammami downstream 1,800
El Shimi 1,200
* Period 1 March to 31 July. 1 feddan is 0.42 ha or about 1 acre.
* Data from the Egyptian Water Use Management Project (EWUP)[22]

The salt concentration of the water in the Aswan reservoir is about 0.25 kilograms per cubic metre (0.42 lb/cu yd), a very low salinity level. At an annual inflow of 55 cubic kilometres (45,000,000 acre⋅ft), the annual salt influx reaches 14 million tons. The average salt concentration of the drainage water evacuated into the sea and the coastal lakes is 2.7 kilograms per cubic metre (4.6 lb/cu yd).[23] At an annual discharge of 10 cubic kilometres (2.4 cu mi) (not counting the 2 kilograms per cubic metre [3.4 lb/cu yd] of salt intrusion from the sea and the lakes, see figure "Water balances"), the annual salt export reaches 27 million ton. In 1995, the output of salt was higher than the influx, and Egypt's agricultural lands were desalinizing. Part of this could be due to the large number of subsurface drainage projects executed in the last decades to control the water table and soil salinity.[24]

Drainage through subsurface drains and drainage channels is essential to prevent a deterioration of crop yields from waterlogging and soil salinization caused by irrigation. By 2003, more than 20,000 square kilometres (7,700 sq mi) have been equipped with a subsurface drainage system and approximately 7.2 square kilometres (2.8 sq mi) of water is drained annually from areas with these systems. The total investment cost in agricultural drainage over 27 years from 1973 to 2002 was about $3.1 billion covering the cost of design, construction, maintenance, research and training. During this period 11 large-scale projects were implemented with financial support from World Bank and other donors.[25]

Effects edit

The High Dam has resulted in protection from floods and droughts, an increase in agricultural production and employment, electricity production, and improved navigation that also benefits tourism. Conversely, the dam flooded a large area, causing the relocation of over 100,000 people. Many archaeological sites were submerged while others were relocated. The dam is blamed for coastline erosion, soil salinity, and health problems.

The assessment of the costs and benefits of the dam remains controversial decades after its completion. According to one estimate, the annual economic benefit of the High Dam immediately after its completion was LE 255 million, $587 million using the exchange rate in 1970 of $2.30 per LE 1): LE 140 million from agricultural production, LE 100 million from hydroelectric generation, LE 10 million from flood protection, and LE 5 million from improved navigation. At the time of its construction, total cost, including unspecified "subsidiary projects" and the extension of electric power lines, amounted to LE 450 million. Not taking into account the negative environmental and social effects of the dam, its costs are thus estimated to have been recovered within only two years.[26] One observer notes: "The impacts of the Aswan High Dam (...) have been overwhelmingly positive. Although the Dam has contributed to some environmental problems, these have proved to be significantly less severe than was generally expected, or currently believed by many people."[27] Another observer disagreed and he recommended that the dam should be torn down. Tearing it down would cost only a fraction of the funds required for "continually combating the dam's consequential damage" and 500,000 hectares (1,900 sq mi) of fertile land could be reclaimed from the layers of mud on the bed of the drained reservoir.[28] Samuel C. Florman wrote about the dam: "As a structure it is a success. But in its effect on the ecology of the Nile Basin – most of which could have been predicted – it is a failure".[29]

Periodic floods and droughts have affected Egypt since ancient times. The dam mitigated the effects of floods, such as those in 1964, 1973, and 1988. Navigation along the river has been improved, both upstream and downstream of the dam. Sailing along the Nile is a favorite tourism activity, which is mainly done during the winter when the natural flow of the Nile would have been too low to allow navigation of cruise ships.[clarification needed] A new fishing industry has been created around Lake Nasser, though it is struggling due to its distance from any significant markets. The annual production was about 35 000 tons in the mid-1990s. Factories for the fishing industry and packaging have been set up near the Lake.[30]

According to a 1971 CIA declassified report, Although the High Dam has not created ecological problems as serious as some observers have charged, its construction has brought economic losses as well as gains. These losses derive largely from the settling in dam's lake of the rich silt traditionally borne by the Nile. To date (1971), the main impact has been on the fishing industry. Egypt's Mediterranean catch, which once averaged 35,000-40,000 tons annually, has shrunk to 20,000 tons or less, largely because the loss of plankton nourished by the silt has eliminated the sardine population in Egyptian waters. Fishing in high dam's lake may in time at least partly offset the loss of saltwater fish, but only the most optimistic estimates place the eventual catch as high as 15,000-20,000 tons. Lack of continuing silt deposits at the mouth of the river also has contributed to a serious erosion problem. Commercial fertilizer requirements and salination and drainage difficulties, already large in perennially irrigated areas of Lower and Middle Egypt, will be somewhat increased in Upper Egypt by the change to perennial irrigation.[4]

Drought protection, agricultural production and employment edit

 
The Egyptian countryside benefited from the Aswan High Dam through improved irrigation as well as electrification, as shown here in Al Bayadiyah, south of Luxor.

The dams also protected Egypt from the droughts in 1972–73 and 1983–87 that devastated East and West Africa. The High Dam allowed Egypt to reclaim about 2.0 million feddan (840,000 hectares) in the Nile Delta and along the Nile Valley, increasing the country's irrigated area by a third. The increase was brought about both by irrigating what used to be desert and by bringing under cultivation of 385,000 hectares (950,000 acres) that were previously used as flood retention basins.[31] About half a million families were settled on these new lands. In particular the area under rice and sugar cane cultivation increased. In addition, about 1 million feddan (420,000 hectares), mostly in Upper Egypt, were converted from flood irrigation with only one crop per year to perennial irrigation allowing two or more crops per year. On other previously irrigated land, yields increased because water could be made available at critical low-flow periods. For example, wheat yields in Egypt tripled between 1952 and 1991 and better availability of water contributed to this increase. Most of the 32 km3 of freshwater, or almost 40 percent of the average flow of the Nile that were previously lost to the sea every year could be put to beneficial use. While about 10 km3 of the water saved is lost due to evaporation in Lake Nasser, the amount of water available for irrigation still increased by 22 km3.[30] Other estimates put evaporation from Lake Nasser at between 10 and 16 cubic km per year.[32]

 
Power pylons at the power plant of the Aswan High Dam.

Electricity production edit

See also: Energy in Egypt
 
Power plant of the Aswan High Dam, with the dam itself in the background.

The dam powers twelve generators each rated at 175 megawatts (235,000 hp), with a total of 2.1 gigawatts (2,800,000 hp). Power generation began in 1967. When the High Dam first reached peak output it produced around half of Egypt's production of electric power (about 15 percent by 1998), and it gave most Egyptian villages the use of electricity for the first time. The High Dam has also improved the efficiency and the extension of the Old Aswan Hydropower stations by regulating upstream flows.[30]

All High Dam power facilities were completed ahead of schedule. 12 turbines were installed and tested, giving the plant an installed capacity of 2,100 megawatts (MW), or more than twice the national total in 1960. With this capacity, the Aswan plant can produce 10 billion kWh of energy yearly. Two 500-kilovolt trunk lines to Cairo have been completed, and initial transmission problems, stemming mainly from poor insulators, were solved. Also, the damage inflicted on a main transformer station in 1968 by Israeli commandos has been repaired, and the Aswan plant is fully integrated with the power network in Lower Egypt.[33] By 1971 estimation, Power output at Aswan, won't reach much more than half of the plant's theoretical capacity, because of limited water supplies and the differing seasonal water-use patterns for irrigation and power production. Agricultural demand for water in the summer far exceeds the amount needed to meet the comparatively low summer demand for electric power. Heavy summer irrigation use, however, will leave insufficient water under Egyptian control to permit hydroelectric power production at full capacity in the winter. Technical studies indicate that a maximum annual output of 5 billion kWh appears to be all that can be sustained due to fluctuations in Nile flows.[34]

Resettlement and compensations edit

 
A picture of the old Wadi Halfa town that was flooded by Lake Nasser.

Lake Nasser flooded much of lower Nubia and 100,000 to 120,000 people were resettled in Sudan and Egypt.[35]

 
View of New Wadi Halfa, a settlement created on the shore of Lake Nasser to house part of the resettled population from the Old Wadi Halfa town.

In Sudan, 50,000 to 70,000 Sudanese Nubians were moved from the old town of Wadi Halfa and its surrounding villages. Some were moved to a newly created settlement on the shore of Lake Nasser called New Wadi Halfa, and some were resettled approximately 700 kilometres (430 mi) south to the semi-arid Butana plain near the town of Khashm el-Girba up the Atbara River. The climate there had a regular rainy season as opposed to their previous desert habitat in which virtually no rain fell. The government developed an irrigation project, called the New Halfa Agricultural Development Scheme to grow cotton, grains, sugar cane and other crops. The Nubians were resettled in twenty five planned villages that included schools, medical facilities, and other services, including piped water and some electrification.

In Egypt, the majority of the 50,000 Nubians were moved three to ten kilometers from the Nile near Edna and Kom Ombo, 45 kilometers (28 mi) downstream from Aswan in what was called "New Nubia".[36] Housing and facilities were built for 47 village units whose relationship to each other approximated that in Old Nubia. Irrigated land was provided to grow mainly sugar cane.[37][38]

In 2019–20, Egypt started to compensate the Nubians who lost their homes following the dam impoundment.[39]

Archaeological sites edit

 
The statue of Ramses the Great at the Great Temple of Abu Simbel is reassembled after having been moved in 1967 to save it from being flooded.
Main article: International Campaign to Save the Monuments of Nubia

Twenty-two monuments and architectural complexes that were threatened by flooding from Lake Nasser, including the Abu Simbel temples, were preserved by moving them to the shores of the lake under the UNESCO Nubia Campaign.[40] Also moved were Philae, Kalabsha and Amada.[30]

These monuments were granted to countries that helped with the works:

These items were removed to the garden area of the Sudan National Museum of Khartoum:[41]

The Temple of Ptah at Gerf Hussein had its free-standing section reconstructed at New Kalabsha, alongside the Temple of Kalabsha, Beit el-Wali, and the Kiosk of Qertassi.

The remaining archaeological sites, including the Buhen fort and the cemetery of Fadrus have been flooded by Lake Nasser.

Loss of sediments edit

 
Lake Nasser behind the Aswan dam displaced more than 100,000 people and traps significant amounts of sediment.

Before the construction of the High Dam, the Nile deposited sediments of various particle size – consisting of fine sand, silt and clay – on fields in Upper Egypt through its annual flood, contributing to soil fertility. However, the nutrient value of the sediment has often been overestimated. 88 percent of the sediment was carried to the sea before the construction of the High Dam. The nutrient value added to the land by the sediment was only 6,000 tons of potash, 7,000 tons of phosphorus pentoxide and 17,000 tons of nitrogen. These amounts are insignificant compared to what is needed to reach the yields achieved today in Egypt's irrigation.[42] Also, the annual spread of sediment due to the Nile floods occurred along the banks of the Nile. Areas far from the river which never received the Nile floods before are now being irrigated.[43]

A more serious issue of trapping of sediment by the dam is that it has increased coastline erosion surrounding the Nile Delta. The coastline erodes an estimated 125–175 m (410–574 ft) per year.[44]

Waterlogging and increase in soil salinity edit

Before the construction of the High Dam, groundwater levels in the Nile Valley fluctuated 8–9 m (26–30 ft) per year with the water level of the Nile. During summer when evaporation was highest, the groundwater level was too deep to allow salts dissolved in the water to be pulled to the surface through capillary action. With the disappearance of the annual flood and heavy year-round irrigation, groundwater levels remained high with little fluctuation leading to waterlogging. Soil salinity also increased because the distance between the surface and the groundwater table was small enough (1–2 m depending on soil conditions and temperature) to allow water to be pulled up by evaporation so that the relatively small concentrations of salt in the groundwater accumulated on the soil surface over the years. Since most of the farmland did not have proper subsurface drainage to lower the groundwater table, salinization gradually affected crop yields.[31] Drainage through sub-surface drains and drainage channels is essential to prevent a deterioration of crop yields from soil salinization and waterlogging. By 2003, more than 2 million hectares have been equipped with a subsurface drainage system at a cost from 1973 to 2002 of about $3.1 billion.[45]

Health edit

 
Skin vesicles: a symptom of schistosomiasis. A more common symptom is blood in the urine.

Contrary to many predictions made prior to the Aswan High Dam construction and publications that followed, that the prevalence of schistosomiasis (bilharzia) would increase, it did not.[46] This assumption did not take into account the extent of perennial irrigation that was already present throughout Egypt decades before the high dam closure. By the 1950s only a small proportion of Upper Egypt had not been converted from basin (low transmission) to perennial (high transmission) irrigation. Expansion of perennial irrigation systems in Egypt did not depend on the high dam. In fact, within 15 years of the high dam closure there was solid evidence that bilharzia was declining in Upper Egypt. S. haematobium has since disappeared altogether. Suggested reasons for this include improvements in irrigation practice. In the Nile Delta, schistosomiasis had been highly endemic, with prevalence in the villages 50% or higher for almost a century before. This was a consequence of the conversion of the Delta to perennial irrigation to grow long staple cotton by the British. This has changed. Large-scale treatment programmes in the 1990s using single-dose oral medication contributed greatly to reducing the prevalence and severity of S. mansoni in the Delta.

Other effects edit

Sediment deposited in the reservoir is lowering the water storage capacity of Lake Nasser. The reservoir storage capacity is 162 km3, including 31 km3 dead storage at the bottom of the lake below 147 m (482 ft) above sea level, 90 km3 live storage, and 41 km3 of storage for high flood waters above 175 m (574 ft) above sea level. The annual sediment load of the Nile is about 134 million tons. This means that the dead storage volume would be filled up after 300–500 years if the sediment accumulated at the same rate throughout the area of the lake. Obviously sediment accumulates much faster at the upper reaches of the lake, where sedimentation has already affected the live storage zone.[42]

Before the construction of the High Dam, the 50,000 km (31,000 mi) of irrigation and drainage canals in Egypt had to be dredged regularly to remove sediments. After construction of the dam, aquatic weeds grew much faster in the clearer water, helped by fertilizer residues. The total length of the infested waterways was about 27,000 km (17,000 mi) in the mid-1990s. Weeds have been gradually brought under control by manual, mechanical and biological methods.[30]

 
The catch of sardines in the Mediterranean off the Egyptian coast declined after the Aswan Dam was completed, but the exact reasons for the decline are still disputed.

Mediterranean fishing and brackish water lake fishery declined after the dam was finished because nutrients that flowed down the Nile to the Mediterranean were trapped behind the dam. For example, the sardine catch off the Egyptian coast declined from 18,000 tons in 1962 to a mere 460 tons in 1968, but then gradually recovered to 8,590 tons in 1992. A scientific article in the mid-1990s noted that "the mismatch between low primary productivity and relatively high levels of fish production in the region still presents a puzzle to scientists."[47]

A concern before the construction of the High Dam had been the potential drop in river-bed level downstream of the Dam as the result of erosion caused by the flow of sediment-free water. Estimates by various national and international experts put this drop at between and 2 and 10 meters (6.6 and 32.8 ft). However, the actual drop has been measured at 0.3–0.7 meters (0.98–2.30 ft), much less than expected.[30]

The red-brick construction industry, which consisted of hundreds of factories that used Nile sediment deposits along the river, has also been negatively affected. Deprived of sediment, they started using the older alluvium of otherwise arable land taking out of production up to 120 square kilometers (46 sq mi) annually, with an estimated 1,000 square kilometers (390 sq mi) destroyed by 1984 when the government prohibited, "with only modest success," further excavation.[48] According to one source, bricks are now being made from new techniques which use a sand-clay mixture and it has been argued that the mud-based brick industry would have suffered even if the dam had not been built.[43]

Because of the lower turbidity of the water sunlight penetrates deeper in the Nile water. Because of this and the increased presence of nutrients from fertilizers in the water, more algae grow in the Nile. This in turn increases the costs of drinking water treatment. Apparently few experts had expected that water quality in the Nile would actually decrease because of the High Dam.[31]

Appraisal of the Project edit

Although it is moot whether the project constitutes the best use of the funds spent, the Aswan Dam project unquestionably is and will continue to be economically beneficial to Egypt. The project has been expensive and it took considerable time to complete, as is usually the case with large hydroelectric developments, But Egypt now has a valuable asset with a long life and low operating costs. Even so, the wisdom of concentrating one-third of domestic saving and most of available foreign aid on a slow growth project is questionable. Since 1960, GNP has grown 50%, but mainly as a result of other investment.

Egyptian authorities were well aware that equivalent gains in output could have been achieved more quickly and more cheaply by other means. A series of low dams, similar to the barrages now contemplated, was suggested by Egyptian engineers as a more economical means of achieving up to 2,000 mW of additional generating capacity, US and WorldBank agricultural experts had long recommended improved drainage, introduction of hybrid seeds, and other such low-cost alternatives to land reclamation as a means of increasing agricultural output, In other areas, most notably the once efficient cotton textile industry, investment was needed to forestall an output decline, Implementation of these and other alternatives has been postponed rather than precluded by the High Dam project.

However, the decision to concentrate Egyptian savings and energies on the Aswan project for a decade was heavily based on non-economic factors. Nasser undoubtedly believed that a project of considerable symbolic appeal was needed to mobilize the population behind the government's economic goals, He also apparently felt that the East and West would be more easily persuaded to bid against each other for a project of this scope.

The Aswan High Dam made an appreciable contribution to Egyptian GNP, however the returns were well below what the planners had anticipated. The principal limiting factors on the High Dam's contribution to Egyptian output are a shortage of land suitable for reclamation, the high cost and long time required to bring reclaimed land to full productivity, and an inadequate water supply to meet power and irrigation goals simultaneously. The last limitation arises in part from the allocation in a 1959 agreement of more water to Sudan than was originally foreseen and in part from differences in the seasonal demand pattern of agriculture and the hydroelectric plant for the water. Irrigation requires very heavy use of water during summer months, while power generation needs peak during the winter. Ecological problems created by the dam, most of which were anticipated, have not seriously harmed the economy, although a few minor industries have been damaged.

The dam is, nonetheless, a viable project. Eventually the contribution to GNP equals as much as 20% of total investment. Moreover, the dam and associated projects provided returns that at least offset the cost of operation, repayment of foreign loans and amortisation of domestic loans.[49]

See also edit

References edit

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aswan, older, built, downstream, 1902, aswan, more, specifically, since, 1980s, aswan, high, world, largest, embankment, dams, which, built, across, nile, aswan, egypt, between, 1960, 1970, when, completed, tallest, earthen, world, eclipsing, united, states, c. For the older Aswan Dam built downstream in 1902 see Aswan Low Dam The Aswan Dam or more specifically since the 1980s the Aswan High Dam is one of the world s largest embankment dams which was built across the Nile in Aswan Egypt between 1960 and 1970 When it was completed it was the tallest earthen dam in the world eclipsing the United States Chatuge Dam 2 Its significance largely upstaged the previous Aswan Low Dam initially completed in 1902 downstream Based on the success of the Low Dam then at its maximum utilization construction of the High Dam became a key objective of the new regime the Free Officers movement of 1952 with its ability to better control flooding provide increased water storage for irrigation and generate hydroelectricity the dam was seen as pivotal to Egypt s planned industrialization Like the earlier implementation the High Dam has had a significant effect on the economy and culture of Egypt Aswan High DamThe Aswan High Dam as seen from spaceLocation of the Aswan Dam in EgyptOfficial nameAswan High DamLocationAswan EgyptCoordinates23 58 14 N 32 52 40 E 23 97056 N 32 87778 E 23 97056 32 87778Construction began1960 64 years ago 1960 Opening date1970 54 years ago 1970 Owner s EgyptDam and spillwaysType of damEmbankmentImpoundsRiver NileHeight111 m 364 ft Length3 830 m 12 570 ft Width base 980 m 3 220 ft Spillway capacity11 000 m3 s 390 000 cu ft s ReservoirCreatesLake NasserTotal capacity132 km3 107 000 000 acre ft Surface area5 250 km2 2 030 sq mi Maximum length550 km 340 mi Maximum width35 km 22 mi Maximum water depth130 m 430 ft Normal elevation183 m 600 ft Power StationCommission date1967 1971Turbines12 175 MW 235 000 hp Francis typeInstalled capacity2 100 MW 2 800 000 hp Annual generation10 042 GWh 2004 1 Before the High Dam was built even with the old dam in place the annual flooding of the Nile during late summer had continued to pass largely unimpeded down the valley from its East African drainage basin These floods brought high water with natural nutrients and minerals that annually enriched the fertile soil along its floodplain and delta this predictability had made the Nile valley ideal for farming since ancient times However this natural flooding varied since high water years could destroy the whole crop while low water years could create widespread drought and consequently famine Both these events had continued to occur periodically As Egypt s population grew and technology increased both a desire and the ability developed to completely control the flooding and thus both protect and support farmland and its economically important cotton crop With the greatly increased reservoir storage provided by the High Aswan Dam the floods could be controlled and the water could be stored for later release over multiple years The Aswan Dam was designed by the Moscow based Hydroproject Institute 3 Designed for both irrigation and power generation the dam incorporates a number of relatively new features including a very deep grout curtain below its base Although the reservoir will eventually silt in even the most conservative estimates indicate the dam will give at least 200 years of service 4 Contents 1 Construction history 1 1 Aswan Low Dam 1898 1902 1 2 Aswan High Dam prelude 1954 1960 1 3 Construction and filling 1960 1976 2 Specifications 3 Irrigation scheme 4 Effects 4 1 Drought protection agricultural production and employment 4 2 Electricity production 4 3 Resettlement and compensations 4 4 Archaeological sites 4 5 Loss of sediments 4 6 Waterlogging and increase in soil salinity 4 7 Health 4 8 Other effects 5 Appraisal of the Project 6 See also 7 References 8 External linksConstruction history editThe earliest recorded attempt to build a dam near Aswan was in the 11th century when the Arab polymath and engineer Ibn al Haytham known as Alhazen in the West was summoned to Egypt by the Fatimid Caliph Al Hakim bi Amr Allah to regulate the flooding of the Nile a task requiring an early attempt at an Aswan Dam 5 His field work convinced him of the impracticality of this scheme 6 Aswan Low Dam 1898 1902 edit Main article Aswan Low Dam The British began construction of the first dam across the Nile in 1898 Construction lasted until 1902 and the dam was opened on 10 December 1902 The project was designed by Sir William Willcocks and involved several eminent engineers including Sir Benjamin Baker and Sir John Aird whose firm John Aird amp Co was the main contractor 7 8 Aswan High Dam prelude 1954 1960 edit See also Closure of the Suez Canal 1956 1957 In 1952 the Greek Egyptian engineer Adrian Daninos began to develop the plan of the new Aswan Dam Although the Low Dam was almost overtopped in 1946 the government of King Farouk showed no interest in Daninos s plans Instead the Nile Valley Plan by the British hydrologist Harold Edwin Hurst was favored which proposed to store water in Sudan and Ethiopia where evaporation is much lower The Egyptian position changed completely after the overthrow of the monarchy led by the Free Officers Movement including Gamal Abdel Nasser The Free Officers were convinced that the Nile Waters had to be stored in Egypt for political reasons and within two months the plan of Daninos was accepted 9 Initially both the United States and the USSR were interested in helping development of the dam Complications ensued due to their rivalry during the Cold War as well as growing intra Arab tensions In 1955 Nasser was claiming to be the leader of Arab nationalism in opposition to the traditional monarchies especially the Hashemite Kingdom of Iraq following its signing of the 1955 Baghdad Pact At that time the U S feared that communism would spread to the Middle East and it saw Nasser as a natural leader of an anticommunist procapitalist Arab League America and the United Kingdom offered to help finance construction of the High Dam with a loan of 270 million in return for Nasser s leadership in resolving the Arab Israeli conflict While opposed to communism capitalism and imperialism Nasser identified as a tactical neutralist and sought to work with both the U S and the USSR for Egyptian and Arab benefit 10 After the UN criticized a raid by Israel against Egyptian forces in Gaza in 1955 Nasser realized that he could not portray himself as the leader of pan Arab nationalism if he could not defend his country militarily against Israel In addition to his development plans he looked to quickly modernize his military and he turned first to the U S for aid nbsp Egyptian President Nasser and Soviet leader Nikita Khrushchev at the ceremony to divert the Nile during the construction of the Aswan High Dam on 14 May 1964 At this occasion Khrushchev called it the eighth wonder of the world American Secretary of State John Foster Dulles and President Dwight Eisenhower told Nasser that the U S would supply him with weapons only if they were used for defensive purposes and if he accepted American military personnel for supervision and training Nasser did not accept these conditions and consulted the USSR for support Although Dulles believed that Nasser was only bluffing and that the USSR would not aid Nasser he was wrong the USSR promised Nasser a quantity of arms in exchange for a deferred payment of Egyptian grain and cotton On 27 September 1955 Nasser announced an arms deal with Czechoslovakia acting as a middleman for the Soviet support 11 Instead of attacking Nasser for turning to the Soviets Dulles sought to improve relations with him In December 1955 the US and the UK pledged 56 and 14 million respectively toward construction of the High Aswan Dam 12 nbsp Gamal Abdel Nasser observing the construction of the dam 1963Though the Czech arms deal created an incentive for the US to invest at Aswan the UK cited the deal as a reason for repealing its promise of dam funds Dulles was angered more by Nasser s diplomatic recognition of China which was in direct conflict with Dulles s policy of containment of communism 13 Several other factors contributed to the US deciding to withdraw its offer of funding for the dam Dulles believed that the USSR would not fulfil its commitment of military aid He was also irritated by Nasser s neutrality and attempts to play both sides of the Cold War At the time other Western allies in the Middle East including Turkey and Iraq were resentful that Egypt a persistently neutral country was being offered so much aid 14 In June 1956 the Soviets offered Nasser 1 12 billion at 2 interest for the construction of the dam On 19 July the U S State Department announced that American financial assistance for the High Dam was not feasible in present circumstances 12 On 26 July 1956 with wide Egyptian acclaim Nasser announced the nationalization of the Suez Canal that included fair compensation for the former owners Nasser planned on the revenues generated by the canal to help fund construction of the High Dam When the Suez War broke out the United Kingdom France and Israel seized the canal and the Sinai But pressure from the U S and the USSR at the United Nations and elsewhere forced them to withdraw In 1958 the USSR proceeded to provide support for the High Dam project nbsp A view from the vantage point in the middle of High Dam towards the monument of Arab Soviet Friendship Lotus Flower by architects Piotr Pavlov Juri Omeltchenko and sculptor Nikolay VechkanovIn the 1950s archaeologists began raising concerns that several major historical sites including the famous temple of Abu Simbel were about to be submerged by waters collected behind the dam A rescue operation began in 1960 under UNESCO for details see below under Effects Despite its size the Aswan project has not materially hurt the Egyptian balance of payments The three Soviet credits covered virtually all of the project s foreign exchange requirements including the cost of technical services imported power generating and transmission equipment and some imported equipment for land reclamation Egypt was not seriously burdened by payments on the credits most of which were extended for 12 years with interest at the very low rate of 2 1 2 Repayments to the USSR constituted only a small net drain during the first half of the 1960s and increased export earnings derived from crops grown on newly reclaimed land have largely offset the modest debt service payments in recent years During 1965 70 these export earnings amounted to an estimated 126 million compared with debt service payments of 113 million 15 Construction and filling 1960 1976 edit nbsp A central pylon of the monument to Arab Soviet Friendship The memorial commemorates the completion of the Aswan High Dam The coat of arms of the Soviet Union is on the left and the coat of arms of Egypt is on the right The Soviets also provided technicians and heavy machinery The enormous rock and clay dam was designed by the Soviet Hydroproject Institute along with some Egyptian engineers 25 000 Egyptian engineers and workers contributed to the construction of the dams Originally designed by West German and French engineers in the early 1950s and slated for financing with Western credits the Aswan High Dam became the USSR s largest and most famous foreign aid project after the United States the United Kingdom and the International Bank for Reconstruction and Development IBRD withdrew their support in 1956 The first Soviet loan of 100 million to cover construction of coffer dams for diversion of the Nile was extended in 1958 An additional 225 million was extended in 1960 to complete the dam and construct power generating facilities and subsequently about 100 million was made available for land reclamation These credits of some 425 million covered only the foreign exchange costs of the project including salaries of Soviet engineers who supervised the project and were responsible for the installation and testing of Soviet equipment Actual construction which began in 1960 was done by Egyptian companies on contract to the High Dam Authority and all domestic costs were borne by the Egyptians Egyptian participation in the venture has raised the construction industry s capacity and reputation significantly 4 On the Egyptian side the project was led by Osman Ahmed Osman s Arab Contractors The relatively young Osman underbid his only competitor by one half 16 1960 Start of construction on 9 January 17 1964 First dam construction stage completed reservoir started filling 1970 The High Dam as Sad al Aali completed on 21 July 18 1976 Reservoir reached capacity Specifications editThis article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Aswan Dam news newspapers books scholar JSTOR October 2020 Learn how and when to remove this template message The Aswan High Dam is 3 830 metres 12 570 ft long 980 m 3 220 ft wide at the base 40 m 130 ft wide at the crest and 111 m 364 ft 19 tall It contains 43 000 000 cubic metres 56 000 000 cu yd of material At maximum 11 000 cubic metres per second 390 000 cu ft s of water can pass through the dam There are further emergency spillways for an extra 5 000 cubic metres per second 180 000 cu ft s and the Toshka Canal links the reservoir to the Toshka Depression The reservoir named Lake Nasser is 500 km 310 mi long 20 and 35 km 22 mi at its widest with a surface area of 5 250 square kilometres 2 030 sq mi It holds 132 cubic kilometres 1 73 1011 cu yd of water nbsp A panorama of the Aswan Dam looking southIrrigation scheme editSee also Water resources management in modern Egypt This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Aswan Dam news newspapers books scholar JSTOR June 2020 Learn how and when to remove this template message nbsp Green irrigated land along the Nile amidst the desert nbsp Water balances nbsp Main irrigation systems schematically Due to the absence of appreciable rainfall Egypt s agriculture depends entirely on irrigation With irrigation two crops per year can be produced except for sugar cane which has a growing period of almost one year The high dam at Aswan releases on average 55 cubic kilometres 45 000 000 acre ft water per year of which some 46 cubic kilometres 37 000 000 acre ft are diverted into the irrigation canals In the Nile valley and delta almost 336 000 square kilometres 130 000 sq mi benefit from these waters producing on average 1 8 crops per year The annual crop consumptive use of water is about 38 cubic kilometres 31 000 000 acre ft Hence the overall irrigation efficiency is 38 46 0 826 or 83 This is a relatively high irrigation efficiency The field irrigation efficiencies are much less but the losses are reused downstream This continuous reuse accounts for the high overall efficiency The following table shows the distribution of irrigation water over the branch canals taking off from the one main irrigation canal the Mansuriya Canal near Giza 21 Branch canal Water delivery in m3 feddan Kafret Nasser 4 700Beni Magdul 3 500El Mansuria 3 300El Hammami upstream 2 800El Hammami downstream 1 800El Shimi 1 200 Period 1 March to 31 July 1 feddan is 0 42 ha or about 1 acre Data from the Egyptian Water Use Management Project EWUP 22 The salt concentration of the water in the Aswan reservoir is about 0 25 kilograms per cubic metre 0 42 lb cu yd a very low salinity level At an annual inflow of 55 cubic kilometres 45 000 000 acre ft the annual salt influx reaches 14 million tons The average salt concentration of the drainage water evacuated into the sea and the coastal lakes is 2 7 kilograms per cubic metre 4 6 lb cu yd 23 At an annual discharge of 10 cubic kilometres 2 4 cu mi not counting the 2 kilograms per cubic metre 3 4 lb cu yd of salt intrusion from the sea and the lakes see figure Water balances the annual salt export reaches 27 million ton In 1995 the output of salt was higher than the influx and Egypt s agricultural lands were desalinizing Part of this could be due to the large number of subsurface drainage projects executed in the last decades to control the water table and soil salinity 24 Drainage through subsurface drains and drainage channels is essential to prevent a deterioration of crop yields from waterlogging and soil salinization caused by irrigation By 2003 more than 20 000 square kilometres 7 700 sq mi have been equipped with a subsurface drainage system and approximately 7 2 square kilometres 2 8 sq mi of water is drained annually from areas with these systems The total investment cost in agricultural drainage over 27 years from 1973 to 2002 was about 3 1 billion covering the cost of design construction maintenance research and training During this period 11 large scale projects were implemented with financial support from World Bank and other donors 25 Effects editThe High Dam has resulted in protection from floods and droughts an increase in agricultural production and employment electricity production and improved navigation that also benefits tourism Conversely the dam flooded a large area causing the relocation of over 100 000 people Many archaeological sites were submerged while others were relocated The dam is blamed for coastline erosion soil salinity and health problems The assessment of the costs and benefits of the dam remains controversial decades after its completion According to one estimate the annual economic benefit of the High Dam immediately after its completion was LE 255 million 587 million using the exchange rate in 1970 of 2 30 per LE 1 LE 140 million from agricultural production LE 100 million from hydroelectric generation LE 10 million from flood protection and LE 5 million from improved navigation At the time of its construction total cost including unspecified subsidiary projects and the extension of electric power lines amounted to LE 450 million Not taking into account the negative environmental and social effects of the dam its costs are thus estimated to have been recovered within only two years 26 One observer notes The impacts of the Aswan High Dam have been overwhelmingly positive Although the Dam has contributed to some environmental problems these have proved to be significantly less severe than was generally expected or currently believed by many people 27 Another observer disagreed and he recommended that the dam should be torn down Tearing it down would cost only a fraction of the funds required for continually combating the dam s consequential damage and 500 000 hectares 1 900 sq mi of fertile land could be reclaimed from the layers of mud on the bed of the drained reservoir 28 Samuel C Florman wrote about the dam As a structure it is a success But in its effect on the ecology of the Nile Basin most of which could have been predicted it is a failure 29 Periodic floods and droughts have affected Egypt since ancient times The dam mitigated the effects of floods such as those in 1964 1973 and 1988 Navigation along the river has been improved both upstream and downstream of the dam Sailing along the Nile is a favorite tourism activity which is mainly done during the winter when the natural flow of the Nile would have been too low to allow navigation of cruise ships clarification needed A new fishing industry has been created around Lake Nasser though it is struggling due to its distance from any significant markets The annual production was about 35 000 tons in the mid 1990s Factories for the fishing industry and packaging have been set up near the Lake 30 According to a 1971 CIA declassified report Although the High Dam has not created ecological problems as serious as some observers have charged its construction has brought economic losses as well as gains These losses derive largely from the settling in dam s lake of the rich silt traditionally borne by the Nile To date 1971 the main impact has been on the fishing industry Egypt s Mediterranean catch which once averaged 35 000 40 000 tons annually has shrunk to 20 000 tons or less largely because the loss of plankton nourished by the silt has eliminated the sardine population in Egyptian waters Fishing in high dam s lake may in time at least partly offset the loss of saltwater fish but only the most optimistic estimates place the eventual catch as high as 15 000 20 000 tons Lack of continuing silt deposits at the mouth of the river also has contributed to a serious erosion problem Commercial fertilizer requirements and salination and drainage difficulties already large in perennially irrigated areas of Lower and Middle Egypt will be somewhat increased in Upper Egypt by the change to perennial irrigation 4 Drought protection agricultural production and employment edit nbsp The Egyptian countryside benefited from the Aswan High Dam through improved irrigation as well as electrification as shown here in Al Bayadiyah south of Luxor The dams also protected Egypt from the droughts in 1972 73 and 1983 87 that devastated East and West Africa The High Dam allowed Egypt to reclaim about 2 0 million feddan 840 000 hectares in the Nile Delta and along the Nile Valley increasing the country s irrigated area by a third The increase was brought about both by irrigating what used to be desert and by bringing under cultivation of 385 000 hectares 950 000 acres that were previously used as flood retention basins 31 About half a million families were settled on these new lands In particular the area under rice and sugar cane cultivation increased In addition about 1 million feddan 420 000 hectares mostly in Upper Egypt were converted from flood irrigation with only one crop per year to perennial irrigation allowing two or more crops per year On other previously irrigated land yields increased because water could be made available at critical low flow periods For example wheat yields in Egypt tripled between 1952 and 1991 and better availability of water contributed to this increase Most of the 32 km3 of freshwater or almost 40 percent of the average flow of the Nile that were previously lost to the sea every year could be put to beneficial use While about 10 km3 of the water saved is lost due to evaporation in Lake Nasser the amount of water available for irrigation still increased by 22 km3 30 Other estimates put evaporation from Lake Nasser at between 10 and 16 cubic km per year 32 nbsp Power pylons at the power plant of the Aswan High Dam Electricity production edit See also Energy in Egypt nbsp Power plant of the Aswan High Dam with the dam itself in the background The dam powers twelve generators each rated at 175 megawatts 235 000 hp with a total of 2 1 gigawatts 2 800 000 hp Power generation began in 1967 When the High Dam first reached peak output it produced around half of Egypt s production of electric power about 15 percent by 1998 and it gave most Egyptian villages the use of electricity for the first time The High Dam has also improved the efficiency and the extension of the Old Aswan Hydropower stations by regulating upstream flows 30 All High Dam power facilities were completed ahead of schedule 12 turbines were installed and tested giving the plant an installed capacity of 2 100 megawatts MW or more than twice the national total in 1960 With this capacity the Aswan plant can produce 10 billion kWh of energy yearly Two 500 kilovolt trunk lines to Cairo have been completed and initial transmission problems stemming mainly from poor insulators were solved Also the damage inflicted on a main transformer station in 1968 by Israeli commandos has been repaired and the Aswan plant is fully integrated with the power network in Lower Egypt 33 By 1971 estimation Power output at Aswan won t reach much more than half of the plant s theoretical capacity because of limited water supplies and the differing seasonal water use patterns for irrigation and power production Agricultural demand for water in the summer far exceeds the amount needed to meet the comparatively low summer demand for electric power Heavy summer irrigation use however will leave insufficient water under Egyptian control to permit hydroelectric power production at full capacity in the winter Technical studies indicate that a maximum annual output of 5 billion kWh appears to be all that can be sustained due to fluctuations in Nile flows 34 Resettlement and compensations edit nbsp A picture of the old Wadi Halfa town that was flooded by Lake Nasser Lake Nasser flooded much of lower Nubia and 100 000 to 120 000 people were resettled in Sudan and Egypt 35 nbsp View of New Wadi Halfa a settlement created on the shore of Lake Nasser to house part of the resettled population from the Old Wadi Halfa town In Sudan 50 000 to 70 000 Sudanese Nubians were moved from the old town of Wadi Halfa and its surrounding villages Some were moved to a newly created settlement on the shore of Lake Nasser called New Wadi Halfa and some were resettled approximately 700 kilometres 430 mi south to the semi arid Butana plain near the town of Khashm el Girba up the Atbara River The climate there had a regular rainy season as opposed to their previous desert habitat in which virtually no rain fell The government developed an irrigation project called the New Halfa Agricultural Development Scheme to grow cotton grains sugar cane and other crops The Nubians were resettled in twenty five planned villages that included schools medical facilities and other services including piped water and some electrification In Egypt the majority of the 50 000 Nubians were moved three to ten kilometers from the Nile near Edna and Kom Ombo 45 kilometers 28 mi downstream from Aswan in what was called New Nubia 36 Housing and facilities were built for 47 village units whose relationship to each other approximated that in Old Nubia Irrigated land was provided to grow mainly sugar cane 37 38 In 2019 20 Egypt started to compensate the Nubians who lost their homes following the dam impoundment 39 Archaeological sites edit nbsp The statue of Ramses the Great at the Great Temple of Abu Simbel is reassembled after having been moved in 1967 to save it from being flooded Main article International Campaign to Save the Monuments of Nubia Twenty two monuments and architectural complexes that were threatened by flooding from Lake Nasser including the Abu Simbel temples were preserved by moving them to the shores of the lake under the UNESCO Nubia Campaign 40 Also moved were Philae Kalabsha and Amada 30 These monuments were granted to countries that helped with the works The Debod temple to Madrid The Temple of Dendur to the Metropolitan Museum of Art of New York The Temple of Taffeh to the Rijksmuseum van Oudheden of Leiden The Temple of Ellesyia to the Museo Egizio of TurinThese items were removed to the garden area of the Sudan National Museum of Khartoum 41 The temple of Ramses II at Aksha The temple of Hatshepsut at Buhen The temple of Khnum at Kumma The tomb of the Nubian prince Djehuti hotep at Debeira The temples of Dedwen and Sesostris III at Semna The granite columns from the Faras Cathedral A part of the paintings of the Faras Cathedral the other part is in the National Museum of Warsaw The Temple of Ptah at Gerf Hussein had its free standing section reconstructed at New Kalabsha alongside the Temple of Kalabsha Beit el Wali and the Kiosk of Qertassi The remaining archaeological sites including the Buhen fort and the cemetery of Fadrus have been flooded by Lake Nasser Loss of sediments edit nbsp Lake Nasser behind the Aswan dam displaced more than 100 000 people and traps significant amounts of sediment Before the construction of the High Dam the Nile deposited sediments of various particle size consisting of fine sand silt and clay on fields in Upper Egypt through its annual flood contributing to soil fertility However the nutrient value of the sediment has often been overestimated 88 percent of the sediment was carried to the sea before the construction of the High Dam The nutrient value added to the land by the sediment was only 6 000 tons of potash 7 000 tons of phosphorus pentoxide and 17 000 tons of nitrogen These amounts are insignificant compared to what is needed to reach the yields achieved today in Egypt s irrigation 42 Also the annual spread of sediment due to the Nile floods occurred along the banks of the Nile Areas far from the river which never received the Nile floods before are now being irrigated 43 A more serious issue of trapping of sediment by the dam is that it has increased coastline erosion surrounding the Nile Delta The coastline erodes an estimated 125 175 m 410 574 ft per year 44 Waterlogging and increase in soil salinity edit Before the construction of the High Dam groundwater levels in the Nile Valley fluctuated 8 9 m 26 30 ft per year with the water level of the Nile During summer when evaporation was highest the groundwater level was too deep to allow salts dissolved in the water to be pulled to the surface through capillary action With the disappearance of the annual flood and heavy year round irrigation groundwater levels remained high with little fluctuation leading to waterlogging Soil salinity also increased because the distance between the surface and the groundwater table was small enough 1 2 m depending on soil conditions and temperature to allow water to be pulled up by evaporation so that the relatively small concentrations of salt in the groundwater accumulated on the soil surface over the years Since most of the farmland did not have proper subsurface drainage to lower the groundwater table salinization gradually affected crop yields 31 Drainage through sub surface drains and drainage channels is essential to prevent a deterioration of crop yields from soil salinization and waterlogging By 2003 more than 2 million hectares have been equipped with a subsurface drainage system at a cost from 1973 to 2002 of about 3 1 billion 45 Health edit nbsp Skin vesicles a symptom of schistosomiasis A more common symptom is blood in the urine Contrary to many predictions made prior to the Aswan High Dam construction and publications that followed that the prevalence of schistosomiasis bilharzia would increase it did not 46 This assumption did not take into account the extent of perennial irrigation that was already present throughout Egypt decades before the high dam closure By the 1950s only a small proportion of Upper Egypt had not been converted from basin low transmission to perennial high transmission irrigation Expansion of perennial irrigation systems in Egypt did not depend on the high dam In fact within 15 years of the high dam closure there was solid evidence that bilharzia was declining in Upper Egypt S haematobium has since disappeared altogether Suggested reasons for this include improvements in irrigation practice In the Nile Delta schistosomiasis had been highly endemic with prevalence in the villages 50 or higher for almost a century before This was a consequence of the conversion of the Delta to perennial irrigation to grow long staple cotton by the British This has changed Large scale treatment programmes in the 1990s using single dose oral medication contributed greatly to reducing the prevalence and severity of S mansoni in the Delta Other effects edit Sediment deposited in the reservoir is lowering the water storage capacity of Lake Nasser The reservoir storage capacity is 162 km3 including 31 km3 dead storage at the bottom of the lake below 147 m 482 ft above sea level 90 km3 live storage and 41 km3 of storage for high flood waters above 175 m 574 ft above sea level The annual sediment load of the Nile is about 134 million tons This means that the dead storage volume would be filled up after 300 500 years if the sediment accumulated at the same rate throughout the area of the lake Obviously sediment accumulates much faster at the upper reaches of the lake where sedimentation has already affected the live storage zone 42 Before the construction of the High Dam the 50 000 km 31 000 mi of irrigation and drainage canals in Egypt had to be dredged regularly to remove sediments After construction of the dam aquatic weeds grew much faster in the clearer water helped by fertilizer residues The total length of the infested waterways was about 27 000 km 17 000 mi in the mid 1990s Weeds have been gradually brought under control by manual mechanical and biological methods 30 nbsp The catch of sardines in the Mediterranean off the Egyptian coast declined after the Aswan Dam was completed but the exact reasons for the decline are still disputed Mediterranean fishing and brackish water lake fishery declined after the dam was finished because nutrients that flowed down the Nile to the Mediterranean were trapped behind the dam For example the sardine catch off the Egyptian coast declined from 18 000 tons in 1962 to a mere 460 tons in 1968 but then gradually recovered to 8 590 tons in 1992 A scientific article in the mid 1990s noted that the mismatch between low primary productivity and relatively high levels of fish production in the region still presents a puzzle to scientists 47 A concern before the construction of the High Dam had been the potential drop in river bed level downstream of the Dam as the result of erosion caused by the flow of sediment free water Estimates by various national and international experts put this drop at between and 2 and 10 meters 6 6 and 32 8 ft However the actual drop has been measured at 0 3 0 7 meters 0 98 2 30 ft much less than expected 30 The red brick construction industry which consisted of hundreds of factories that used Nile sediment deposits along the river has also been negatively affected Deprived of sediment they started using the older alluvium of otherwise arable land taking out of production up to 120 square kilometers 46 sq mi annually with an estimated 1 000 square kilometers 390 sq mi destroyed by 1984 when the government prohibited with only modest success further excavation 48 According to one source bricks are now being made from new techniques which use a sand clay mixture and it has been argued that the mud based brick industry would have suffered even if the dam had not been built 43 Because of the lower turbidity of the water sunlight penetrates deeper in the Nile water Because of this and the increased presence of nutrients from fertilizers in the water more algae grow in the Nile This in turn increases the costs of drinking water treatment Apparently few experts had expected that water quality in the Nile would actually decrease because of the High Dam 31 Appraisal of the Project editAlthough it is moot whether the project constitutes the best use of the funds spent the Aswan Dam project unquestionably is and will continue to be economically beneficial to Egypt The project has been expensive and it took considerable time to complete as is usually the case with large hydroelectric developments But Egypt now has a valuable asset with a long life and low operating costs Even so the wisdom of concentrating one third of domestic saving and most of available foreign aid on a slow growth project is questionable Since 1960 GNP has grown 50 but mainly as a result of other investment Egyptian authorities were well aware that equivalent gains in output could have been achieved more quickly and more cheaply by other means A series of low dams similar to the barrages now contemplated was suggested by Egyptian engineers as a more economical means of achieving up to 2 000 mW of additional generating capacity US and WorldBank agricultural experts had long recommended improved drainage introduction of hybrid seeds and other such low cost alternatives to land reclamation as a means of increasing agricultural output In other areas most notably the once efficient cotton textile industry investment was needed to forestall an output decline Implementation of these and other alternatives has been postponed rather than precluded by the High Dam project However the decision to concentrate Egyptian savings and energies on the Aswan project for a decade was heavily based on non economic factors Nasser undoubtedly believed that a project of considerable symbolic appeal was needed to mobilize the population behind the government s economic goals He also apparently felt that the East and West would be more easily persuaded to bid against each other for a project of this scope The Aswan High Dam made an appreciable contribution to Egyptian GNP however the returns were well below what the planners had anticipated The principal limiting factors on the High Dam s contribution to Egyptian output are a shortage of land suitable for reclamation the high cost and long time required to bring reclaimed land to full productivity and an inadequate water supply to meet power and irrigation goals simultaneously The last limitation arises in part from the allocation in a 1959 agreement of more water to Sudan than was originally foreseen and in part from differences in the seasonal demand pattern of agriculture and the hydroelectric plant for the water Irrigation requires very heavy use of water during summer months while power generation needs peak during the winter Ecological problems created by the dam most of which were anticipated have not seriously harmed the economy although a few minor industries have been damaged The dam is nonetheless a viable project Eventually the contribution to GNP equals as much as 20 of total investment Moreover the dam and associated projects provided returns that at least offset the cost of operation repayment of foreign loans and amortisation of domestic loans 49 See also edit nbsp Egypt portal nbsp Water portal nbsp Renewable energy portal Closure of the Suez Canal 1967 1975 Energy in Egypt Egyptian Public Works List of conventional hydroelectric power stations List of largest dams List of power stations in Egypt Water politics in the Nile BasinReferences edit Aswan High Dam Carbon Monitoring for Action Archived from the original on 2015 01 15 Retrieved 2015 01 15 Moore Carl S 1 Jan 2007 Impact of National Forest amp TVA Chatuge Dam Clay County NC Then and Now A Written and Pictorial History Genealogy Publishing Service ISBN 9781881851240 Smith Jean Edward 2012 Eisenhower in War and Peace Random House Publishing Group p 694 ISBN 978 0679644293 a b c INTELLIGENCE MEMORANDUM ECONOMIC IMPRACT OF THE ASWAN HIGH DAM PDF October 1971 Rashed Roshdi 2002 08 02 Portraits of Science A Polymath in the 10th Century Science Science magazine 297 5582 773 doi 10 1126 science 1074591 PMID 12161634 Corbin Henry 1993 French 1964 History of Islamic Philosophy Translated by Liadain Sherrard Philip Sherrard London Kegan Paul International in association with Islamic Publications for The Institute of Ismaili Studies p 149 ISBN 0 7103 0416 1 Egypt bond Archived May 13 2005 at the Wayback Machine Roberts Chalmers December 1902 Subduing the Nile The World s Work A History of Our Time V 2861 2870 archived from the original on 2013 10 11 retrieved 2009 07 10 Collins Robert O 2000 In Search of the Nile Waters 1900 2000 The Nile Histories Cultures Myths Edited by Haggai Erlich and Israel Gershoni Lynne Rienner pp 255 256 Dougherty James E March 1959 The Aswan Decision in Perspective Political Science Quarterly The Academy of Political Science 74 1 21 45 doi 10 2307 2145939 JSTOR 2145939 Smith p 242 a b Dougherty p 22 Smith p 247 Smith Charles D 2007 Palestine and the Arab Israeli Conflict Sixth ed Boston New York Bedford St Martin s ISBN 978 0 312 43736 7 INTELLIGENCE MEMORANDUM ECONOMIC IMPRACT OF THE ASWAN HIGH DAM PDF Cia Readingroom Osman the Efficient Archived from the original on 2010 10 30 Retrieved 2008 01 20 Collins Robert O 2002 The Nile Yale University Press p 181 ISBN 0 300 09764 6 robert collins the nile 1970 Aswan Dam Completed National Geographic Society Archived from the original on 20 August 2014 Retrieved 20 July 2014 Aswan High Dam dam Egypt Encyclopedia Britannica Retrieved 2020 10 24 The spectacular failures and successes of massive dams BBC News 2020 03 11 Retrieved 2020 10 24 Impacts of the Irrigation Improvement Projects in Egypt Egyptian Dutch Advisory Panel and International Institute for Land Reclamation and Improvement Wageningen The Netherlands 1999 Download from 1 Archived 2010 02 07 at the Wayback Machine under nr 4 or directly as PDF 2 Archived 2008 02 28 at the Wayback Machine Egyptian Water Use Management Project EWUP 1984 Improving Egypt s Irrigation System in the Old Lands Final Report Colorado State University and Ministry of Public Works and Water Resources Egyptian Drainage Research Institute DRI yearbook 1995 1996 M S Abdel Dayem 1987 Development of land drainage in Egypt In J Vos Ed Proceedings Symposium 25th International Course on Land Drainage ILRI publ 42 International Institute for Land Reclamation and Improvement Wageningen The Netherlands Ministry of Water Resources and Irrigation Egyptian Public Authority for Drainage Projects Drainage Research Institute 2006 The National Drainage and Drainage Water Reuse Programs Egypt Local Actions at the 4th World Water Forum 2 March 2007 accessed 28 April 2010 Abul Ata Abdel Azim Egypt and the Nile after the Construction of the High Aswan Dam Ministry of Irrigation and Land Reclamation Cairo 1978 quoted by Asit Biswas and Cecilia Tortajada 2004 Biswas Asit K November December 2002 Aswan Dam Revisited The Benefits of a Much Maligned Dam Development and Cooperation 6 25 27 Archived from the original on 2011 06 15 Retrieved 2018 12 02 Professor Fouad Ibrahim an Egyptian geoscientist teaching in Germany in a 1982 article quoted by Peter Wald 25 Years Later The Aswan High Dam Has Proven its Worth Development and Cooperation 2 96 pp 20 21 Florman Samuel C 1994 The existential pleasures of engineering New York St Martin s Press p 20 a b c d e f M A Abu Zeid amp F Z El Shibini Egypt s High Aswan Dam Archived 2011 07 20 at the Wayback Machine Water Resources Development Vol 13 No 2 pp 209 217 1997 a b c Schamp Heinz 1983 Sadd el Ali der Hochdamm von Assuan Sadd el Ali the High Dam of Aswan Geowissenschaften in unserer Zeit in German 1 2 51 85 M A Mosalam Shaltout T El Housry Estimating the evaporation over Nasser Lake in the Upper Egypt from Meteosat observations Advances in Space Research 19 3 1997 pp 515 518 Power plant profile Aswan High dam Egypt 24 November 2021 INTELLIGENCE MEMORANDUM ECONOMIC IMPRACT OF THE ASWAN HIGH DAM PDF Scudder Thayer Gay John 2005 A comparative survey of dam induced resettlement in 50 cases PDF in Scudder Thayer ed The Future of Large Dams Dealing with Social Environmental Institutional and Political Costs Earthscan ISBN 1 84407 155 3 Amer Mourad 2019 Rebuilding Cultural Identity Nubian Rehabilitation along the Shore of Lake Nasser Environmental Science and Sustainable Development 19 doi 10 21625 essd v3iss1 279 Scudder Thayer 2003 The Aswan High Dam Case PDF pp 11 12 archived PDF from the original on 2011 06 05 retrieved 2011 01 02 Stock Jill Kamil photographs by Michael 1993 Aswan and Abu Simbel history and guide Cairo American University in Cairo Press pp 141 142 ISBN 977 424 321 8 a href Template Cite book html title Template Cite book cite book a CS1 maint multiple names authors list link Egypt s PM witnesses compensation of Nubians displaced by dam construction Egypt Today 20 January 2020 The Rescue of Nubian Monuments and Sites Archived 2016 12 22 at the Wayback Machine UNESCO project site about Nubia Campaign Reis Michael 1999 Who is who in Ancient Egypt p 48 ISBN 0 415 15448 0 a b Abu Zeid M A September 1989 Environmental impacts of the High Dam Water Resources Development 5 3 156 a b Biswas Asit K Tortajada Cecilia March 2004 Hydropolitics and Impacts of the High Aswan Dam Mexico Third World Centre for Water Management permanent dead link Schwartz Maurice L ed 2005 Encyclopedia of coastal science Dordrecht Springer p 358 ISBN 1 4020 1903 3 Ministry of Water Resources and Irrigation Egyptian Public Authority for Drainage Projects Drainage Research Institute 2006 The National Drainage and Drainage Water Reuse Programs Egypt Local Actions at the 4th World Water Forum March 2 2007 Retrieved April 28 2010 Miller F DeWolfe et al Schistosomiasis in Rural Egypt 1978 United States Environment Protection Agency EPA 600 1 78 070 El Sayed Sayed van Dijken Gert L 1995 The southeastern Mediterranean ecosystem revisited Thirty years after the construction of the Aswan High Dam archived from the original on 2011 01 04 retrieved 2011 01 02 Scudder Thayer 2003 The Aswan High Dam Case PDF p 11 archived PDF from the original on 2011 06 05 retrieved 2011 01 02 INTELLIGENCE MEMORANDUM ECONOMIC IMPRACT OF THE ASWAN HIGH DAM PDF CIA readingroom External links edit nbsp Wikisource has original text related to this article an account of early plans to construct the Aswan Dam nbsp Wikimedia Commons has media related to Aswan High Dam View the official opening of the Aswan Dam in 1971 Aswan Dam Sixth biggest dam LIFE Magazine Feb 12 1971 Overview of problems created by Aswan Dam Retrieved from https en wikipedia org w index php title Aswan Dam amp oldid 1201351545, wikipedia, wiki, book, books, library,

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