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TheWestern Cape Water Supply System (WCWSS) is a complex water supply system in theWestern Cape region ofSouth Africa, comprising an inter-linked system of six main dams, pipelines, tunnels and distribution networks, and a number of minor dams, some owned and operated by theDepartment of Water and Sanitation and some by theCity of Cape Town.[1]
The largest component of the WCWSS is the Riviersonderend-Berg River Government Water Scheme, which is a large inter-basin water transfer scheme that regulates the flow of theSonderend River flowing South towards the Indian Ocean, theBerg River flowing North towards the Atlantic Ocean andEerste River that flows intoFalse Bay.
The principal dams are all located in the Cape Fold Mountains to the east ofCape Town. They are:
These six major dams provide 99.6% of the combined storage capacity, and 8 minor dams the remaining 0.4%. The levels of these dams are recorded and published in weekly reports by the Department of Water and Sanitation.[2][3][4]
The largest dam in the system is theTheewaterskloof Dam on theSonderend River, with a storage capacity of 480 million cubic meters, or 41% of the total storage. It is linked to the Cape Town water system through the Faure treatment works via the Kleinplass balancing dam with a tunnel system through the Hottentots Holland Mountains. The Berg River dam (130 million cubic meter) was added to this system in 2009.
Other storage dams of the WCWSS are theVoëlvlei Dam (159 million cubic meters), theWemmershoek Dam (59 million cubic meter) in the Berg River basin, the Upper and LowerSteenbras Dams on theSteenbras River as well as thePalmiet Pumped Storage Scheme dams on thePalmiet River, from which water can be transferred to the Steenbras dams.[5]
In 2009 storage capacity in the system was increased by 17% from 768 to 898 million cubic metres through the completion of theBerg River Dam.[6]
| Major Dams | Capacity (thousand cubic metres) | Location | Minor Dams | Capacity (thousand cubic metres) | Location | ||
|---|---|---|---|---|---|---|---|
| A | Theewaterskloof (Villiersdorp) | 480188 |  | G | Kleinplaats (Simon's Town) | 1368 |  |
| B | Voëlvlei (Gouda) | 164095 |  | H | Woodhead (Table Mountain) | 954 |  |
| C | Berg River (Franschhoek) | 130010 |  | I | Hely-Hutchinson (Table Mountain) | 925 | |
| D | Wemmershoek (Franschhoek) | 58644 |  | J | Land-en-Zeezicht (Helderberg) | 451 |  |
| E | Steenbras Lower (Grabouw) | 33 517 |  | K | De Villiers (Table Mountain) | 243 |  |
| F | Steenbras Upper (Grabouw) | 31767 | L | Lewis Gay (Simon's Town) | 182 |  | |
| M | Victoria (Table Mountain) | 128 |  | ||||
| N | Alexandra (Table Mountain) | 126 |
In 2009, 63% of the water in the system was being used for domestic and industrial purposes in the city ofCape Town, which has a population of over 4 million. Smaller towns used 5%, and 32% was used by agriculture.[5] Within the city, in 2016/2017, 64.5% of water went to houses, flats and complexes, while 3.6% went to informal settlements.[7]
The system provides water to irrigate about 15,000ha of farmland, where high-value fruit and vegetables are grown. From the early 1970s until the mid-2000s water consumption in Cape Town increased by about 300%, increasing the competition for water with irrigated agriculture. This has been exacerbated by several unusually dry years, such as in 1994-1995 when storage in the system was only one third of average storage. Farmers have adapted by significantly improving irrigation efficiency and shifting even more land into the production of high-value crops.[8]
The system also generates pumped storage hydropower using an installed capacity of 400 Megawatt (MW) on the Palmiet River and 180MW on the Steenbras River.[citation needed]
TheCape Town water crisis inSouth Africa was a multi-year period in 2015–2020 of water shortage in theWestern Cape region, most notably affecting theCity of Cape Town. Dam water levels began decreasing in 2015 and the Cape Town water crisis peaked during mid-2017 to mid-2018 when water levels hovered between 14 and 29 percent of total dam capacity.
In late 2017, there were first mentions of plans for "Day Zero", a shorthand reference for the day when the water level of the major dams supplying the City could fall below 13.5 percent.[9][10][11] "Day Zero" became a term to mark the start of Level 7 water restrictions, when municipal water supplies would be largely switched off and it was envisioned that residents could have to queue for their daily ration of water. If this had occurred, it would have made the City of Cape Town the first major city in the world to run out of water in the municipal supply.[12][13] The Cape Town water crisis occurred at the same time as theEastern Cape drought, located in a separate region nearby.
The City of Cape Town implemented significant water restrictions in a bid to curb water usage, which reduced its daily water usage by more than half to around 500 million litres (130,000,000 US gal) per day in March 2018.[14] The fall in water usage led the City to postpone its estimate for "Day Zero", and strong rains starting in June 2018 led to dam levels recovering.[15] In September 2018, with dam levels close to 70 percent, the city began easing water restrictions, indicating that the worst of the water crisis was over.[16] Good rains in 2020 effectively broke the drought and resulting water shortage when dam levels reached 95 percent.[17]