Data | |
---|---|
Access to an improved water source | 100% |
Access to improved sanitation | 100% |
Continuity of supply | Continuous |
Average urban water use (L/person/day) | 130 |
Share of household metering | 100% |
Financing | Tax |
Institutions | |
National water and sanitation company | Water Supplies Department (water supply) Drainage Services Department (sanitation) |
Water supply and sanitation in Hong Kong is characterized by water import, reservoirs, and treatment infrastructure. Though multiple measures were made throughout its history, providing an adequate water supply for Hong Kong has met with numerous challenges because the region has few natural lakes and rivers, inadequate groundwater sources (inaccessible in most cases due to the hard granite bedrock found in most areas in the territory), a high population density, and extreme seasonable variations in rainfall. Thus nearly 80 percent of water demand is met by importing water from mainland China, based on a longstanding contract. [1] In addition, freshwater demand is curtailed by the use of seawater for toilet flushing, using a separate distribution system. [2] Hong Kong also uses reservoirs and water treatment plants to maintain its source of clean water.
Until 1964 water rationing - the act of limiting water usage for each household by water providers - was a constant reality for Hong Kong residents, occurring more than 300 days per year. The worst crisis occurred in 1963–64 when water was delivered only every 4 days for 4 hours each time. The territory, which was under the British colonial administration, then embarked on a three-pronged approach to supply water to an increasing population. (Hong Kong's population increased from 1.7 million in 1945 to about 6 million in 1992.) The strategy involved flushing toilets with seawater, the construction of larger freshwater reservoirs in bays that used to be covered by the sea, and water imports from mainland China. [3]
In 1955 seawater was first used to flush toilets in a pilot scheme. This was followed by the installation of seawater flushing systems in all new houses and in selected districts beginning in 1957. [4] In 1960 legislation was introduced to promote seawater flushing on a larger scale, followed by substantial investments in a separate network. However, the system was unpopular due to the need to build a separate plumbing network in each house. Seawater initially was sold, but from 1972 on it was provided for free and the costs of the system were recovered through the drinking water tariff. In 1991, about 65 percent of Hong Kong's households used seawater for flushing. By 1999, the number of conforming households had increased to 79 percent. [5]
In 1957 construction began on the first dam that would close off a natural sea bay and create the Shek Pik Reservoir. The reservoir was built to store freshwater that previously had been "lost to the sea" during the rainy season. The reservoir was completed in 1963. The completion of the Shek Pik reservoir was followed by the construction of two larger reservoirs of the same type. After the Plover Cove Reservoir was completed in 1968, water rationing was discontinued until 1977. With the completion of the High Island Reservoir in 1978, continuous water supply was re-established. Water rationing was renewed for the last time in 1980–81. Between 1965 and 1982 water had to be rationed seven times, often for many months with interruptions of up to 16 hours per day. To maintain Hong Kong's competitiveness, rationing was imposed only on residential users. Industry, the city's main water user, was exempted from rationing. The need for rationing was finally overcome in 1982 thanks to water imports. [3]
In 1960 Hong Kong began importing water from outside its borders through the Dongjiang – Shenzhen (Dongshen) Water Supply Scheme. After many extensions and upgrades, the current system consists of a pipeline from Qiaotou Town of Dongguan to a reservoir in Shenzhen next to Hong Kong. Water imports from the Pearl River have increased gradually from 23 million cubic meters per year (under a 1960 agreement) to 1100 million cubic meters per year (under a fifth agreement signed in 1989). Water imports thus played a crucial role in alleviating Hong Kong's water crisis, accounting for 70 percent of the territory's water supply in 1991. The People's Republic of China has never exercised the "water weapon" in its relationship with Hong Kong. China needed foreign exchange and between 1979 and 1991 alone Hong Kong paid China almost 4 billion Hong Kong Dollars (about US$500 million applying the 1991 exchange rate) for water imports. [3]
Desalination was a source of water in Hong Kong between 1975 and 1981. A large desalination plant was commissioned in Lok On Pai in 1975, but was decommissioned again in 1981 because its operation was more expensive than importing water from Dongjiang. [5] Another pilot desalination plant utilized reverse osmosis in Tuen Mun in Hong Kong during the year of 2004, but this plant lasted only one year. This plant was made as an experiment to evaluate the efficiency of reverse osmosis. Construction of the Tseung Kwan O Desalination Plant began in 2019, and it began supplying water to the public in 2023. It utilizes reverse osmosis and is projected to meet 5-10% of fresh water demand. [6]
Desalination is an intriguing topic that would definitely increase the rate at which clean water can be supplied as well as help prevent the overuse of water pipes for transportation, but it is an expensive process that currently does not yield too many benefits. [7]
The pollution of raw water supplied to Hong Kong became an increasing concern that triggered a variety of activities designed to protect the quality of raw water. In 1998 the intake of the water pipeline was moved further upstream on the Dongjiang River where water quality was better. In 2003 an 83 km dedicated aqueduct was completed, thus reducing the vulnerability of the supply to pollution. Additionally, wastewater treatment plants were constructed in settlements in the Dongjiang basin and polluting industries were removed, thus protecting the water at the source. [8] In 2006 a Water Supply Agreement was signed with Guangdong Province for a "flexible" supply of Dongjiang water. [4] The agreement allows for less water to be withdrawn when reservoirs in Hong Kong are full, and more water to be withdrawn in times of drought, while the annual payment remains the same. Under the new agreement, Hong Kong paid fixed lump sums of HK$2,959 million, HK$3,146 million and HK$3,344 million for 2009, 2010 and 2011 respectively. [9]
In 2003 the government of Hong Kong announced what it called a "total water management programme". In 2005 a study was commissioned and the results were broadly discussed. Based on the study the government reaffirmed its approach to water management, but also started new initiatives concerning leakage reduction, water conservation, greywater reuse, rainwater harvesting, as well as pilots for the reuse of reclaimed water and desalination. For example, the government plans to provide reclaimed water from Shek Wu Hui Sewage Treatment Works for consumers in Sheung Shui and Fanling for toilet flushing and other non-potable uses, as well as pilot desalination plants in Tuen Mun and Ap Lei Chau. [10]
Because the price of imported water increased from $1 to $3 per cubic meter, the Hong Kong authorities announced in 2011 that the government would build a 50,000 cubic metre per day seawater desalination plant. The plant will allow greater resiliency against droughts that may become more severe due to climate change. [11]
Hong Kong's three main sources of water are supplied from Guangdong Province; internal freshwater sources stored in reservoirs; and seawater used for flushing toilets. Dongjiang is Hong Kong's major source of water. The designed maximum capacity of the supply system is 1.1 billion cubic metres per annum. The supply contract, costing HK$2 billion a year, has helped the city's economy grow without the interruption caused by water shortages, although the payment constitutes only 0.15 percent of Hong Kong's HK$1.3 trillion gross domestic product. About one-third of Hong Kong's 1,098 square kilometers has been developed as water catchments including reservoirs behind dams on land and three 'reservoirs in the sea', the Shek Pik Reservoir, the Plover Cove Reservoir and the High Island Reservoir.
An interesting facet of the waterworks is the seawater supply system with its separate networks of distribution mains, treatment facilities for screening and disinfection, pumping stations, and service reservoirs. Eighty percent of the population, including nearly all housing estates in Hong Kong Island and other densely populated districts, receive sea water for flushing. Some remote districts in the New Territories and some outlying islands do not use the system. [3] In 2010, an average of about 740,000 cubic meters of seawater was supplied each day, [12] up from 330,000 cubic meters each day in 1990/91. Seawater is used to flush toilets and accounted for about 22 percent of total water use in 2008–09.
In the 1990s, more than 70 percent of Hong Kong's water was used by industry and services, particularly the textile, metal-working and electronics sectors in manufacturing, hotels and restaurants in services. [3]
All figures are in million cubic metres
Fresh Water | 2003 – 2004 | 2004 – 2005 | 2005 – 2006 | 2006 – 2007 | 2007 – 2008 | 2008 – 2009 |
Annual | 963.99 | 954.62 | 966.92 | 963.59 | 950 | 957.31 |
Daily Average | 2.63 | 2.62 | 2.65 | 2.64 | 2.60 | 2.62 |
Highest Daily | 2.91 | 2.79 | 2.82 | 2.84 | 2.81 | 2.86 |
Seawater | 2003 – 2004 | 2004 – 2005 | 2005 – 2006 | 2006 – 2007 | 2007 – 2008 | 2008 – 2009 |
Annual | 244.31 | 259.83 | 261.63 | 261.66 | 274.23 | 271.08 |
Daily Average | 0.67 | 0.71 | 0.72 | 0.72 | 0.75 | 0.74 |
Hong Kong's water infrastructure consists of the following water treatment plants, pumping stations and reservoirs.
The supply is fully treated by chemical coagulation, sedimentation (at most treatment works), filtration, pH value correction, chlorination and fluoridation. The water is soft in character and conforms in all respects – both chemically and bacteriologically – to standards for drinking water set by the World Health Organization. Residents often prefer to boil the water before drinking, but this is generally not necessary. [13]
The main water treatment plants are:
The total storage capacity of Hong Kong's reservoirs is 586 million cubic meters. The reservoirs and their storage capacities are tabulated below:
Reservoir (Year on reservoir) | Reservoir supply storage m³ |
Pok Fu Lam (2 Res.) 1863 & 1877 | 260,000 |
Tai Tam 1888 | 1,490,000 |
Tai Tam Byewash 1904 | 80,000 |
Tai Tam Intermediate 1907 | 686,000 |
Kowloon 1910 | 1,578,000 |
Tai Tam Tuk 1917 | 6,200,000 |
Shek Lei Pui 1925 | 439,000 |
Kowloon Reception 1926 | 121,000 |
Aberdeen (2 Res.) 1931 | 1,210,000 |
Kowloon Byewash 1931 | 800,000 |
Shing Mun (Jubilee) 1937 | 13,600,000 |
Tai Lam Chung 1957 | 20,490,000 |
Shek Pik 1963 | 24,000,000 |
Lower Shing Mun 1965 | 3,980,000 |
Plover Cove 1973 | 230,000,000 |
High Island 1978 | 273,000,000 |
There are a total of 68 sewage treatment facilities in Hong Kong, including 41 in Hong Kong Island, Kowloon and Outlying Islands and 27 in the New Territories. [15] One of the largest facilities is the Sha Tin Sewage Treatment Works covering an area of 28 hectares. It was commissioned in three stages in 1982, 1986 and 2004.
The Water Supplies Department collects, stores, purifies and distributes potable water to consumers, and provides adequate new resources and installations to maintain a satisfactory standard of water supply. The department also supplies seawater for flushing toilets. The Drainage Services Department is responsible for sanitation.
Desalination is a process that removes mineral components from saline water. More generally, desalination is the removal of salts and minerals from a substance. One example is soil desalination. This is important for agriculture. It is possible to desalinate saltwater, especially sea water, to produce water for human consumption or irrigation. The by-product of the desalination process is brine. Many seagoing ships and submarines use desalination. Modern interest in desalination mostly focuses on cost-effective provision of fresh water for human use. Along with recycled wastewater, it is one of the few water resources independent of rainfall.
The Dong River is the eastern tributary of the Pearl River in Guangdong province, southern China. The other two main tributaries of the Pearl River are the Xi River and the Bei River. The headwater is located in Mount Sanbai (三百山) in Anyuan County, Jiangxi.
Melbourne Water is an Australian statutory authority owned by the Victorian State Government, which controls and manages much of the water bodies and supplies in metropolitan Melbourne, the capital of Victoria. Its jurisdiction includes all the reservoirs, lakes, wetlands, canals and urban creeks, and the sewerage and drainage systems that services the city.
Water supply and sanitation in Singapore are intricately linked to the historical development of Singapore. It is characterised by a number of outstanding achievements in a challenging environment with geographical limitations. Access to water in Singapore is universal, affordable, efficient and of high quality.
Kowloon Reservoir, part of the Kowloon Group of Reservoirs, is a reservoir in Sha Tin District, Hong Kong, located within the Kam Shan Country Park. The total water storage capacity is 353 million gallons and the total cost of construction was $619,000.
Shek Pik Reservoir is a reservoir in Shek Pik on Lantau Island in Hong Kong. Built between 1957 and 1963, it has a storage capacity of 24 million cubic metres and is the third largest reservoir in Hong Kong after High Island Reservoir and Plover Cove Reservoir.
PUB, Singapore's National Water Agency, commonly known as PUB, an acronym for Public Utilities Board, is a statutory board under the Ministry of Sustainability and the Environment of the Government of Singapore responsible for ensuring a sustainable and efficient water supply in Singapore.
Water supply and sanitation in Saudi Arabia is characterized by challenges and achievements. One of the main challenges is water scarcity. In order to overcome water scarcity, substantial investments have been undertaken in seawater desalination, water distribution, sewerage and wastewater treatment. Today about 50% of drinking water comes from desalination, 40% from the mining of non-renewable groundwater and only 10% from surface water in the mountainous southwest of the country. The capital Riyadh, located in the heart of the country, is supplied with desalinated water pumped from the Persian Gulf over a distance of 467 km. Water is provided almost for free to residential users. Despite improvements, service quality remains poor, for example in terms of continuity of supply. Another challenge is weak institutional capacity and governance, reflecting general characteristics of the public sector in Saudi Arabia. Among the achievements is a significant increases in desalination, and in access to water, the expansion of wastewater treatment, as well as the use of treated effluent for the irrigation of urban green spaces, and for agriculture.
Water supply and sanitation in Israel are intricately linked to the historical development of Israel. Because rain falls only in the winter, and largely in the northern part of the country, irrigation and water engineering are considered vital to the country's economic survival and growth. Large scale projects to desalinate seawater, direct water from rivers and reservoirs in the north, make optimal use of groundwater, and reclaim flood overflow and sewage have been undertaken. Among them is the National Water Carrier, carrying water from the country's biggest freshwater lake, the Sea of Galilee, to the northern part of the Negev desert through channels, pipes and tunnels. Israel's water demand today outstrips available conventional water resources. Thus, in an average year, Israel relies for about half of its water supply on unconventional water resources, including reclaimed water and desalination. A particularly long drought in 1998–2002 had prompted the government to promote large-scale seawater desalination. In 2022, 85% of the country's drinkable water was produced through desalination of saltwater and brackish water.
As Australia's supply of freshwater is increasingly vulnerable to droughts, possibly as a result of climate change, there is an emphasis on water conservation and various regions have imposed restrictions on the use of water.
Tai Lam Chung Reservoir is a reservoir in Tai Lam Country Park, Tuen Mun District, New Territories, Hong Kong.
The Tai Tam Waterworks Heritage Trail is a heritage trail in Hong Kong that comprises 22 waterworks structures with historical value near the Tai Tam group of reservoirs. The Trail is about 5 km long and takes about two hours to complete. The Trail is located along the Tai Tam Reservoir Road with entrance at Wong Nai Chung Gap near Hong Kong Parkview or at the junction of Tai Tam Road and Tai Tam Reservoir Road. Ten information stations were established en route to introduce the functions and historic values of the structures. Guided tours will be organised for schools and non-profit making organisations.
The three cities of Abu Dhabi Emirate within the United Arab Emirates – the coastal city Abu Dhabi itself as well as the inland oases Al Ain and Liwa – receive their drinking water supply entirely from desalinated seawater.
Water supply and sanitation in Greece is characterised by diversity. While Athens receives its water from a series of reservoirs, some of which are located 200 km away, some small islands are supplied with water from tankers. Greeks have suffered from repeated droughts, the most recent one occurring in 2007. The EU supported the construction of numerous wastewater treatment plants since the 1990s in order to achieve EU environmental standards. While the wastewater discharge of the biggest cities is now in compliance with these standards, some smaller towns still lag behind.
Chennai Metropolitan Water Supply and Sewerage Board, known shortly as CMWSSB, is a statutory board of Government of Tamil Nadu which provides water supply and sewage treatment to the city of Chennai and its metropolitan region.
Namibia is an arid country that is regularly afflicted by droughts. Large rivers flow only along its northern and southern borders, but they are far from the population centers. They are also far from the country's mines, which are large water users. In order to confront this challenge, the country has built dams to capture the flow from ephemeral rivers, constructed pipelines to transport water over large distances, pioneered potable water reuse in its capital Windhoek located in the central part of Namibia, and built Sub-Saharan Africa's first large seawater desalination plant to supply a uranium mine and the city of Swakopmund with water. A large scheme to bring water from the Okavango River in the North to Windhoek, the Eastern National Water Carrier, was only partially completed during the 1980s.
Beijing, the capital of China, is characterized by intense water scarcity during the long dry season as well as heavy flooding during the brief wet season. Beijing is one of the most water-scarce cities in the world. Total water use is 3.6 billion cubic meters, compared to renewable fresh water resources of about 3 billion cubic meters. The difference is made up by the overexploitation of groundwater. Two-thirds of the water supply comes from groundwater, one third from surface water. Average rainfall has substantially declined since the 1950s. Furthermore, one of the two main rivers supplying the city, the Yongding River, had to be abandoned as a source of drinking water because of pollution. Water savings in industry and agriculture have compensated for these losses and freed up water for residential uses.
The coastal city of Chennai has a metropolitan population of 10.6 million as per 2019 census. As the city lacks a perennial water source, catering the water requirements of the population has remained an arduous task. On 18 June 2019, the city's reservoirs ran dry, leaving the city in severe crisis.
There are approximately 16,000 operational desalination plants, located across 177 countries, which generate an estimated 95 million m3/day of fresh water. Micro desalination plants operate near almost every natural gas or fracking facility in the United States. Furthermore, micro desalination facilities exist in textile, leather, food industries, etc.
The Jinjiang–Kinmen Pipeline is a pipeline that supplies drinking water from Jinjiang City in Mainland China to Kinmen County in Fujian Province, Republic of China.