Biwater

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Biwater International Limited provides large-scale water and wastewater treatment solutions. It has completed over 25,000 projects in over 90 countries, being headquartered in Surrey, England. [1] Adrian White, CBE, founded Biwater in 1968, and is the Executive Chairman. White is also the founder of British Water, the United Kingdom's Water Trade Association.

Contents

History

Biwater was established in 1968 as Biwater Treatment Company in Beckenham, Kent, UK, by Adrian White with an authorised share capital of £100. The name 'Biwater' was derived from the idea of working with 'two waters', the treatment of wastewater and the provision of clean drinking water.

In 1971, Biwater set up its global headquarters in Dorking, Surrey.

In the early 1970s, Biwater identified the need to develop scalable water and wastewater treatment plants.

After a number of acquisitions in 1986, Biwater developed a collective brand identity and launched the Biwater fish logo.

Solutions

Biwater has designed and constructed water and wastewater treatment plants, provided consultancy services and run water systems for people in over 90 countries. Since starting in the United Kingdom in 1968, the company has completed many diverse projects, from a piped water supply to 4.2 million inhabitants in Malaysia, to constructing sewage treatment works for Abu Dhabi, to purchasing water companies in China. [2]

Locations

Americas

In the 1960s Biwater began working in the Americas, initially securing a number of equipment supply contracts. The company's first regional turnkey project was the ‘Northern Range Valleys Water Supply Scheme’ in Trinidad and Tobago. They constructed three treatment plants to provide drinking water to hillside communities.

The Group established a "Desalination and Membrane Treatment Centre of Excellence" (Biwater Inc.) in the United States following the acquisition of Advanced Environmental Water Treatment in 2005. [3]

Middle East

Biwater have delivered a number of strategic turnkey projects across the Middle East, including the Abu Dhabi Sewage Treatment Build, Own, Operate, Transfer (BOOT) contract and Mafraq Wastewater Treatment Works in the United Emirates.

In Saudi Arabia, the Biwater's Buwayb Desalination Plant was the world's largest desalination plant at the time of commissioning. [4] Another significant Biwater plant in the Kingdom was the Jeddah Water Reuse Facility, which was one of the first water reuse plants in the country.

Africa

Some of Biwater's earliest international contracts were secured in Africa in the 1960s, Over the years, he secured large turnkey design-build projects for capital cities, ongoing ownership and operation contracts, and extensive rural water supply schemes. [5]

Asia Pacific

Biwater's flagship projects in the region include the Malaysian Rural Water Supply Scheme encompassing 134 individual water supply projects, Batam Island 230 MLD Water Supply Concession in Indonesia, Yen So Park 200 MLD Wastewater Treatment Plant in Vietnam, Changi 228 MLD NEWater Plant in Singapore and Stonecutters Island Sewage Treatment Works (HATS Stage 2A) with ultimate capacity of 2,400 MLD in Hong Kong. [6]

BBC Documentary

The BBC has produced a documentary piece about Biwater as part of a UK export series showcasing the best of British businesses operating globally. It discusses the insufficient amount of access to clean water around the world and how they are addressing this problem. [7]

Related Research Articles

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Water reclamation is the process of converting municipal wastewater (sewage) or industrial wastewater into water that can be reused for a variety of purposes. Types of reuse include: urban reuse, agricultural reuse (irrigation), environmental reuse, industrial reuse, planned potable reuse, and de facto wastewater reuse. For example, reuse may include irrigation of gardens and agricultural fields or replenishing surface water and groundwater. Reused water may also be directed toward fulfilling certain needs in residences, businesses, and industry, and could even be treated to reach drinking water standards. The injection of reclaimed water into the water supply distribution system is known as direct potable reuse. However, drinking reclaimed water is not a typical practice. Treated municipal wastewater reuse for irrigation is a long-established practice, especially in arid countries. Reusing wastewater as part of sustainable water management allows water to remain as an alternative water source for human activities. This can reduce scarcity and alleviate pressures on groundwater and other natural water bodies.

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, 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. In addition, freshwater demand is curtailed by the use of seawater for toilet flushing, using a separate distribution system. Hong Kong also uses reservoirs and water treatment plants to maintain its source of clean water.

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.

Clean Water Services is the water resources management utility for more than 600,000 residents in urban Washington County, Oregon and small portions of Multnomah County, Oregon and Clackamas County, Oregon, in the United States. Clean Water Services operates four wastewater treatment facilities, constructs and maintains flood management and water quality projects, and manages flow into the Tualatin River to improve water quality and protect fish habitat. They are headquartered in Hillsboro.

<span class="mw-page-title-main">Water supply and sanitation in Saudi Arabia</span>

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.

<span class="mw-page-title-main">Sewage treatment</span> Process of removing contaminants from municipal wastewater

Sewage treatment is a type of wastewater treatment which aims to remove contaminants from sewage to produce an effluent that is suitable to discharge to the surrounding environment or an intended reuse application, thereby preventing water pollution from raw sewage discharges. Sewage contains wastewater from households and businesses and possibly pre-treated industrial wastewater. There are a high number of sewage treatment processes to choose from. These can range from decentralized systems to large centralized systems involving a network of pipes and pump stations which convey the sewage to a treatment plant. For cities that have a combined sewer, the sewers will also carry urban runoff (stormwater) to the sewage treatment plant. Sewage treatment often involves two main stages, called primary and secondary treatment, while advanced treatment also incorporates a tertiary treatment stage with polishing processes and nutrient removal. Secondary treatment can reduce organic matter from sewage,  using aerobic or anaerobic biological processes. A so-called quarternary treatment step can also be added for the removal of organic micropollutants, such as pharmaceuticals. This has been implemented in full-scale for example in Sweden.

<span class="mw-page-title-main">Water resources</span> Sources of water that are potentially useful

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<span class="mw-page-title-main">Fujairah F1 IWPP</span> IWPP facility in the United Arab Emirates

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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.

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Water supply and sanitation in Jordan is characterized by severe water scarcity, which has been exacerbated by forced immigration as a result of the 1948 Arab–Israeli War, the Six-Day War in 1967, the Gulf War of 1990, the Iraq War of 2003 and the Syrian Civil War since 2011. Jordan is considered one of the ten most water scarce countries in the world. High population growth, the depletion of groundwater reserves and the impacts of climate change are likely to aggravate the situation in the future.

<span class="mw-page-title-main">Degrémont</span> French water treatment company

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<span class="mw-page-title-main">Water supply and sanitation in Namibia</span>

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.

Vishvaraj Infrasturtcure Limited is an Indian company headquartered in Nagpur, Maharashtra. The company stands on PPP model.

References

  1. "History of Biwater | Biwater". www.biwater.com. Retrieved 2022-09-28.
  2. "Water treatment | Biwater". www.biwater.com. Retrieved 2022-09-30.
  3. "Regional overview of Biwater's activities and projects in the Americas | Biwater". www.biwater.com. Retrieved 2022-09-30.
  4. "Biwater's activities and projects in Europe and Middle East | Biwater". www.biwater.com. Retrieved 2022-09-30.
  5. "Regional overview of Biwater's activities and projects in Africa | Biwater". www.biwater.com. Retrieved 2022-09-30.
  6. "Regional overview of Biwater's activities and projects in Asia Pacific | Biwater". www.biwater.com. Retrieved 2022-09-30.
  7. "BBC documentary | Biwater". www.biwater.com. Retrieved 2022-09-28.