Canadian Water Network

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Canadian Water Network (CWN) is a non-profit organization that helps decision-makers in the water sector address complex challenges. Its mission is to advance, accelerate and improve water management decisions in Canada. [1] without advocating for a specific position.

Contents

Its headquarters are currently located in Waterloo, Ontario on the University of Waterloo campus. Canadian Water Network is a member of the Global Water Research Coalition (GWRC), [2] an international water research alliance.

History

Canadian Water Network was established in 2001 as a Network of Centres of Excellence (NCE) in response to Walkerton's drinking water crisis. From 2001 – 2015, CWN was funded by the Canadian Government to help decision-makers access and apply relevant research to manage risks to the safety, security and abundance of Canada's water resources. In 2015, Canadian Water Network transitioned to a self-sustaining organization. [3] It is governed by a board of directors from academia, government, municipalities and industry. The CEO of Canadian Water Network is Bernadette Conant. [4]

Canadian Municipal Water Consortium

In 2009, Canadian Water Network established the Canadian Municipal Water Consortium. The Consortium's mandate is to connect utilities, municipalities, researchers, industry, government and other organizations to address Canada's municipal water management challenges. It is led by a group of senior decision makers from 20 municipalities and utilities across Canada and represents 61% of the Canadian population.

Canadian Water Network and the Consortium host the Blue Cities [5] conference annually in May.

Projects

Canadian Water Network initiatives include collaborative research, expert reviews, national stakeholder meetings and knowledge mobilization on issues such as:

In 2017, Canadian Water Network led a National Expert Panel on Canada's challenges and opportunities to address contaminants in wastewater. The findings from the panel were released in a report in 2018. [6]

Since 2004, Canadian Water Network has offered a leadership development program for students and young professionals in water. [7]

Related Research Articles

Water treatment Process that improves the quality of water

Water treatment is any process that improves the quality of water to make it appropriate for a specific end-use. The end use may be drinking, industrial water supply, irrigation, river flow maintenance, water recreation or many other uses, including being safely returned to the environment. Water treatment removes contaminants and undesirable components, or reduces their concentration so that the water becomes fit for its desired end-use. This treatment is crucial to human health and allows humans to benefit from both drinking and irrigation use.

Reclaimed water Converting wastewater into water that can be reused for other purposes

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, 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. 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 network System of engineered hydrologic and hydraulic components providing water

A water supply network or water supply system is a system of engineered hydrologic and hydraulic components that provide water supply. A water supply system typically includes the following:

  1. A drainage basin
  2. A raw water collection point where the water accumulates, such as a lake, a river, or groundwater from an underground aquifer. Raw water may be transferred using uncovered ground-level aqueducts, covered tunnels, or underground water pipes to water purification facilities.
  3. Water purification facilities. Treated water is transferred using water pipes.
  4. Water storage facilities such as reservoirs, water tanks, or water towers. Smaller water systems may store the water in cisterns or pressure vessels. Tall buildings may also need to store water locally in pressure vessels in order for the water to reach the upper floors.
  5. Additional water pressurizing components such as pumping stations may need to be situated at the outlet of underground or aboveground reservoirs or cisterns.
  6. A pipe network for distribution of water to consumers and other usage points
  7. Connections to the sewers are generally found downstream of the water consumers, but the sewer system is considered to be a separate system, rather than part of the water supply system.
Water industry

The water industry provides drinking water and wastewater services to residential, commercial, and industrial sectors of the economy. Typically public utilities operate water supply networks. The water industry does not include manufacturers and suppliers of bottled water, which is part of the beverage production and belongs to the food sector.

American Water Works Association (AWWA) is an international non-profit, scientific and educational association founded to improve water quality and supply. Established in 1881, it is a lobbying organization representing a membership of around 50,000 members worldwide.

Water supply and sanitation in Latin America

Water supply and sanitation in Latin America is characterized by insufficient access and in many cases by poor service quality, with detrimental impacts on public health. Water and sanitation services are provided by a vast array of mostly local service providers under an often fragmented policy and regulatory framework. Financing of water and sanitation remains a serious challenge.

Water supply and sanitation in the United States involves a number of issues including water scarcity, pollution, a backlog of investment, concerns about the affordability of water for the poorest, and a rapidly retiring workforce. Increased variability and intensity of rainfall as a result of climate change is expected to produce both more severe droughts and flooding, with potentially serious consequences for water supply and for pollution from combined sewer overflows. Droughts are likely to particularly affect the 66 percent of Americans whose communities depend on surface water. As for drinking water quality, there are concerns about disinfection by-products, lead, perchlorates, PFAS and pharmaceutical substances, but generally drinking water quality in the U.S. is good.

Water supply and sanitation (WSS) in the European Union (EU) is the responsibility of each member state, but in the 21st century union-wide policies have come into effect. Water resources are limited and supply and sanitation systems are under pressure from urbanisation and climate change. Indeed, the stakes are high as the European Environmental Agency found that one European out of ten already suffers a situation of water scarcity and the IEA measured the energy consumption of the water sector to be equivalent to 3,5% of the electricity consumption of the EU.

National Rural Water Association American water and wastewater utility membership organization

The National Rural Water Association (NRWA), with its affiliated state rural water associations, is the largest water and wastewater utility membership organization in the United States of America. The NRWA is a professional organization that supports rural and small water utilities throughout the nation. NRWA and its state affiliates are organized as a non-profit trade association, and represent more than 31,000 water and wastewater utility members.

Water supply and sanitation in the Netherlands is provided in good quality and at a reasonable price to the entire population. Water consumption is one of the lowest in developed countries at 128 litres per capita per day and water leakage in the distribution network is one of the lowest in the world at only 6%.

Water security Concept whereby productive potential of water is harnessed and its destructive impact is limited

Water security is the basic goal of water policy and water management. A society with a high level of water security makes the most of water’s benefits for humans and ecosystems and limits the risk of destructive impacts associated with water. These include too much water (flood), too little water or poor quality (polluted) water. A widely accepted definition of water security is: "Water security is the reliable availability of an acceptable quantity and quality of water for health, livelihoods and production, coupled with an acceptable level of water-related risks". The term water security has a complex history. It incorporates ideas and concepts related to the sustainability, integration and adaptiveness of water resource management. Some organizations use the phrase "water security" in a different way to talk specifically about water supply and infrastructure issues. Integrated water resources management (IWRM) is a paradigm related to water security. Related concepts include water risk and water conflict.

Drinking water supply and sanitation in Egypt is characterized by both achievements and challenges. Among the achievements are an increase of piped water supply between 1998 and 2006 from 89% to 100% in urban areas and from 39% to 93% in rural areas despite rapid population growth; the elimination of open defecation in rural areas during the same period; and in general a relatively high level of investment in infrastructure. Access to an at least basic water source in Egypt is now practically universal with a rate of 98%. On the institutional side, the regulation and service provision have been separated to some extensions through the creation of a national Holding Company for Water and Wastewater in 2004, and of an economic regulator, the Egyptian Water Regulatory Agency (EWRA), in 2006. , many challenges remain. Only about one half of the population is connected to sanitary sewers. Partly because of low sanitation coverage about 50,000 children die each year because of diarrhea. Another challenge is low cost recovery due to water tariffs that are among the lowest in the world. This in turn requires government subsidies even for operating costs, a situation that has been aggravated by salary increases without tariff increases after the Arab Spring. Poor operation of facilities, such as water and wastewater treatment plants, as well as limited government accountability and transparency, are also issues.

Water management in the Metropolitan Region of São Paulo, Brazil faces several challenges, including pollution of drinking water reservoirs that are surrounded by slums, water scarcity leading to conflicts with the Campinas Metropolitan area to the north, inefficient water use, and flooding. The sprawling Metropolitan Region of São Paulo (MRSP) with close to 20 million people is the seventh most populous urban area in the world and the economic, financial and technical hub of Brazil. The main stakeholders in water management in MRSP are the state government, the state water and sanitation utility Sabesp and 39 municipal governments. A basin committee for the Alto Tietê basin, which covers the entire area of the MRSP and supplies half of its water, brings together all stakeholders. It has drawn up two master plans for the management of water resources in the basin. The first was approved in 2003 and focused on urban sprawl. The second was approved in 2009 and focused on water use conflicts.

Water supply and sanitation in Belgium is provided by a large variety of organizations: Most of the 581 municipalities of Belgium have delegated the responsibility for water supply and sanitation to regional or inter-municipal utilities. There are more than 62 water supply utilities, including 2 regional, 30 inter-municipal and 30 municipal utilities. Another 100 mostly small municipalities provide services directly without having a legally of financially separate entity for water supply. Water is not scarce in Belgium and water supply is generally continuous and of good quality. However, wastewater treatment has long lagged behind and Brussels only achieved full treatment of its wastewater in 2007. In 2004 the European Court of Justice ruled condemning Belgium's failure to comply with the EU wastewater directive, and the ruling has not been fully complied with so far. Wallonia satisfies 55% of the national needs in drinking water while it counts only 37% of the population. Flanders and Brussels are dependent on drinking water from Wallonia, at a level of 40% and 98% respectively.

In Russia, approximately 70 per cent of drinking water comes from surface water and 30 per cent from groundwater. In 2004, water supply systems had a total capacity of 90 million cubic metres a day. The average residential water use was 248 litres per capita per day. One quarter of the world’s fresh surface and groundwater is located in Russia. The water utilities sector is one of the largest industries in Russia serving the entire Russian population.

Water supply and sanitation in Japan is characterized by numerous achievements and some challenges. The country has achieved universal access to water supply and sanitation; has one of the lowest levels of water distribution losses in the world; regularly exceeds its own strict standards for the quality of drinking water and treated waste water; uses an effective national system of performance benchmarking for water and sanitation utilities; makes extensive use of both advanced and appropriate technologies such as the jōkasō on-site sanitation system; and has pioneered the payment for ecosystem services before the term was even coined internationally. Some of the challenges are a decreasing population, declining investment, fiscal constraints, ageing facilities, an ageing workforce, a fragmentation of service provision among thousands of municipal utilities, and the vulnerability of parts of the country to droughts that are expected to become more frequent due to climate change.

Water supply and sanitation in New Zealand

Water supply and sanitation in New Zealand is provided for most people by infrastructure owned by territorial authorities including city councils in urban areas and district councils in rural areas. As at 2021, there are 67 different asset-owning organisations.

Water issues in developing countries Water issues and problems in developing countries are diverse and serious

Water issues in developing countries include scarcity of drinking water, poor infrastructure for water and sanitation access, water pollution, and low levels of water security. Over one billion people in developing countries have inadequate access to clean water. The main barriers to addressing water problems in developing nations include poverty, costs of infrastructure, and poor governance. The effects of climate change on the water cycle can make these problems worse.

John A. Cherry is the recipient of the 2016 Lee Kuan Yew Water Prize, awarded at Singapore International Water Week in July 2016 for his work in groundwater research, protection and management. In 2020, Cherry received the Stockholm Water Prize. He is a Distinguished Professor Emeritus from the University of Waterloo in Ontario, Canada. He undertook research on the migration of contaminants in groundwater and he participated in the development of technologies for groundwater monitoring and remediation thus "revolutionizing groundwater research". His research resulted in a "paradigm shift in groundwater pollution control measures", leading to new groundwater remediation guidelines to be adopted in the United States and other countries in the 1990s.

Sustainable energy management in the wastewater sector applies the concept of sustainable management to the energy involved in the treatment of wastewater. The energy used by the wastewater sector is usually the largest portion of energy consumed by the urban water and wastewater utilities. The rising costs of electricity, the contribution to greenhouse gas emissions of the energy sector and the growing need to mitigate global warming, are driving wastewater utilities to rethink their energy management, adopting more energy efficient technologies and processes and investing in on-site renewable energy generation.

References

  1. "Home". cwn-rce.ca.
  2. "GWRC Membership".
  3. GLAUSER, Wendy (November 7, 2017). "Research networks facing funding cut-off get thrown a lifeline". University Affairs.
  4. Boon, Sarah (December 17, 2017). "Women in Science: Bernadette Conant". Canadian Science Publishing.
  5. Chatta, Simran (June 24, 2019). "Paving the Way for Innovation at Blue Cities". Water Canada.
  6. Cruickshank, Ainslie (April 30, 2018). "Expert panel calls for holistic approach to wastewater management". Toronto Star.
  7. admin. "Students & Young Professionals". Canadian Water Network. Retrieved 2022-05-15.
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