Global markets and technologies for water recycling and

New York, July 20, 2021 (GLOBE NEWSWIRE) – Reportlinker.com announces the publication of the report “Global Markets and Technologies for Water Recycling and Reuse” – https://www.reportlinker.com/p05027996/?utm_source=GNW

– Membrane filtration technologies.
– Membrane bioreactor technologies.
– Chemical treatments and disinfection technologies.
– Demineralization technologies.

This report includes breakdowns by recycled water applications, which consist of –
– Release into surface or underground water.
– Municipal and industrial reuse (M&I) not drinkable.
– Agricultural reuse.
– Direct drinking reuse.

The current version of this report includes a breakdown of municipal and industrial wastewater reuse and recycling. The report will feature an exclusive chapter highlighting the impact of COVID-19 on wastewater recycling and reuse markets and technologies globally.

The chapter will discuss the impact of COVID-19 on demand, the impact on supply, the impact on prices and the strategic decisions made by governments to stimulate the market.

As part of this report, BCC Research analyzes each technology and application, determines its current status in the market, examines its impact on future markets, and presents growth forecasts over the next five years. Technological issues, including the latest trends, are assessed and discussed, as is the current and likely current regulatory environment in support of this industry.

The analyst analyzes the anticipated market values ​​in light of the regional and global wastewater recycling and reuse market. This report examines the roles of governments in wastewater quality management, wastewater recycling and reuse, as well as government support and incentives for the use of recovered waste. Waste.

This study reviews the most relevant recycling and reuse technologies; discusses recent trends in technology development, implementation and deployment; and provides market overviews and assessments for each technology. The estimated values ​​used are based on the total revenues of the manufacturers.

The regional discussion of this report will be segmented into five geographic regions namely, North America, Europe, Asia Pacific, Middle East and Rest of World.

The currency used in this report is the US dollar, with market size shown in millions of dollars. For companies reporting their income in US dollars, the income was taken directly from their annual reports and for companies reporting their income in other currencies (such as euro or pound sterling), the average annual conversion rate was used for the year in question to convert the value to US dollars.

The report includes:
– 94 data tables and 38 additional tables
– An updated review of global water recycling and reuse technologies markets
– Market size estimation and analysis of global market trends, with data from 2020, estimates for 2021 and 2022 and projections of compound annual growth rates (CAGR) to 2026
– Information on the improvement, increase and beneficial reuse of the water supply; coverage of improving regulatory compliance and current status of wastewater treatment infrastructure
– Details of relevant emerging techniques and their market readiness potential
– Identification of market drivers, restraints and other forces impacting the global market and assessment of current market size and forecast and technological advancement within the industry
– Market share analysis of key industry companies and coverage of events such as mergers and acquisitions, joint ventures, collaborations or partnerships and other key market strategies
– Company profiles of major players including Dow, DuPont, Merck KGaA, Pall Corp., Pentair, Xylem and Mitsui & Co., Ltd.

Summary:
Threats associated with global water scarcity are increasingly in the news, as continued growth in agricultural production, expansion of urban boundaries, new industrial facilities and increased sensitivity to environmental needs lead to increased water demand. Water supply constraints are further exacerbated by droughts, such as the recent drought in California that caused tens of billions of dollars in economic losses in the agricultural sector alone.

Even more dramatic is a long-term drought in the Middle East which arguably has been going on since 1998. Now widely believed to be caused by climate change, the drought has recently been characterized by
NASA scientists as the worst the region has seen in 900 years. In response to these concerns, water supply managers in water-stressed areas around the world are increasingly seeking creative solutions to address increasingly costly water supply deficits.

One of the key developments in the water supply markets is the differentiation of potable and non-potable water. Drinking water must meet strict basic public health requirements to ensure that water-borne diseases and harmful levels of pollutants are not transmitted to human populations.

On the other hand, agricultural irrigation, landscape irrigation, flushing toilets and, in some cases, water discharged into the environment do not necessarily have to meet such strict and high treatment requirements. This differentiation has enabled water managers to implement wastewater recycling and reuse, where water is treated to the minimum standards necessary to meet these non-potable needs. Alternatively, treated
wastewater discharged into rivers has, for decades (albeit with little notice), been mixed with natural waters and then withdrawn miles downstream, treated and used for municipal supply. In contrast, direct reuse of drinking water, where wastewater is treated in a wastewater treatment facility and then directly injected into a water supply system, has been sensationalized and labeled by the media as “toilet on tap. ”Thanks to its“ yuck factor ”. However, recent droughts are pushing consumers to exceed these labels, especially in water-poor and densely populated areas like California, where several direct drinking water reuse projects are currently being considered for deployment.

By 2030, it is estimated that there will be an unmet global demand for water, according to the European Commission, of around 3,000 cubic kilometers. Global wastewater production represents about half of this volume.

Not all wastewater streams are recoverable, but many, perhaps most, are recoverable as countries around the world develop wastewater collection and treatment infrastructure. Thus, a proliferation of wastewater recycling over the next decades could significantly reduce water stress in many waters. stressed areas.

As consumers finally begin to embrace the reality of technological solutions that can reliably clean wastewater, the reuse of drinking water will become much more prevalent and, in fact, common in areas of water stress.

The growth of the wastewater recycling and reuse market has advanced significantly in recent years, albeit more slowly than expected, due to a slower than expected long-term rebound from the economic downturn. global. However, many municipal and industry decision makers are now at a point where they are ready to move projects forward.

Driven by the growth of underlying wastewater treatment markets, wastewater recycling and reuse is also increasingly valued by regulators, as local and national governments strive to implement policies. more favorable to recycling. Thus, the global wastewater recycling and reuse markets are in an exciting time, with strong potential for market growth and revenue generation that also addresses increasingly critical supply considerations. and water management at regional and global levels.
Read the full report: https://www.reportlinker.com/p05027996/?utm_source=GNW

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