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Recycling Water Filtration Market Forecast Report to 2030, with Profiles of Veolia, Toray Industries, Xylem, DuPont, KUBOTA, NEWater, Hongtek Filtration, Swati Water Purification, and Pure Aqua
Recycling Water Filtration Market Forecast Report to 2030, with Profiles of Veolia, Toray Industries, Xylem, DuPont, KUBOTA, NEWater, Hongtek Filtration, Swati Water Purification, and Pure Aqua

Yahoo

time14-07-2025

  • Business
  • Yahoo

Recycling Water Filtration Market Forecast Report to 2030, with Profiles of Veolia, Toray Industries, Xylem, DuPont, KUBOTA, NEWater, Hongtek Filtration, Swati Water Purification, and Pure Aqua

The Recycling Water Filtration Market is set to grow due to increasing water scarcity and environmental regulations. Key opportunities include adopting advanced filtration technologies, like membrane systems, for water reuse in industries and agriculture. The rise of decentralized, modular systems offers scalability and quicker deployment, beneficial for urban and infrastructural-challenged regions. Recycling Water Filtration Market Dublin, July 14, 2025 (GLOBE NEWSWIRE) -- The "Recycling Water Filtration Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, 2020-2030F" has been added to Recycling Water Filtration Market was valued at USD 2.38 Billion in 2024 and is expected to reach USD 3.71 Billion by 2030, rising at a CAGR of 7.53%. This market is experiencing strong growth as rising water scarcity, environmental concerns, and regulatory mandates drive the adoption of advanced water recycling technologies. Industries and municipalities are increasingly implementing filtration-based systems to reduce dependence on freshwater by treating and reusing wastewater for various applications, including industrial processes, agriculture, and urban use. Population growth and industrialization in developing regions have intensified pressure on freshwater supplies, accelerating the need for efficient water reuse solutions. Filtration systems - particularly those using membrane technologies like reverse osmosis, ultrafiltration, and nanofiltration - play a central role in producing high-quality treated water. Additionally, the integration of smart technologies, including IoT and automation, has enhanced the reliability, operational efficiency, and monitoring capabilities of modern filtration infrastructure. Regulatory support and public initiatives in regions such as the Middle East, California, and Asia Pacific are reinforcing the global shift toward sustainable water management. Key Market Drivers: Water Scarcity and Depleting Freshwater Resources: The increasing global shortage of accessible freshwater is a key factor driving demand for recycling water filtration technologies. As water demand is expected to rise over 55% by 2050, many regions are already experiencing severe stress due to rapid urbanization, climate variability, and declining natural water sources. In areas such as North Africa and the Middle East, per capita renewable freshwater availability is significantly below the scarcity threshold, while groundwater levels in countries like India continue to fall. In response, filtration-based recycling systems are being implemented to convert wastewater into usable water for agricultural, industrial, and in some cases, potable applications. With only a small fraction of wastewater currently being reused, there is a substantial untapped opportunity for filtration technologies to fill the gap. These systems are essential in ensuring water quality and safety, making them indispensable in meeting future water security goals. Key Market Challenges: High Initial Investment and Operating Costs: Despite long-term benefits, the adoption of recycling water filtration systems is often hindered by high capital and operational expenses. Advanced filtration systems involving reverse osmosis, ultrafiltration, and nanofiltration require considerable upfront investment in membranes, energy-efficient pumps, automation technology, and skilled labor. Ongoing operational costs - including energy consumption, membrane replacement, maintenance, and labor - add to the financial burden, particularly for small to mid-sized enterprises and municipalities. In RO systems, energy costs alone can represent nearly half of the total operational expenses. Moreover, in regions with limited access to funding or government incentives, such as parts of the developing world, deploying these systems becomes financially challenging. The complexity of pre-treatment requirements and the need for routine system upkeep further compound the issue, discouraging investment despite the long-term water savings and regulatory advantages. Key Market Trends: Growing Adoption of Decentralized and Modular Filtration Systems: A prominent trend reshaping the recycling water filtration market is the rise of decentralized and modular treatment systems. Unlike large, centralized facilities, modular units offer flexibility, scalability, and quicker deployment - making them ideal for rapidly expanding urban zones, remote locations, and temporary installations. These compact systems can be installed directly at the point of wastewater generation, such as in industrial plants, residential complexes, or commercial establishments, facilitating localized water reuse and reducing infrastructure strain. Typically pre-assembled and containerized, these units simplify installation and integration, requiring minimal civil works. Their growing adoption is especially notable in emerging markets and regions with infrastructural limitations, as well as in commercial real estate projects looking to reduce operational water consumption and environmental impact. Key Market Players: Veolia Toray Industries, Inc. Xylem Inc. DuPont KUBOTA Corporation NEWater Hongtek Filtration Co. Ltd. Swati Water Purification REE & Company Engineering Works Pure Aqua, Inc. Key Attributes: Report Attribute Details No. of Pages 185 Forecast Period 2024 - 2030 Estimated Market Value (USD) in 2024 $2.38 Billion Forecasted Market Value (USD) by 2030 $3.71 Billion Compound Annual Growth Rate 7.5% Regions Covered Global Report Scope: In this report, the Global Recycling Water Filtration Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below: Recycling Water Filtration Market, By Technology: Membrane Filtration Biological Filtration Chemical Filtration Mechanical Filtration Recycling Water Filtration Market, By Application: Municipal Industrial Commercial Agriculture Recycling Water Filtration Market, By Component: Filtration Units Pumps Valves Tanks Others Recycling Water Filtration Market, By Region: North America United States Canada Mexico Europe Germany France United Kingdom Italy Spain South America Brazil Argentina Colombia Asia-Pacific China India Japan South Korea Australia Middle East & Africa Saudi Arabia UAE South Africa For more information about this report visit About is the world's leading source for international market research reports and market data. We provide you with the latest data on international and regional markets, key industries, the top companies, new products and the latest trends. Attachment Recycling Water Filtration Market CONTACT: CONTACT: Laura Wood,Senior Press Manager press@ For E.S.T Office Hours Call 1-917-300-0470 For U.S./ CAN Toll Free Call 1-800-526-8630 For GMT Office Hours Call +353-1-416-8900

Hosepipe bans are here again. The UK must prepare for the coming era of drought
Hosepipe bans are here again. The UK must prepare for the coming era of drought

Telegraph

time10-07-2025

  • Business
  • Telegraph

Hosepipe bans are here again. The UK must prepare for the coming era of drought

Water scarcity is becoming a global problem as droughts become more frequent, longer, and more severe. At the same time, demand for water is rising due to population growth, urbanisation, and economic activities. Unsustainable water policies and poor management are making the situation worse. The UK is not exempt from this global trend. Droughts have occurred regularly, and yet the country remains unprepared. According to the Environment Agency, April 2025 was the fourth driest on record in north-east England since 1871. In parts of Cumbria and Northumbria, it has been the driest start to the year since 1929. A hosepipe ban has just been implemented in Yorkshire and other water companies are warning of more. The future is likely to bring more frequent and extended droughts because of climate change. Despite this, long-term planning to reduce the impact of droughts on people, businesses, and the environment is still lacking. Most current actions focus on short-term responses such as monitoring, issuing permits, and restricting water use. Broader, long-term strategies have yet to be formulated. While infrastructure like reservoirs, pipelines, and treatment plants is important, other areas need more attention. These include improving water use efficiency, encouraging conservation, and reducing demand across all sectors. Waterwise's UK Water Efficiency Strategy to 2030 stresses that saving water should be a central part of national policy. Technologies like desalination can help, but they need to be part of a wider strategy as it is the case in Singapore, for example. They may produce costly water that is used inefficiently or becomes too expensive. In some Gulf countries, for example, desalinated water is widely available, but overall water use remains high and inefficient. Before planning for desalination, cities in coastal cities in England should reduce their water losses. Clean rivers and lakes are also essential. Pollution from sewage, urban runoff, industrial discharges, fertilisers and pesticides has long affected UK's water sources. When water is polluted, it becomes less usable, making the effects of prolonged droughts worse. Industrial water use should also be reviewed. For instance, data centres, which support AI and mobile connectivity, use large amounts of water, especially for cooling. In the UK and elsewhere, they are competing with local communities for access to clean water. In Singapore, water efficiency is required across all sectors, including data centres and manufacturing. The UK has yet to introduce similar rules. If a long drought occurs, will data centres and other industries face water restrictions? What would the consequences be? Should they be prioritised over other users due to their importance, or should they be required to become efficient starting now? The UK government considers water a national priority, but implementable plans to conserve it much better are long overdue. Droughts affect not only water and wastewater systems, but also energy supply, agriculture and overall ecosystems. Planning ahead means ensuring all sectors become more efficient and less polluting, so droughts cause less disruption. Water-saving habits by individuals, almost 70 million in the UK, can make a difference and should be supported by policy and adopted widely. Is it really that bad to wash cars using water in buckets? The next reporting deadline for the All-Party Parliamentary Groups for Sustainable Flood and Drought Management is 9 February 2026, seven months away. This would be a timely opportunity to discuss a national strategy that is financially viable for drought preparation that protects people, economic sectors, and the environment.

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