In 2010, the irrigation sector was the highest water consuming sector with a volume of *** billion cubic meters and was expected to remain the highest water consuming sector even in 2025 and in 2050, with a volume of water consumption rising to *** billion cubic meters and ***** billion cubic meters respectively.

Over the coming years, the water requirement across all the sectors will likely increase due to the growing population. There was a significant imbalance between the water demand and water resource availability, thereby causing water scarcity. With the rising population and industrialization, it was expected that there would be an increase in the amount of sewage and industrial waste being generated. However, the country lacked the capacity to treat the current waste.

The dataset contains Year- and region-wise All India compiled data on Total Number of Households who are using Principal Sources of Drinking Water such as bottled water, piped water into dwelling, yard or plot, public tap, stand pipe, tube well, bore hole, protected and unprotected wells, springs, rain water, tank, pond and other sources. Along with this, the dataset also contains All India independent data on Total Number of Households who have No or Any or All Types of Supplementary Sources of Drinking Water. Both the types of data are provided for the period of 1998 to 2018. The dataset has been compiled from Table nos. 8, 13 and 14 of NSS 54th, 69 and 76th round reports, respectively.

Bahrain has one of the highest water stress levels in the world. Based on an index that reflects how much water is extracted in relation to the available renewable water supplies, Bahrain was graded five on a scale from zero to five, where five shows the highest level of water stress. Other countries with the highest scores were Cyprus, Kuwait, Lebanon, Oman, and Qatar.

The dataset contains Year-, State- and region-wise compiled data on Total Number of Households who are using Principal Sources of Drinking Water such as bottled water, piped water into dwelling, yard or plot, public tap, stand pipe, tube well, bore hole, protected and unprotected wells, springs, rain water, tank, pond and other sources. Along with this, the dataset also contains independent data on Total Number of Households who have No or Any or All Types of Supplementary Sources of Drinking Water. Both the types of data are provided for the period of 1998 to 2018. The dataset has been compiled from Table nos. 8, 13 and 14 of NSS 54th, 69 and 76th round reports, respectively.

About *** heat wave days were recorded across India in 2022, a decrease compared to the previous year. In recent years, these events were more intense in the northern regions of the country, coinciding with droughts, water shortage and an already inadequate infrastructure. The impact of heatwaves Illnesses and deaths are an obvious consequence of the impact of heat waves in India. With record breaking heat year after year, temperatures were recorded in the high 40s and low ** degree Celsius. For comparison, core human temperatures of ** degree Celsius are categorized as fever, requiring medical attention. In extreme cases, permanent brain damage can occur, or even death. Precaution and mitigation Inconsistent rains or unmitigated torrential rains, along with depleting groundwater reserves and droughts have led to severe water shortages across vast areas of the country, leading to a dependence on water tankers. These include cities like Chennai, Coimbatore, parts of Jharkhand, and Madhya Pradesh. India’s National Disaster Management Authority aims to keep heat related deaths at single digits. Measures to achieve that include increasing public awareness and distributing free water. In parts of Rajasthan, advisory actions were followed by pouring water onto asphalt roads to prevent them from melting during summer.

Weather conditions during the crop period (December 2020 to May 2021) at Main Agriculture Research Station, UAS, Dharwad, Karnataka, India.

Snapshot img

Rainwater Harvesting Systems Market Size 2025-2029

The rainwater harvesting systems market size is forecast to increase by USD 1.04 billion, at a CAGR of 10% between 2024 and 2029.

The market is driven by the global increase in water consumption, which has led to a growing demand for sustainable water management solutions. Another key trend is the emergence of smart cities and green buildings, where rainwater harvesting systems are integrated into infrastructure to reduce reliance on municipal water supplies and promote eco-friendly construction. However, uneven distribution of rainfall and lack of awareness about the benefits of rainwater harvesting pose significant challenges to market growth.
By focusing on innovation, sustainability, and customer education, businesses can differentiate themselves and successfully navigate the dynamic market landscape. Effective marketing strategies and educational initiatives are essential to increase awareness and overcome these obstacles, allowing companies to capitalize on the opportunities presented by this expanding market. Rainwater harvesting systems come in various forms, such as rain barrel systems and dry systems, and are constructed using materials like plastic, fiberglass, concrete, stainless steel, and galvanized steel.

What will be the Size of the Rainwater Harvesting Systems Market during the forecast period?

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The water harvesting market encompasses a range of technologies and services aimed at collecting, managing, and distributing rainwater for various uses. Water harvesting innovation continues to drive growth in this sector, with water reuse technologies and advanced water treatment solutions gaining traction. Integrated water management systems, which combine rainwater collection, data analytics, and water distribution, are increasingly popular. Government incentives and public awareness campaigns are fostering the adoption of water harvesting services and water conservation strategies. Resilient water systems, including smart water systems and water-sensitive urban design, are essential components of climate change adaptation. Rainwater tank sizing and maintenance are crucial aspects of effective water storage.
Water resource management and water quality monitoring are integral to the successful implementation of water harvesting systems. Water conservation technologies, such as water harvesting software and consulting services, are essential for businesses seeking to reduce water usage and costs. Water scarcity solutions, including rainwater collection and green infrastructure, are vital for ensuring long-term water security. The availability of land space is a crucial factor in the implementation of these systems, with larger companies and newer entrants investing in rainwater harvesters and recharge structures like recharge pits, recharge trenches, dug wells, catchments, coarse mesh, conduits, first flushing devices, sand filters, charcoal, salt water filters.

How is this Rainwater Harvesting Systems Industry segmented?

The rainwater harvesting systems industry research report provides comprehensive data (region-wise segment analysis), with forecasts and estimates in 'USD million' for the period 2025-2029, as well as historical data from 2019-2023 for the following segments.

End-user

  Non-residential
  Residential


Application

  Surface-based
  Rooftop-based


Component

  Storage tanks
  Filters and purification systems
  Distribution systems


Geography

  North America

    US
    Canada


  Europe

    France
    Germany
    UK


  APAC

    Australia
    China
    India
    Japan


  South America

    Brazil


  Rest of World (ROW)

By End-user Insights

The non-residential segment is estimated to witness significant growth during the forecast period. The market is experiencing significant growth due to increasing water conservation efforts and the need for sustainable water management. Green building design is a key driver, with many architects and builders incorporating rainwater harvesting systems into new constructions to reduce reliance on municipal water supplies and decrease water consumption. Rainwater harvesting kits are gaining popularity for their ease of installation and affordability. Water quality analysis is crucial for ensuring the safety and suitability of harvested rainwater for various uses, including domestic water supply and irrigation systems. Permitting procedures vary by location, requiring adherence to regulatory compliance and water harvesting regulations.

Gravity-fed systems are commonly used for rainwater harvesting due to their simplicity and cost-effectiveness. Total dissolved solids (TDS) levels must be monitored and controlled to maintain water quality. Cleaning and disinfection methods are essential for preventing bacterial growth and ensuring the water is safe for use.

• The industry was valued at US$ 71.1 Bn in 2022
• It is estimated to grow at a CAGR of 6.8% from 2023 to 2031 and reach US$ 128.5 Bn by the end of 2031

Market Introduction

Attribute	Detail
Market Drivers	Growth in Concerns Regarding Water Scarcity Rapid Urbanization and Population Growth

Regional Outlook

Attribute	Detail
Leading Region	Asia Pacific

Drinking Water Pipe Repair Market Snapshot

Attribute	Detail
Market Size in 2022	US$ 71.1 Bn
Market Forecast (Value) in 2031	US$ 128.5 Bn
Growth Rate (CAGR)	6.8%
Forecast Period	2023-2031
Historical Data Available for	2021
Quantitative Units	US$ Bn for Value
Market Analysis	It includes segment analysis as well as regional level analysis. Furthermore, qualitative analysis includes drivers, restraints, opportunities, key trends, Porter’s Five Forces Analysis, value chain analysis, and key trend analysis.
Competition Landscape	Market share analysis by company (2022) Company profiles section includes overview, product portfolio, sales footprint, key subsidiaries or distributors, strategy and recent developments, and key financials
Format	Electronic (PDF) + Excel
Market Segmentation	Type Pipes & Connectors Fittings Couplings Valves Others Repair Technology Remote Assessment & Monitoring Open & Cut-pipe Repair Spot Assessment & Repair Trenchless Pipe Repair
Regions Covered	North America Europe Asia Pacific Middle East & Africa South America
Countries Covered	U.S. Canada Germany U.K. France Russia & CIS Japan China India ASEAN Brazil Mexico GCC South Africa
Companies Profiled	3M Advanced Trenchless, Inc. Aegion Corporation Kurita Water Industries Ltd. AGRU Kunststofftechnik GmbH Amex Sanivar Atlantis Plumbing Mueller Water Products KMG Pipe Rehabilitation Emirates LLC BRAWO SYSTEMS GmbH
Customization Scope	Available upon request
Pricing	Available upon request

Snapshot img

Desalination Market Size 2025-2029

The desalination market size is forecast to increase by USD 10.41 billion, at a CAGR of 8.9% between 2024 and 2029.

The market is driven by the escalating population growth and subsequent surge in demand for consumable water. As water scarcity becomes a pressing issue, desalination emerges as a viable solution to meet the increasing water demands. Additionally, the integration of renewable energy sources in desalination processes is gaining traction, contributing to the market's momentum. However, the high initial investment costs associated with setting up desalination plants pose a significant challenge for market growth. Despite this hurdle, companies can capitalize on the growing demand for water and the trend towards renewable energy integration by developing cost-effective desalination technologies and collaborating with energy providers to optimize the use of renewable power sources. Also, the presence of excess salts and minerals in feedwater sources poses challenges in the desalination process.
By addressing these challenges, market participants can effectively navigate the competitive landscape and capitalize on the opportunities presented by the market.

What will be the Size of the Desalination Market during the forecast period?

Explore in-depth regional segment analysis with market size data - historical 2019-2023 and forecasts 2025-2029 - in the full report.
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Desalination, a critical solution in addressing water scarcity, continues to evolve as market dynamics unfold. The desalination industry encompasses various technologies, including reverse osmosis (RO), thermal desalination, and membrane distillation, among others. Each technology presents unique advantages and challenges in terms of water quality, capital costs, and energy efficiency. Water recovery rate and salt rejection are crucial factors in evaluating desalination plants' performance. RO membranes, a common choice, filter water through semipermeable membranes, rejecting salts and impurities. Thermal desalination processes, such as vapor compression distillation and multi-effect distillation, heat seawater to produce steam, which then condenses into fresh water.

Membrane distillation separates water through temperature difference, minimizing the need for chemicals. Desalination projects face various challenges, including high capital costs, energy consumption, and environmental impact. Integrating desalination with renewable energy sources and improving energy efficiency through energy recovery devices is a significant focus. Pretreatment systems, including intake structures and cleaning agents, are essential for maintaining water quality and minimizing fouling. Desalination applications span municipal and agricultural sectors, particularly in arid regions and coastal communities, where water security is paramount. Mineral composition, total dissolved solids, and brine management are essential considerations for desalination plants. Technological advancements, such as forward osmosis, capacitive deionization, and tubular modules, offer potential solutions to optimize desalination processes and reduce costs.

Remote monitoring and process control systems enable real-time data analytics, ensuring desalination plants operate efficiently and effectively. The market's continuous evolution reflects the industry's commitment to addressing water scarcity and ensuring water security.

How is this Desalination Industry segmented?

The desalination industry research report provides comprehensive data (region-wise segment analysis), with forecasts and estimates in 'USD million' for the period 2025-2029, as well as historical data from 2019-2023 for the following segments.

Technology

  Membrane
  Thermal


Application

  Municipal
  Industrial
  Others


Source

  Seawater
  Brackish water


Plant Type

  Large Scale
  Medium Scale
  Small Scale
  Mobile/Containerized


Component

  Pumps
  Membranes
  Energy Recovery Devices
  Pre-treatment Systems
  Post-treatment Systems


Geography

  North America

    US
    Canada


  Europe

    France
    Germany
    Italy
    UK


  Middle East and Africa

    Egypt
    KSA
    Oman
    UAE


  APAC

    China
    India
    Japan


  South America

    Argentina
    Brazil


  Rest of World (ROW)

By Technology Insights

The membrane segment is estimated to witness significant growth during the forecast period.

The market is driven by the increasing water scarcity in coastal communities and arid regions. Membrane technology, a significant segment of this market, dominates with its ability to provide high water purity and suitability for areas with water stress and limited energy resources. Reverse osmosis (RO), a popular membrane technique, is widely used due to its high salt rejection rate and energy efficiency. Data analytics play

Snapshot img

Water Purifiers Market Size 2024-2028

The water purifiers market size is forecast to increase by USD 19.78 billion at a CAGR of 9.73% between 2023 and 2028.

The market is driven by the rising incidence of waterborne diseases, which underscores the growing need for clean and safe drinking water. According to the World Health Organization, diarrheal diseases caused by contaminated water kill an estimated 502,000 children under five years old each year. This alarming statistic highlights the urgent demand for water purification solutions. Another key driver is the continuous launch of innovative water purifiers, with companies introducing advanced technologies such as reverse osmosis, UV filtration, and ion exchange to cater to consumers' evolving preferences. However, the market faces challenges as well. The low replacement cycle of water purifiers, which is typically every three to five years, limits the growth potential for manufacturers.
Additionally, the high initial investment required for purchasing water purifiers may deter some consumers from making a purchase, particularly in developing countries. Companies in the market must navigate these challenges by offering affordable financing options, extended warranties, and after-sales services to incentivize repeat purchases. To capitalize on opportunities, market players should also focus on expanding their product portfolios to cater to diverse consumer segments and geographies.

What will be the Size of the Water Purifiers Market during the forecast period?

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The market continues to evolve, driven by the persistent water quality issues and the increasing water crisis in urban areas. Pesticides and water pollution remain significant concerns, leading to the demand for advanced filtration technologies. One such innovation is the Elegant Black Edition RO water purifier, which effectively removes chlorine impurities, minerals, and dissolved solids. However, maintenance costs are a critical factor, with consumers seeking filter media that offer optimal energy levels and extended life. Smart water purifiers, equipped with smart sensors and UV filters, are gaining popularity in both residential and commercial sectors. These feature-rich purifiers enhance skin health and provide pure drinking water for daily activities, including cooking and bathing.
Urbanization and increased population have led to a rapid development of the market, with emerging countries adopting water filtration systems to address waterborne diseases such as cryptosporidium and giardia. The market dynamics are further influenced by government programs, purchasing power, and consumer health concerns. End-users demand purifiers that decontaminate water from heavy metals, metabolites, and dangerous bacteria. Point-of-entry filters and gravity filters offer cost-effective solutions, while cloud ro and reverse osmosis systems cater to those seeking cutting-edge technology and advanced purification techniques. The market's continuous unfolding is shaped by various factors, including the evolving water crisis, consumer preferences, and technological advancements.The ongoing need for clean water in daily life, from cooking to bathing, ensures the market's dynamic nature will persist.

How is this Water Purifiers Industry segmented?

The water purifiers industry research report provides comprehensive data (region-wise segment analysis), with forecasts and estimates in 'USD billion' for the period 2024-2028, as well as historical data from 2018-2022 for the following segments.

End-user

  Residential
  Commercial


Technology

  Reverse osmosis (RO)
  Ultraviolet (UV)
  Ultrafiltration (UF)
  Gravity-based
  Others


Distribution Channel

  Online Retail
  Offline Retail
  Direct Sales


Product Type

  Countertop
  Wall-Mounted
  Under-Sink


Geography

  North America

    US
    Canada


  Europe

    France
    Germany
    UK


  Middle East and Africa

    UAE


  APAC

    Australia
    China
    India
    Japan


  South America

    Brazil


  Rest of World (ROW)

By End-user Insights

The residential segment is estimated to witness significant growth during the forecast period.

In today's world, ensuring access to clean and safe drinking water is a significant concern for both residential and commercial consumers. Waterborne diseases and contaminants, including pollutants, viruses, heavy metals, pesticides, and dissolved solids, have become a major health concern, especially in rapidly developing economies with high population densities, such as China and India. The increasing awareness of these issues has led to a surge in demand for water purifiers. Residential consumers, particularly those in urban areas, are investing in water purifiers to eliminate impurities and enhance their living standards. In India, for instance, the annual economic cost of waterbo

Water withdrawals per capita in Turkmenistan amount to 2,740 cubic meters per inhabitant, according to the latest available data from 2021. This is a far higher volume than in many other countries, such as China, where per capita water withdrawals were 398.7 cubic meters as of 2021. Global water withdrawals Countries around the world withdraw huge volumes of water each year from sources such as rivers, lakes, reservoirs, and groundwater. China has some of the largest annual total water withdrawals across the globe, at 581.3 billion cubic meters per year. In comparison, Mexico withdrew almost 90 billion cubic meters of water in 2021. Water scarcity Although roughly 70 percent of Earth's surface is covered with water, less than one percent of the planet's total water resources can be classified as accessible freshwater resources. Growing populations, increased demand, and climate change are increasingly putting pressure on these precious resources. This is expected to lead to global water shortages around the world. In the United States, the megadrought in the west has seen water levels of major reservoirs that provide water to millions of people plummet to record lows. In order to prevent severe droughts in water-stressed areas today and in the future, a more efficient use of water is essential.

Of the selected cities shown, many of the lowest drinking water prices are in Asia. Mumbai, India had the lowest average tap water price in 2021, at just **** U.S. dollars per 100 cubic meters. The capital city of the Indian state of Karnataka, Bangalore had the second lowest water price, where 100 cubic meters of drinking water cost **** U.S. dollars. The city of Miami in the US American state of Florida has one of the lowest tap water prices outside Asia at ***** U.S. dollars per 100 cubic meters. Most expensive water prices The price of water varies around the world, with some of the highest found in Europe. For example, in Oslo, Norway, citizens pay an average of *** U.S. dollars per 100 cubic meters. In the United States, cities with high levels of water stress – such as Los Angeles and San Diego – also pay high prices for tap water. The cost of water in many U.S. cities has been increasing in recent years, with water bills in San Diego having increased by *** U.S. dollars between 2010 and 2018. Water consumption Globally, per capita water withdrawals are highest in the U.S., with the average American withdrawing ***** cubic meters of water a year. This is roughly twice the per capita withdrawals in Japan, and four times more than in Germany.