The Global Water Quality Sensors Market to grow from USD 1.92 billion in 2022 to USD 3.72 billion by 2030, at a CAGR of 8.62%.

PUNE, MAHARASHTRA, INDIA , November 17, 2023 /EINPresswire.com/ -- The "Water Quality Sensors Market by Type (Chlorine Residual Sensor, Conductivity Sensor, ORP Sensor), Distribution Mode (Offline Mode, Online Mode), Application, End user - Global Forecast 2023-2030" report has been added to 360iResearch.com's offering.

The Global Water Quality Sensors Market to grow from USD 1.92 billion in 2022 to USD 3.72 billion by 2030, at a CAGR of 8.62%.

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Water quality sensors are essential tools for the continuous monitoring of various parameters in water resources, such as lakes, rivers, groundwater, and wastewater systems. These sensors enable efficient management of water resources by providing accurate and real-time data on different indicators of water quality. The water quality sensors market refers to the business landscape surrounding the development, production, distribution, and implementation of devices designed to monitor and analyze various parameters that determine the quality of water in different environments, such as industrial processes, environmental monitoring, wastewater treatment plants, and drinking water supply chains. The driving factors for the water quality sensor market include increased pollution, chemical leakages, degraded soil quality, and a growing need to monitor water quality in the industrial sector. This upward market growth is supported by strict water standards led by the government to monitor and maintain the data concerning water quality. On the other hand, the high production cost of utilization of sensors and lack of water infrastructure hampers the development of the water quality sensors market. However, constant innovations and product development, increasing prominence of water reuse and recycling in resolving the water concern due to water scarcity and rising energy costs, and increasing investments in water and wastewater treatment plants create new growth opportunities for the water quality sensors market.

Distribution mode: Increasing utilization of online distribution of water quality sensors to monitor parameters through remote access
The offline mode in water quality sensors refers to devices that utilize on-site, manual monitoring and testing of water samples. These sensors are preferred by users who require localized data collection and analysis without dependence on internet connectivity. The standard offline water quality sensors include portable meters, colorimetric test kits, titration-based systems, and handheld probes. Online mode water quality sensors allow users to monitor real-time parameters continuously through remote access via wireless or wired communication networks. These systems are ideal for large-scale coverage and automated management of water resources due to their ability to transmit live information to centralized control rooms or cloud-based platforms. Offline mode sensors are generally more affordable and portable, making them suitable for small-scale applications or users with limited budgets. They offer localized data collection without reliance on internet connectivity but require manual analysis and interpretation of results. On the other hand, online mode water quality sensors provide continuous real-time monitoring that allows users to make convenient decisions based on accurate data trends. These systems facilitate large-scale coverage and automated management but may have higher upfront costs due to equipment and network installation requirements.

End User: Growing potential of water quality sensors in treatment plants for ensuring public health and safety
In the water management industry, water treatment plants are among the most crucial end-user segments for water quality sensors. These plants require constant monitoring and testing of water to ensure the public's safety and adherence to regulatory standards. Water quality sensors play a significant role in providing real-time data on various parameters such as pH, temperature, dissolved oxygen, turbidity, and conductivity. Water distribution facilities represent another essential end-user segment where water quality sensors are employed extensively. The key focus in this sector is maintaining a consistent supply of clean drinking water through pipes and reservoirs to residential, commercial, and industrial consumers.

Type: Rising preference for pH sensors for wastewater treatment and food & beverage processing
Chlorine residual sensors measure the amount of residual chlorine in water, ensuring proper disinfection and compliance with regulations. They are essential for water treatment plants, swimming pools, and potable water distribution networks. Conductivity sensors measure the ability of water to conduct electric current, which helps determine the concentration of dissolved salts and other contaminants. These are critical in wastewater treatment plants, industrial processes that require high-purity water, such as pharmaceuticals, and monitoring natural water bodies for pollution levels. Oxidation-reduction potential (ORP) sensors monitor the balance between oxidants and reductants in water samples to assess their disinfecting properties or corrosion potential. They are utilized in aquaculture systems, cooling towers, electroplating industries, and drinking water treatment facilities. pH sensors calculate the acidity or alkalinity of water, which is crucial in various applications such as wastewater treatment, chemical manufacturing, and food & beverage processing. Total Organic Carbon (TOC) sensors evaluate the amount of organic pollutants in water samples, making them vital for environmental monitoring and industries that require ultrapure water. Turbidity sensors detect suspended particles in water samples by analyzing their scattering effect on light sources. They are essential in water & wastewater treatment plants, industrial processes like pulp & paper production, stormwater management systems, and natural aquatic environments.

Application: Expanding usage of water quality sensors for drinking water quality control
Agriculture water monitoring is essential for optimizing irrigation and reducing water wastage, ensuring healthy crop yields, and preventing soil contamination. Sensors play a crucial role in the real-time monitoring of water quality parameters such as pH, salinity, temperature, dissolved oxygen, and nutrient levels. Rapid detection of chemical leakages in rivers is vital for preventing environmental disasters and protecting aquatic ecosystems. Water quality sensors can detect pollutants such as heavy metals, organic compounds, and hazardous chemicals with high sensitivity. The safety of drinking water is critical for public health; hence, it requires continuous monitoring to ensure compliance with regulatory standards. Fish farming necessitates effective management of water quality to maintain fish health and maximize production efficiency. Sensors monitor parameters such as temperature, dissolved oxygen levels, and ammonia concentration. In hydroponics, plants grow in nutrient-rich water solutions without soil; monitoring water quality is essential to avoid plant stress and ensure optimal growth. Controlling sea pollution requires constant monitoring of pollutants such as plastics, oil spills, and heavy metals that adversely affect marine ecosystems. Water quality sensors contribute to early warning systems for potential disasters. Maintaining proper water quality and chemical balance is crucial for ensuring swimmers' health and extending the service life of pool equipment. Wastewater treatment plants require continuous monitoring of influent and effluent water quality to achieve effective pollution control and comply with environmental standards.

Regional Insights:
Growing demand for safe and clean drinking water in residential and commercial areas and stringent regulations on water quality across countries are expanding the usage of the water quality sensors market. Increased consciousness of safe drinking water among individuals has urged the local governments, corporations, and central government to undertake the usage of water quality sensors for a safe & constant water supply in the Americas. The European government's increased awareness initiatives about water solutions and technology integration are also expected to drive market growth in the European region. The European Union (EU) showcases a strong emphasis on environmental sustainability, with strict guidelines concerning water quality. In the EU, initiatives, including the Water Framework Directive, have accelerated the adoption of advanced sensor systems for real-time monitoring of surface and groundwater resources. The region is also witnessing a surge in investments from governmental agencies and private organizations to foster innovation within the sector. The increasing water treatment projects to establish safe and efficient infrastructure for safe water distribution across the countries in India, Nepal, China, Australia, Thailand, Indonesia, and South Korea, among others, provide considerable scope for the water quality sensor market in Asia-Pacific.

FPNV Positioning Matrix:

The FPNV Positioning Matrix is essential for assessing the Water Quality Sensors Market. It provides a comprehensive evaluation of vendors by examining key metrics within Business Strategy and Product Satisfaction, allowing users to make informed decisions based on their specific needs. This advanced analysis then organizes these vendors into four distinct quadrants, which represent varying levels of success: Forefront (F), Pathfinder (P), Niche (N), or Vital(V).

Market Share Analysis:

The Market Share Analysis offers an insightful look at the current state of vendors in the Water Quality Sensors Market. By comparing vendor contributions to overall revenue, customer base, and other key metrics, we can give companies a greater understanding of their performance and what they are up against when competing for market share. The analysis also sheds light on just how competitive any given sector is about accumulation, fragmentation dominance, and amalgamation traits over the base year period studied.

Key Company Profiles:

The report delves into recent significant developments in the Water Quality Sensors Market, highlighting leading vendors and their innovative profiles. These include Atlas Scientific, LLC, Danaher Corporation, Hanna Instruments, Inc., HORIBA, Ltd., Innovative Sensor Technology IST AG, KROHNE Group, Libelium Comunicaciones Distribuidas SL, Myron L Company, O'Keefe Controls Co., ProMinent Fluid Controls, Inc., Rika Sensors, Schneider Electric SE, Schroeder Industries, Shanghai BOQU Instrument Co.,Ltd, The Miura Group, Thermo Fisher Scientific Inc., and Xylem Inc..

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Market Segmentation & Coverage:

This research report categorizes the Water Quality Sensors Market in order to forecast the revenues and analyze trends in each of following sub-markets:

Based on Type, market is studied across Chlorine Residual Sensor, Conductivity Sensor, ORP Sensor, PH Sensor, TOC Sensor, and Turbidity Sensor. The TOC Sensor is projected to witness significant market share during forecast period.

Based on Distribution Mode, market is studied across Offline Mode and Online Mode. The Offline Mode is projected to witness significant market share during forecast period.

Based on Application, market is studied across Agriculture Water Monitoring, Chemical Leakage Detection In Rivers, Drinking Water Quality Control, Fish Farming, Hydroponics, Sea Pollution Level Control & Monitoring, Swimming Pool Remote Measurement, and Waste Water Treatment. The Fish Farming is projected to witness significant market share during forecast period.

Based on End user, market is studied across Treatment Plants and Water Distribution Facilities. The Treatment Plants is projected to witness significant market share during forecast period.

Based on Region, market is studied across Americas, Asia-Pacific, and Europe, Middle East & Africa. The Americas is further studied across Argentina, Brazil, Canada, Mexico, and United States. The United States is further studied across California, Florida, Illinois, New York, Ohio, Pennsylvania, and Texas. The Asia-Pacific is further studied across Australia, China, India, Indonesia, Japan, Malaysia, Philippines, Singapore, South Korea, Taiwan, Thailand, and Vietnam. The Europe, Middle East & Africa is further studied across Denmark, Egypt, Finland, France, Germany, Israel, Italy, Netherlands, Nigeria, Norway, Poland, Qatar, Russia, Saudi Arabia, South Africa, Spain, Sweden, Switzerland, Turkey, United Arab Emirates, and United Kingdom. The Americas commanded largest market share of 37.23% in 2022, followed by Europe, Middle East & Africa.

Key Topics Covered:

1. Preface
2. Research Methodology
3. Executive Summary
4. Market Overview
5. Market Insights
6. Water Quality Sensors Market, by Type
7. Water Quality Sensors Market, by Distribution Mode
8. Water Quality Sensors Market, by Application
9. Water Quality Sensors Market, by End user
10. Americas Water Quality Sensors Market
11. Asia-Pacific Water Quality Sensors Market
12. Europe, Middle East & Africa Water Quality Sensors Market
13. Competitive Landscape
14. Competitive Portfolio
15. Appendix

The report provides insights on the following pointers:
1. Market Penetration: Provides comprehensive information on the market offered by the key players
2. Market Development: Provides in-depth information about lucrative emerging markets and analyzes penetration across mature segments of the markets
3. Market Diversification: Provides detailed information about new product launches, untapped geographies, recent developments, and investments
4. Competitive Assessment & Intelligence: Provides an exhaustive assessment of market shares, strategies, products, certification, regulatory approvals, patent landscape, and manufacturing capabilities of the leading players
5. Product Development & Innovation: Provides intelligent insights on future technologies, R&D activities, and breakthrough product developments

The report answers questions such as:
1. What is the market size and forecast of the Water Quality Sensors Market?
2. Which are the products/segments/applications/areas to invest in over the forecast period in the Water Quality Sensors Market?
3. What is the competitive strategic window for opportunities in the Water Quality Sensors Market?
4. What are the technology trends and regulatory frameworks in the Water Quality Sensors Market?
5. What is the market share of the leading vendors in the Water Quality Sensors Market?
6. What modes and strategic moves are considered suitable for entering the Water Quality Sensors Market?

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Mr. Ketan Rohom
360iResearch
+ 1 530-264-8485
ketan@360iresearch.com

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