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全球水质监测系统市场规模、份额和行业趋势分析报告:2022-2028 年按组件、应用和地区划分的展望和预测Global Water Quality Monitoring Systems Market Size, Share & Industry Trends Analysis Report By Component, By Application, By Regional Outlook and Forecast, 2022 - 2028 |
到 2028 年,全球水质监测系统市场规模预计将达到 75 亿美元,在预测期内以 8.3% 的复合年增长率增长。
工业化导致的水污染增加、水传播疾病的流行、政府监管收紧等是水质监测系统市场的主要增长因素。正在开发新的传感器来分析水质。溶解氧传感器、浊度传感器、电导传感器、pH传感器、氯传感器、ORP传感器、温度传感器等。
配水系统由在线水质监测 (OWQM) 传感器和其他分析工具进行监测。在预测期内,采用创新技术有望推动水质监测系统的需求和渗透。主要的市场驱动因素之一是对饮用水质量产生不利影响的污染增加。
由于污染增加带来的气候变化,风暴、干旱和洪水正变得越来越普遍。因此,公用事业维修和改造项目被推迟或推迟。在这种情况下,电力公司必须响应最终用户的需求。因此,许多公用事业公司安装了系统来监测水质。
COVID-19 影响分析
由于封锁、人力短缺和供应链中断,管道监控系统的生产设施已全部或部分关闭。这将影响水质监测系统的生产。在这些行业,在封锁期间暂停正常运营大大减少了石油、水和废水等最终用户的需求。
市场增长因素
适用于广泛应用的严格水质标准测试
许多国际组织,例如环境保护署 (EPA)、欧洲饮用水指令、澳大利亚饮用水指南和中国 GB3838-2002,都在追求严格的用水质量检测指南和参数。尚未采用这些标准的国家遵守世界卫生组织 (WHO) 的建议。所有企业和最终用户都必须遵守这些规定,并且作为其中的一部分,必须使用水质检测工具来确定水质。
对废水处理的需求不断增加
随着生产活动变得更加活跃,水资源浪费已成为发达国家和发展中国家的一个大问题。许多政府和非政府组织都在努力保护水和自然资源。世界各地许多人饮用被微生物污染的水,这可能导致霍乱、伤寒、痢疾和脊髓灰质炎等疾病。
市场限制
监控系统通常很昂贵
水质监测系统的拥有成本包括初始购买成本、耗材和更换部件等运营成本以及维护成本。此外,还有用于製备标准化学品和试剂的消耗品成本。此外,分析仪的维护是整个仪器成本的重要组成部分。备件库存和工厂维修是仅次于校准的第二大拥有成本组件。
组件展望
按组件划分,水质监测系统市场分为 pH 传感器、DO 传感器、温度传感器、浊度传感器等。溶解氧传感器部分将在 2021 年在水质监测系统市场中获得可观的收入份额。 DO 传感器用于测量水中溶解氧的浓度,基于在氧气存在下的发光猝灭。由于氧气会影响发光强度和寿命,因此 DO 传感器可以测量发光强度或寿命。
应用前景
水质监测系统市场按应用分为住宅、商业、工业和公用事业。工业领域在 2021 年的水质监测系统市场中占有相当大的收入份额。各种类型的分析仪用于石油和天然气和化工等各个行业的高效废水处理监测。此外,工业废水必须经过预处理才能直接排入民用污水处理厂。
区域展望
按地区分析了北美、欧洲、亚太地区和 LAMEA 的水质监测系统市场。 2021年,北美地区将以最大的收入份额引领水质监测系统市场。这是由于现代技术的使用、新兴经济体的存在以及製造业和工业活动的兴起。此外,该地区几个国家政府的严格规定正在支持该地区的市场增长。
市场参与者采取的主要策略是产品发布。根据基数矩阵中的分析,丹纳赫公司和赛默飞世尔科技公司是水质监测系统市场的先驱。 Evoqua Water Technologies Corporation、Shimadzu Corporation 和 Xylem, Inc. 等公司是水质监测系统市场的领先创新者。
The Global Water Quality Monitoring Systems Market size is expected to reach $7.5 billion by 2028, rising at a market growth of 8.3% CAGR during the forecast period.
A system for monitoring various aspects of water quality, including hardware and software, is known as a "water quality monitoring system." It is a trustworthy analytical system designed to improve water quality. Water bodies must be regularly tested for contaminants in order to remain safe. Temperature, macroinvertebrates, phosphates, pH, nitrates, dissolved oxygen, and other parameters are measured through this system.
The standard of water resources directly impacts how people live their lives. Large water bodies in both urban and rural areas frequently receive contaminated water discharge due to environmental deterioration and extensive industrialization. Water becomes contaminated as a result, endangering human life. As a result, it is crucial to implement systems for monitoring water quality in order to assess it.
The rise in industrialization-related water pollution, the surge in the prevalence of waterborne diseases, and the rise in government regulations are the main growth factors for the market for water quality monitoring systems. To analyze the water quality, new sensors have been developed. These include dissolved oxygen sensors, turbidity sensors, conductivity sensors, pH sensors, chlorine sensors, ORP sensors, and temperature sensors.
The water distribution system is monitored by Online Water Quality Monitoring (OWQM) sensors, along with other analytical tools. During the forecast period, it is anticipated that the adoption of new technologies and creative techniques will increase demand for and popularity of water quality monitoring systems. One of the key market drivers is the increasing pollution that is negatively affecting the quality of drinking water.
Storms, droughts, and floods have become more common as a result of climatic changes brought on by rising pollution. Utility repair and retrofitting projects are consequently slowed down or put off. In such cases, utilities should accommodate end-user needs. As a result, numerous utilities are implementing systems for monitoring water quality.
COVID-19 Impact Analysis
Due to lockdown procedures, a lack of labor, and supply chain disruption, production facilities for pipeline monitoring systems were either completely or partially stopped. As a result of this, the production of water monitoring systems would be affected. Due to the suspension of regular business operations in these sectors during the lockdown, demand from end users for things like petroleum, water, and wastewater, and other goods & services significantly decreased.
Market Growth Factors
Strict Water Quality Standards Testing For A Wide Range Of Applications
Strict quality testing guidelines and parameters for water utilization are being pursued by numerous international organizations, including the Environmental Protection Agency (EPA), European Drinking Water Directive, Australian Drinking Water Guidelines, and China's GB3838-2002, among others. Countries that have not adopted these standards adhere to the World Health Organization's recommendations (WHO). All businesses & other end users must abide by these rules, and as part of that compliance, they must use water quality testing tools to determine the water's quality.
Increasing Need For Treatment Of Wastewater
With rising manufacturing activity, water waste has become a significant issue in both developed and developing nations. In order to conserve water and natural resources, numerous governments and non-governmental organizations are making great efforts. Worldwide, a large number of people consume water that is tainted with micro-organisms, which can lead to diseases like cholera, typhoid, dysentery, and polio, among others.
Market Restraining Factors
Monitoring Systems Are Generally Expensive
The initial purchase price, operational costs, which include the cost of consumables and replacement parts, and maintenance fees are all included in the ownership costs of water quality monitoring systems. Standard chemical solutions and reagent preparation involve consumable costs. In addition, a significant portion of the equipment's overall cost goes toward analyzer maintenance. The management of spare parts inventories and in-plant repairs are the next-largest components of instrument cost of ownership after calibration.
Component Outlook
Based on component, the water quality monitoring system market is segmented into pH sensors, DO sensors, temperature sensors, turbidity sensors and others. The DO sensors segment acquired a significant revenue share in the water quality monitoring systems market in 2021. DO sensors are utilized to measure dissolved oxygen concentration in water based on the quenching of luminescence in the presence of oxygen. The DO sensors can measure either the intensity or the lifetime of the luminescence as oxygen it affects both.
Application Outlook
On the basis of application, the water quality monitoring system market is fragmented into residential, commercial, industrial and utility. The industrial segment covered a substantial revenue share in the water quality monitoring system market in 2021. Different types of analyzers are utilized for efficient wastewater treatment monitoring in a variety of industries, including oil & gas and chemicals. Additionally, industrial wastewater must undergo pretreatment before being disposed of directly into sewage treatment facilities for the general public.
Regional Outlook
Region wise, the water quality monitoring system market is analyzed across North America, Europe, Asia Pacific and LAMEA. In 2021, the North America region led the water quality monitoring systems market with the largest revenue share. This is because of the usage of contemporary technologies, the presence of developed economies, as well as the rise in manufacturing and industrial activities. Along with this, the strict governmental regulations of the governments of several nations in the region are supporting regional market growth.
The major strategies followed by the market participants are Product Launches. Based on the Analysis presented in the Cardinal matrix; Danaher Corporation and Thermo Fisher Scientific, Inc. are the forerunners in the Water Quality Monitoring Systems Market. Companies such as Evoqua Water Technologies Corporation, Shimadzu Corporation and Xylem, Inc. are some of the key innovators in Water Quality Monitoring Systems Market.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include General Electric (GE) Co., Horiba Ltd., Danaher Corporation, Evoqua Water Technologies Corporation, Xylem, Inc., Shimadzu Corporation, Pentair PLC, Thermo Fisher Scientific, Inc., Uponor Corporation, and Teledyne Technologies, Inc.
Recent Strategies deployed in Water Quality Monitoring Systems Market
Partnerships, Collaborations and Agreements:
Aug-2021: HORIBA formed a partnership with Covalent Metrology, a leading North American provider of analytical services. This partnership aimed to expand engineering and scientific access to world-class expertise and chemical analysis instruments.
May-2021: Danaher came into a partnership with LightDeck Diagnostics, a developer of on-the-spot diagnostic products. Under this partnership, Hach would sell LightDeck's Gen 2 Microcystin/Cylindrospermopsin test that would simultaneously identify two of the most common toxins generated by harmful blooms.
Product Launches and Product Expansions:
Aug-2022: Aquatic Informatics introduced Rio, the next generation in cloud-based compliance and operations data management solutions. This product would expand the capabilities of the consumers by allowing them to be proactive in their compliance and more efficient in maintaining daily operations by offerings visibility into water quality procedures.
Jul-2022: Shimadzu released the latest Nexera XS inert, a bioinert and biocompatible ultra-high performance liquid chromatograph (UHPLC). The latest Nexera XS inert UHPLC would feature a metal-free sample flow path, which would prevent unwanted interaction with biopolymers that are prone to adsorption onto exposed metal sites.
Apr-2022: Xylem released the DB600 Data Monitoring Buoy Solution, a compact, user-friendly assembly, and plug-n-play device. This product would be implemented by a single person, in water depths up to 20 meters and current speeds of up to 4 knots, and features everything needed to transfer real-time water quality data directly to a smart device, with industrial field reliability.
Nov-2021: Thermo Fisher Scientific introduced Thermo Scientific HyPeak Chromatography System. Through an advanced zero dead-leg, ring flush valve manifold, the system would enable the easy and accurate operation and also contribute to optimal system volumes and decreased buffer use leading to enhanced product yield.
Jul-2021: HORIBA Advanced Techno released the HD-960LR, a new dissolved oxygen monitor for semiconductor and semiconductor manufacturing equipment manufacturers. This product would monitor the dissolved oxygen content of chemicals with better precision in the semiconductor manufacturing procedure.
May-2021: Shimadzu introduced the TOC-1000e, the first analyzer in the eTOC series of online TOC analyzers designed for pure water applications. This product aims at high sensitivity, miniaturization, and a mercury-free oxidation technique. The pioneering TOC-1000e system would be the world's smallest as well as lightest cabinet and offer high-sensitivity detection, which would make it ideal for fields offering high-purity water applications.
Mar-2021: Shimadzu launched its Advanced i-Series liquid chromatography series. This series would have more pressure resistance and would apply analytical intelligence (AI) automated features to complete remote work like auto-diagnostics and auto-recovery functions, real-time remote mobile phase monitoring (1 L-5 L bottles), i-PeakFinder for automatic peak integration, and several other beneficial features.
Jul-2020: YSI, a Xylem brand released two new powerful handheld meters: The YSI ProSwap Digital Water Quality Meter and the ProQuatro Multiparameter Meter. These products feature built-in spot sampling pH meter, temperature as well as optional depth sensors, and a profiling conductivity-temperature-depth system.
Acquisitions and Mergers:
Aug-2022: Pentair took over Manitowoc Ice from Welbilt, a leading provider of commercial ice makers. This acquisition aimed to enable Pentair to improve and provide the total water management capabilities to an expanded network of channel partners and customers, further setting up Pentair as a leader in a growing industry.
Apr-2022: Evoqua Water Technologies completed its acquisition of Frontier Water Systems, a leading supplier of engineered equipment packages. This acquisition aimed to add up to Evoqua's portfolio of advanced wastewater treatment technologies.
Oct-2021: Xylem took over Anadolu Flygt, Turkey's market leader in the supply, installation, and after-sales service for pump and water treatment systems. This acquisition aimed to expand Xylem's smart water product line into Turkey.
May-2021: Aquatic Informatics took over Sedaru, a leading provider of water utility management software. This acquisition aimed to join Danaher's Water Quality platform. This acquisition would assist in offering step-change value to our water utility customers.
Dec-2020: Evoqua Water Technologies took over Ultrapure & Industrial Services' industrial water business. This acquisition aimed to expand the service capabilities of Evoqua in the markets of Houston and Dallas and the regions.
Jul-2020: Danaher acquired Aquatic Informatics, a water data management software company. This acquisition aimed to integrate software, hardware, and services together to assist municipal, environmental, and industrial consumers save money, enhancing asset performance, and decreasing risk.
Geographical Expansions:
Jun-2022: Evoqua Water Technologies expanded its geographical footprint by opening a new manufacturing facility based in Singapore. This expansion aimed to grow innovative water treatment solutions in the region.
Apr-2022: HORIBA expanded its geographical footprint by establishing its new facility in Magdeburg-Barleben in Saxony-Anhal. This facility would meet the rising demand for the latest technologies in the fields of electromobility, new energy and process, and environmental engineering.
Dec-2021: HORIBA Precision Instruments expanded its global footprint by relocating its company building to an industrial park near the Beijing Capital International Airport. This relocation would expand the production area and enhance efficiency in an effort to set up a production system that would triple the capacity by 2025.
Mar-2021: Evoqua Water Technologies expanded its global footprint by opening the Global Engineering and Technology Center, located in Chennai, India. This expansion aimed to support Evoqua's growth and market development plans for the local region and the Asia-Pacific market.
Market Segments covered in the Report:
By Component
By Application
By Geography
Companies Profiled
Unique Offerings from KBV Research
List of Figures