Reviewing the Top Reasons South Korea is developing into a Smart Water Nation by Clearwater Management Korea
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Smart Water Metering
Smart meters are a major component of eco friendly home or building. Smart metering is required for the operation of the smart homes and buildings. The benefits of smart water metering have been recognized. A powerful approach for hour by hour monitoring and metering purposes in water networks is the automatic meter infrastructure AMI . Smart metering is now an established technology which can be applied to collect, store, and distribute real time data on water usage. This paper provides a brief introduction to the smart water metering. Matthew N. O. Sadiku | Adedamola A. Omotoso | Sarhan M. Musa "Smart Water Metering" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-6 , October 2019, URL: https://www.ijtsrd.com/papers/ijtsrd29223.pdf Paper URL: https://www.ijtsrd.com/engineering/electrical-engineering/29223/smart-water-metering/matthew-n-o-sadiku
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This document describes a proposed real-time water quality monitoring and management system using IoT technology. The system will monitor pH levels and total dissolved solids (TDS) in tap water using sensors connected to an Arduino board. It will provide users with information about water quality through a graphical interface. The system aims to help conserve water resources and limit usage. It will use low-cost hardware, including an Arduino Uno board, pH and TDS sensors, and an ESP8266 WiFi module for network connectivity. This will allow real-time monitoring of household water quality and management of water usage.
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This document presents a water supply measurement and management system based on IoT (Internet of Things) with water leakage detection. The system aims to efficiently measure, monitor, and manage water distribution through continuous monitoring and control via a central server. It comprises sensors like a water level sensor and flow sensor connected to an Arduino UNO and ESP8266 WiFi module. The sensors collect data on water levels and flow rates, which is sent to the cloud via WiFi for remote monitoring and detection of issues like overflow, overconsumption, and leakages. When a leakage is detected based on changes in flow rate readings, the location can be identified using a GPS module. This system addresses inefficiencies in existing water distribution systems and aims
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IoT is being used heavily in water management strategies to precisely measure water usage, protect resources, and improve convenience. Most nations lack effective water resource management, which causes water shortages that are projected to affect 50% of the world's population within 4 years. The IoT-integrated smart water management system uses sensors throughout pipelines to collect data on water supply, quality, and quantity in industrial and commercial settings as well as overhead tanks, and sends this data to cloud storage to effectively save water. IoT plays a crucial role in water management and conservation efforts by enabling automated monitoring and optimization of water usage.
AWA Water Journal PoV
1) Unprecedented population growth is placing demands on infrastructure like water systems, and Australia's population is expected to grow significantly by 2049 putting pressure on water resources.
2) Technological advances now allow us to create smarter infrastructure to address problems like optimizing water systems. IBM is working with clients around the world on smarter water infrastructure.
3) Australia faces water stress due to its aging water infrastructure, losses from leaks and irrigation, and climate change exacerbating these issues. Improved water management through smarter infrastructure optimization is needed to balance water usage and environmental responsibilities.
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Smart meters are a major component of eco friendly home or building. Smart metering is required for the operation of the smart homes and buildings. The benefits of smart water metering have been recognized. A powerful approach for hour by hour monitoring and metering purposes in water networks is the automatic meter infrastructure AMI . Smart metering is now an established technology which can be applied to collect, store, and distribute real time data on water usage. This paper provides a brief introduction to the smart water metering. Matthew N. O. Sadiku | Adedamola A. Omotoso | Sarhan M. Musa "Smart Water Metering" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-6 , October 2019, URL: https://www.ijtsrd.com/papers/ijtsrd29223.pdf Paper URL: https://www.ijtsrd.com/engineering/electrical-engineering/29223/smart-water-metering/matthew-n-o-sadiku
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Read more @ https://www.theinsightpartners.com/reports/smart-water-meters-market
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This document describes a proposed real-time water quality monitoring and management system using IoT technology. The system will monitor pH levels and total dissolved solids (TDS) in tap water using sensors connected to an Arduino board. It will provide users with information about water quality through a graphical interface. The system aims to help conserve water resources and limit usage. It will use low-cost hardware, including an Arduino Uno board, pH and TDS sensors, and an ESP8266 WiFi module for network connectivity. This will allow real-time monitoring of household water quality and management of water usage.
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This document presents a smart water monitoring and distribution system for apartments using IoT. The system addresses water wastage by measuring flow rates and scheduling water supply. It can monitor the quality and quantity of water distributed to households using pH and flow sensors. An Arduino board implements the system using sensors to continuously monitor water levels. The system aims to ensure water quality and reduce wastage using IoT technologies like sensors and cloud-based monitoring. It is intended for use in densely populated residential buildings to survey individual water usage and detect leaks or contamination issues.
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Effective Smart water management with IoT.pdf
IoT is being used heavily in water management strategies to precisely measure water usage, protect resources, and improve convenience. Most nations lack effective water resource management, which causes water shortages that are projected to affect 50% of the world's population within 4 years. The IoT-integrated smart water management system uses sensors throughout pipelines to collect data on water supply, quality, and quantity in industrial and commercial settings as well as overhead tanks, and sends this data to cloud storage to effectively save water. IoT plays a crucial role in water management and conservation efforts by enabling automated monitoring and optimization of water usage.
AWA Water Journal PoV
1) Unprecedented population growth is placing demands on infrastructure like water systems, and Australia's population is expected to grow significantly by 2049 putting pressure on water resources.
2) Technological advances now allow us to create smarter infrastructure to address problems like optimizing water systems. IBM is working with clients around the world on smarter water infrastructure.
3) Australia faces water stress due to its aging water infrastructure, losses from leaks and irrigation, and climate change exacerbating these issues. Improved water management through smarter infrastructure optimization is needed to balance water usage and environmental responsibilities.
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- Pilot studies in South Africa found that smart metering reduced unaccounted water by 7% in one area and detected excessive usage over free basic water allowances in another, representing potential cost savings or increased revenue.
- Monitoring individual households found smart meters could detect leaks and abnormal usage patterns, allowing targeted conservation efforts or service. Remote operation of valves also enables limiting or shutting off faulty connections.
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accepted the challenge by Rosa Richards to present about hashtag#IoT & hashtag#Blockchain in the context of hashtag#watermanagement and hashtag#smartwater.
None of the above solve water scarcity or water quality issues directly. Yet I connected the dots between hashtag#water hashtag#datamanagement & physical hashtag#assetmanagement.
I brought up several case studies including the one we discussed with Veolia (as promised) to potentially collaborate on: water quality, monitoring & of course my topic of hashtag#watertrading (offsetting hashtag#water & hashtag#environmental credits)
In the room I heard the overwhelming difficulties of hashtag#dataarchitecture and hashtag#datamanagement between different systems internally and externally (I was trying to explain and inform about upcoming such 2 years ago, brining the similar challenges from hashtag#supplychain and hashtag#fintech).
I hope we can change our attitude to water as the most important natural capital in all it’s shape of forms before the last glacier melts: hashtag#ocean
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KarIoT is a new way of managing your water and energy bills. Imagine no more water meters, inaccurate readings, and high energy bills. KarIoT can measure your water use and report wirelessly back to you every time it gets.
Smart Water, Smart Metering
WITH RAPID URBANIZATION and growing water scarcity from climate change, cities are being challenged to deliver water as efficiently as possible as well as balance rising demand with limited supplies. To manage limited water supplies efficiently, cities and their water utilities are turning to Information
and communication technologies (ICT). There are two beneficial
aspects of turning to ICT solutions to ensure the efficient
use of precious supplies. First, ICT can reduce water losses
in the system - non-revenue water - which is the difference
between what is pumped, treated, and supplied to the
distribution system compared to what reaches customers: in many cities around the world, non-revenue water can be up
to 20% or more of the total.
2014 Australasian Review of SM IWN_FINAL
The survey received responses from 49 organizations across Australia and New Zealand. Around 78% were actively pursuing smart metering or intelligent water network projects, with 55% currently rolling out projects or planning to within a year. Key drivers for projects included improving customer service, deferring required network upgrades through better planning, and reducing operating costs from manual meter reading. Project costs ranged significantly from $5,000 to over $9.5 million depending on the size and scope. Many projects were fully funded by utilities, with some receiving additional federal government funding. Reported actual costs generally matched initial projections for completed projects.
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This document proposes a smart water meter system using IoT technology to monitor household water consumption. The system uses a water flow sensor connected to a NodeMCU microcontroller to measure the flow rate and quantity of water used. The microcontroller sends this consumption data to the cloud where users can monitor their water usage. This allows charging households based on individual consumption rather than total usage, addressing issues with common meters. The proposed system aims to promote water conservation by providing visibility into water usage.
IRJET- Smart Water Meter Reading and Distribution
This document discusses a proposed smart water meter system that uses various sensors and an ESP32 microcontroller to monitor water usage. The system aims to address issues with common water meters where households are charged more than their actual usage. It would include sensors to measure water flow rate, temperature, pH and detect obstacles in pipes. The sensor data would be sent via WiFi to a cloud-based Android app for real-time monitoring and analysis of each household's water consumption. This could help minimize wastage from leaks or inefficient usage.
Automated Water Management and Distribution System using DTMF
Water shortage is a genuine issue in major cities. One of the foremost critical viewpoints of any town administration includes water management. It may be a pivotal perspective as nowadays water assets are exceptionally constrained and nobody can bear its wastage. This project deals with approximate mechanization within the water conveyance and administration with specialized advances. In this system, water volume will be detected by the water level sensor. As the water volume drops the motor is automatically turned on. The supply of water to diverse regions computerized through the utilize of DTMF. Different Solenoid valves are controlled by using the microcontroller for the conveyance of water. Motor speed is controlled with respect to tank water level. This extends deals around the versatile controlled water dispersion totally different zones and conveyance of water. Vinayak Badiger "Automated Water Management and Distribution System using DTMF" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-4 , June 2020, URL: https://www.ijtsrd.com/papers/ijtsrd31183.pdf Paper Url :https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/31183/automated-water-management-and-distribution-system-using-dtmf/vinayak-badiger
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Your monthly newsletter from Flowless, with exciting news and engaging events!
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This article reports on the project "Design and development of water and gas P.L. measurement devices in the housing: an approach to sustainable consumption in Mexico", prepared at the Metropolitan Autonomous University in the Department of the Environment, whose objective was to develop a device to measure water consumption in the housing, which allows users to know their spending and can make decisions in favor of efficiency through the reduction of water use in household activities. The meter is made up of open source, programmable or reconfigurable software, which receives the signal from a water flow sensor and a casing designed to contain the hardware and facilitate the user's installation. Both the hardware and the casing can be purchased, downloaded, manufactured and assembled at home (Do It Yourself). As specific results were obtained: hardware programming and housing design and as a final result: the assembly of the functional prototype with which measurements of water consumption were made in a housing in Mexico. With this work we conclude that through the development of new accessible and common measurement technologies for the users of a house, it will be possible to promote efficiency in the use of natural resources in cities, increasing availability and promoting a more sustainable urban development.
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- Smart water metering systems like AMR and AMI can automatically and remotely collect meter readings and transmit consumption data, reducing non-revenue water losses from leaks and inaccurate billing.
- Pilot studies in South Africa found that smart metering reduced unaccounted water by 7% in one area and detected excessive usage over free basic water allowances in another, representing potential cost savings or increased revenue.
- Monitoring individual households found smart meters could detect leaks and abnormal usage patterns, allowing targeted conservation efforts or service. Remote operation of valves also enables limiting or shutting off faulty connections.
IoT Based Remote Monitoring and Controlling for Shutter Systems
This document describes a proposed system for remote monitoring and controlling of dams using IoT technology. The system uses sensors like water level sensors, pH sensors, and rain sensors connected to an Arduino board to monitor parameters at the dam. The sensor data is sent to a Raspberry Pi controller which can automatically open and close floodgates based on the water level. This allows remote monitoring and control of the dam to manage water levels and flows. The system aims to reduce manual labor, costs, and improve monitoring quality compared to traditional systems. It also enables users to control and monitor dams remotely through an automated rather than manual system.
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Smart4Tech: I-water resource management. Era of smart cities.
accepted the challenge by Rosa Richards to present about hashtag#IoT & hashtag#Blockchain in the context of hashtag#watermanagement and hashtag#smartwater.
None of the above solve water scarcity or water quality issues directly. Yet I connected the dots between hashtag#water hashtag#datamanagement & physical hashtag#assetmanagement.
I brought up several case studies including the one we discussed with Veolia (as promised) to potentially collaborate on: water quality, monitoring & of course my topic of hashtag#watertrading (offsetting hashtag#water & hashtag#environmental credits)
In the room I heard the overwhelming difficulties of hashtag#dataarchitecture and hashtag#datamanagement between different systems internally and externally (I was trying to explain and inform about upcoming such 2 years ago, brining the similar challenges from hashtag#supplychain and hashtag#fintech).
I hope we can change our attitude to water as the most important natural capital in all it’s shape of forms before the last glacier melts: hashtag#ocean
5 Benefits to Avail from IoT Smart Water Meters
KarIoT is a new way of managing your water and energy bills. Imagine no more water meters, inaccurate readings, and high energy bills. KarIoT can measure your water use and report wirelessly back to you every time it gets.
Smart Water, Smart Metering
WITH RAPID URBANIZATION and growing water scarcity from climate change, cities are being challenged to deliver water as efficiently as possible as well as balance rising demand with limited supplies. To manage limited water supplies efficiently, cities and their water utilities are turning to Information
and communication technologies (ICT). There are two beneficial
aspects of turning to ICT solutions to ensure the efficient
use of precious supplies. First, ICT can reduce water losses
in the system - non-revenue water - which is the difference
between what is pumped, treated, and supplied to the
distribution system compared to what reaches customers: in many cities around the world, non-revenue water can be up
to 20% or more of the total.
2014 Australasian Review of SM IWN_FINAL
The survey received responses from 49 organizations across Australia and New Zealand. Around 78% were actively pursuing smart metering or intelligent water network projects, with 55% currently rolling out projects or planning to within a year. Key drivers for projects included improving customer service, deferring required network upgrades through better planning, and reducing operating costs from manual meter reading. Project costs ranged significantly from $5,000 to over $9.5 million depending on the size and scope. Many projects were fully funded by utilities, with some receiving additional federal government funding. Reported actual costs generally matched initial projections for completed projects.
IRJET- Smart Meter for Water Utilization using IoT
This document proposes a smart water meter system using IoT technology to monitor household water consumption. The system uses a water flow sensor connected to a NodeMCU microcontroller to measure the flow rate and quantity of water used. The microcontroller sends this consumption data to the cloud where users can monitor their water usage. This allows charging households based on individual consumption rather than total usage, addressing issues with common meters. The proposed system aims to promote water conservation by providing visibility into water usage.
IRJET- Smart Water Meter Reading and Distribution
This document discusses a proposed smart water meter system that uses various sensors and an ESP32 microcontroller to monitor water usage. The system aims to address issues with common water meters where households are charged more than their actual usage. It would include sensors to measure water flow rate, temperature, pH and detect obstacles in pipes. The sensor data would be sent via WiFi to a cloud-based Android app for real-time monitoring and analysis of each household's water consumption. This could help minimize wastage from leaks or inefficient usage.
Automated Water Management and Distribution System using DTMF
Water shortage is a genuine issue in major cities. One of the foremost critical viewpoints of any town administration includes water management. It may be a pivotal perspective as nowadays water assets are exceptionally constrained and nobody can bear its wastage. This project deals with approximate mechanization within the water conveyance and administration with specialized advances. In this system, water volume will be detected by the water level sensor. As the water volume drops the motor is automatically turned on. The supply of water to diverse regions computerized through the utilize of DTMF. Different Solenoid valves are controlled by using the microcontroller for the conveyance of water. Motor speed is controlled with respect to tank water level. This extends deals around the versatile controlled water dispersion totally different zones and conveyance of water. Vinayak Badiger "Automated Water Management and Distribution System using DTMF" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-4 , June 2020, URL: https://www.ijtsrd.com/papers/ijtsrd31183.pdf Paper Url :https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/31183/automated-water-management-and-distribution-system-using-dtmf/vinayak-badiger
Rounit Mathur , BCA Third Year
This is a work by the student of BCA Department student from Third Year studying at Dezyne E'cole College,Ajmer
Flowless Waves #2 April22
Your monthly newsletter from Flowless, with exciting news and engaging events!
The MENA Climate Week 2022 was held for the first time last week in Dubai. It is a platform for governments, stakeholders, and entrepreneurs to discuss and explore ways for mitigating climate change in the region.
Flowless participated in the discussion on "Integrated water security in MENA", where we looked into approaches to enhance water security in the MENA region through an integrated approach. We also discussed the role of emerging technologies in securing water for local communities and touched on the challenges faced in establishing trust and partnerships with the public sector.
Smart Rainwater Harvesting System
The document describes a proposed smart rainwater harvesting system that uses IoT sensors to monitor water quality and levels. The system would include sensors to measure pH, water level, and water flow that send data to the cloud. Water would be collected and filtered, with the filtered water stored in tanks for household use. Sensors in the tanks would monitor various water properties in real-time. This system aims to effectively manage rainwater resources to conserve water and ensure a reliable supply.
Waste Water Management for Smart City
In the recent years, the scarcity of water is one of the major important problems for human needs and other living things. In the existing has the inaccurate output. The advanced system overcomes the existing system. This system uses the automatically manages the waste water without waste. The system uses the Internet of things IoT for waste water management in smart cities. It also uses the sensors for sensing the waste water and also the data is transmitted to the mobile app or web application through IOT using cloud. The PH sensor is used to separate the water for the specified purpose like agriculture and other sources. This technology is used to remove the contamination from the waste water. Badusha. S | Gopikannan. S | Janarthanan. S | Gnanasekaran. S ""Waste Water Management for Smart City"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-2 , February 2020,
URL: https://www.ijtsrd.com/papers/ijtsrd30231.pdf
Paper Url : https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/30231/waste-water-management-for-smart-city/badusha-s
Modelling and managing urban water demand through smart meters: Benefits and ...
Presented @ AGU Fall Meeting 2015 - Awarded as Outstanding Student Presentation in the Hydrology Section
Development of an Open-Source Water Consumption Meter for Housing
This article reports on the project "Design and development of water and gas P.L. measurement devices in the housing: an approach to sustainable consumption in Mexico", prepared at the Metropolitan Autonomous University in the Department of the Environment, whose objective was to develop a device to measure water consumption in the housing, which allows users to know their spending and can make decisions in favor of efficiency through the reduction of water use in household activities. The meter is made up of open source, programmable or reconfigurable software, which receives the signal from a water flow sensor and a casing designed to contain the hardware and facilitate the user's installation. Both the hardware and the casing can be purchased, downloaded, manufactured and assembled at home (Do It Yourself). As specific results were obtained: hardware programming and housing design and as a final result: the assembly of the functional prototype with which measurements of water consumption were made in a housing in Mexico. With this work we conclude that through the development of new accessible and common measurement technologies for the users of a house, it will be possible to promote efficiency in the use of natural resources in cities, increasing availability and promoting a more sustainable urban development.
Development of an Open-Source Water Consumption Meter for Housing
This article reports on the project "Design and development of water and gas P.L. measurement devices in the housing: an approach to sustainable consumption in Mexico", prepared at the Metropolitan Autonomous University in the Department of the Environment, whose objective was to develop a device to measure water consumption in the housing, which allows users to know their spending and can make decisions in favor of efficiency through the reduction of water use in household activities. The meter is made up of open source, programmable or reconfigurable software, which receives the signal from a water flow sensor and a casing designed to contain the hardware and facilitate the user's installation. Both the hardware and the casing can be purchased, downloaded, manufactured and assembled at home (Do It Yourself). As specific results were obtained: hardware programming and housing design and as a final result: the assembly of the functional prototype with which measurements of water consumption were made in a housing in Mexico. With this work we conclude that through the development of new accessible and common measurement technologies for the users of a house, it will be possible to promote efficiency in the use of natural resources in cities, increasing availability and promoting a more sustainable urban development.
Smart City Opportunity in East & North-Eastern India
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WIPAC Monthly - February 2023.pdf
Welcome to the February 2023 edition of WIPAC Monthly, the magazine brought to you by Water Industry Process Automation & Control. In this month's edition we have three fascinating articles.
The first is an opinion piece and our feature article by Group Editor, Oliver Grievson, looking at some of the history of flow and quality monitoring within the water industry in the UK and what has been done already to monitor the environment and the impact of the wastewater industry on it.
In our second article we look at a case study from TaKaDU and how the implementation of their CEM system in the city of Medellin has helped to reduce leakage, increase operational efficiency and help with long-term asset planning.
In last article of the month we look at measuring aeration blowers and how it can be used to increase the operational efficiency of a wastewater treatment plant and limit the operational carbon in article by Tom Jenkins and John Conover.
Enjoy the latest edition and have a good month,
Oliver
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This document describes a system for digital water management and automatic bill generation. The system collects water consumption data from sensors connected to a microcontroller. It then transmits this data over the internet to a server where it is stored and analyzed. The system allows for live monitoring of water usage and generates accurate bills for each flat. It also has features like leakage detection and open tap detection to promote water conservation. The system is designed to address issues with traditional water metering and billing like lack of live monitoring, limited number of sensors, and inability to detect issues or generate detailed bills.
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- 1. Reviewing the Top Reasons South Korea is developing into a Smart Water Nation by Clearwater Management Korea Why must you look into the different types of long sleeve shirts As more nations emphasize creating secure water supplies with firms like Clearwater Management Korea , 2022 is a great year for water innovation. Three of the ten Smart Water Management (SWM) businesses mentioned in a recent International Water Resources Association (IWRA) study are based in South Korea. Electronic dynamo the smart water from South Korea, which is famous clear water management Korea for the businesses LG and Samsung, is presently generating headlines. The nation trusted the public water supply and cleverly water meters to meet rising use.
- 2. Why must you look into the different types of long sleeve shirts As more nations emphasize creating secure water supplies with Clearwater Management Korea, 2022 is a great year for water innovation. Three of the ten Smart Water Management (SWM) businesses mentioned in a recent International Water Resources Association (IWRA) study are based in South Korea. The figures speak for themselves: in Smart City, tap water usage climbed significantly over three years, rising from 1% to 36.3%. Smart City utilized real-time sensors, ICT, and ground worker participation. K-water reports that the SWC idea has increased public trust in the quality of drinking water.
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