Techport is an end-to end latest solutions provider for remote monitoring applications.We offer the most comprehensive set of chemical and equipment solutions and services available, helping our customers manage and optimize their water resources and process challenges across industries and municipalities.
Water and wastewater distribution networks are an essential part of the water cycle and a major tool in the preservation of water resources. A smart water network is an integrated set of solutions that enable utilities to remotely and continuously monitor the network, manage maintenance issues and use data to optimise all aspects of the water distribution network. Find out more at http://www.degremont.com.au/municipal/solutions/networks/
Techport is an end-to end latest solutions provider for remote monitoring applications.We offer the most comprehensive set of chemical and equipment solutions and services available, helping our customers manage and optimize their water resources and process challenges across industries and municipalities.
Water and wastewater distribution networks are an essential part of the water cycle and a major tool in the preservation of water resources. A smart water network is an integrated set of solutions that enable utilities to remotely and continuously monitor the network, manage maintenance issues and use data to optimise all aspects of the water distribution network. Find out more at http://www.degremont.com.au/municipal/solutions/networks/
Extending the Aquarius Data Acquisition, Analysis & Notification SystemsHatfield Consultants
On October 6, 2015, Hatfield's EIS Manager presented "Extending the Aquarius Data Acquisition, Analysis & Notification Systems" at the Aquarius Insider Event
An overview of ICTs as a strategic instrument in Smart Water Management, this deck acts as a catalyst for further discussion and future successful implementation of SWM initiatives in India
You and your customers expect peak performance every day year-round from your HVAC, hydronic chilled/hot water applications and irrigation systems. Optimizing these systems to meet ever changing requirements and tenant demands can be time consuming and costly.
Smart Real-time Control of Water SystemsStephen Flood
Smart Real-time Control of Water Systems
Henrik Madsen(1), Peter Steen Mikkelsen(2), Lasse Engbo Christiansen(3), Anne Katrine Falk(1), Morten Borup(2), Rune Juhl(3), Nadia Schou Vorndran Lund(2), Rasmus Halvgaard(1), Nina Donna Sto. Domingo(1), Lisbeth Birch Pedersen(1), Stephen J. Flood(1) & Lene Bassøe(4)
(1)DHI, Agern Alle 5, 2970 Hørsholm, DK
(2)DTU Environment, Bygning 115, , 2800 Kongens Lyngby, DK
(3)DTU Compute, Bygning 324, 2800 Kongens Lyngby, DK
(4)Aarhus Water, Bautavej 1, 8210 Aarhus V, DK
Delivered at: Urban Drainage Group Autumn Conference and Exhibition 2016, Blackpool, UK, November 9th–11th 2016
Presenter: Dr. Lisbeth Birch Pedersen (Product Owner, MIKE Powered by DHI)
Keywords: smart water, smart cities, urban drainage, climate change, surrogate modelling, weather radar, frameworks
Cities across the world are facing significant water system challenges related to urbanisation and climate change. To advance the concept of integrated real-time control of water systems, an innovative generalised technology framework has been developed as part of a collaborative research effort. The framework facilitates the global acceptance and improved implementation of smart real-time control of water systems which offers a proven, cost effective alternative to the conventional approach of increasing system capacity.
The core of the framework is a generalised data platform which can be used within all water domains. This platform integrates time series data and spatial data with numerical models, and offers a broad suite of generalised tools for data processing and reporting. Data tools can be executed as automated workflows that replace tedious and error prone manual tasks. A key element of the work is the development of fast and accurate surrogate models of complex physical systems, complementing standard deterministic high-fidelity models adapted to observations in real time in order to ensure efficiency and performance of the automated model predictive control algorithms. A second element is the utilisation of local area weather radar data, since distributed rainfall observations and accurate forecasts are essential for optimising the use of the system capacity.
This work focuses on the impacts of using the new smart real-time control of water systems framework on a full scale, real world example using the urban drainage system of the city of Aarhus, Denmark as a testbed.
Real Time Water Quality Monitoring and Alert Systems, Applications using OPEX...RekaNext Capital
In complex engineering business, it is useful to consider a OPEX model rather than a CAPEX model. This is to protect the customer from complex technology risks, changing technologies. Customer pays for successful delivery of services rather than buying equipment.
Smart Water Meter System for Detecting Sudden Water LeakageAneekBanerjee4
This article deals with a proposal of a smart water meter for monitoring water consumption and for accidental leakage detection. The hardware part of the smart water meter consists of a mini-computer and a pulse water meter. Application logic is then in the hands of the original software that evaluates water consumption patterns. If a water leak is detected, the smart water meter uses a ball valve to close the inlet. The meter also has a self-learning mode that can recommend set limits within the reference period. A separate application interface is designed for communication between the meter and the user .Various computer simulations were used to test and initiate different water consumption scenarios.
Enforcing vehicle speed limits is vital in lowering
road accident rates and improving road safety.
LIDAR (Light Detection and Ranging) cinemometer
technology has shown to be more accurate than
radar-based Doppler systems because it can
measure at farther distances, resulting in more
readings possible with the vehicle in the beam
detection area longer. This paper summarizes
LIDAR cinemometer methodology and describes
the primary advantages of these systems
compared to those applying conventional Doppler
Effect-based technologies.
Implementation of sequential design based water level monitoring and controll...IJECEIAES
In currently decades, water usage either for domestic or commercial purposes is facing critical conditions which negatively affects the sustainability of our environment. From this point of view, reducing water consumptions will participate in the solution of water saving. Monitoring and controlling the tank water level are important functions which effect and work on reduction of water consumption. Many studies in literature focus on proposing a high performance water level monitoring and controlling systems based on either computerized units or microcontroller units. However these systems are characterized by complexity and high cost. In this paper, a highly flexible implemented electronic system is introduced based on sequential design by using general purpose discrete components. The proposed system present simple design of water level sensing stage, in addition, this paper showing full design, simulation, and implementation steps of an automation system which is able to control switching the state of the water pump in accordance to the current level of water in the tank.
[Oil & Gas White Paper] Liquids Pipeline Leak Detection and Simulation TrainingSchneider Electric
Increasingly, pipeline operating companies must deal with regulations that focus on environmental protection. The goal of the regulations is to minimize pipeline leaks that not only endanger the environment but also result in operator downtime and financial penalties. Identifying, verifying and responding to the abnormal conditions around a potential leak require best practices, including controller training.
A computational pipeline monitoring (CPM) system uses real-time information from the field – such as pressure, temperature, viscosity, density, flow rate, product sonic velocity and product interface locations – to estimate the hydraulic behavior of the product being transported and create a computerized simulation. With it, controllers can be alerted to actual operating conditions that are not consistent with the calculated conditions and might signal the existence of a pipeline leak. Different CPM methodologies provide different leak detection capabilities, so different methods, or a combination of methods, might be better applied to different operations.
A comprehensive CPM system also supports training best practices that help engineers and controllers develop intimate knowledge of the control system interface, alarming functions and response actions. It is an efficient way to implement refresher training to cover network modifications and expansions and to accurately document training, testing results and qualifications. Computerized simulation has demonstrated to provide more comprehensive and effective training for a specific pipeline than on-the-job training. For this reason, it is the preferred method of the U.S. Department of Transportation’s Pipeline Hazardous Materials Safety Association (DOT-PHMSA) for training controllers to recognize the abnormal conditions that might suggest a leak and to optimize the safety of the pipeline operation.
Schneider Electric’s SimSuite Pipeline solution is based on a real-time transient model that includes leak detection capabilities, crucial to safety and environmental concerns; a simulation trainer application for targeted and effective training of operational staff; and forecasting and planning functionalities that help improve business intelligence. Together, these capabilities help the pipeline operator reduce operations cost as well as comply with regulations.
Smart Integrated Infrastructure and Controlling Water LossBlack & Veatch
The tools of Smart Integrated Infrastructure (SII), including data integration and analytics, can help water and wastewater utilities address the complex issue of water loss, from leakage to metering and billing, and to system-wide economics.
Taking an SII approach can help organizations:
• Regain revenue
• Increase productivity
• Improve asset management
The presenters are two Black & Veatch professionals at the forefront of SII. Andrew Chastain-Howley, a management consulting director with Black & Veatch, has worked with government agencies and private entities in North America, the Middle East, Europe and Australia, applying data visualization and analysis to address their water loss issues. Jeff Neemann, director of Black & Veatch’s water treatment technology team and lead of the company’s SII solutions, works with utilities to help them extract value from their data and leverage it for improved operations and planning. Learn more at www.bv.com
A PRECISION AGRICULTURE DSS BASED ON SENSOR THRESHOLD MANAGEMENT FOR IRRIGATI...sipij
In this paper is analyzed a case study of an industry project concerning irrigation decision support system (DSS) suitable for precision agriculture applications. In particular, a first prototype irrigation module has been developed by testing different components. The prototypal system concerns the irrigation management by reading field and weather values and, by enabling electrovalves through cloud control. A web panel will
monitor in real time all sensors data, besides the DSS will activate or disactivate the irrigation pipelines. The irrigation decision is performed by comparing the measurements with pre-set threshold limits of sensor values and by analyzing predicted weather data. The paper describes in details the network design and implementation by discussing the sequence diagram describing the DSS data flow. Finally is proposed the DSS algorithm by discussing the DSS logic and its first implementation. The proposed DSS behaves as an
engine processing simultaneously multiple parameters. The goal of the paper is to prove how potentially a microcontroller can perform a DSS which can be customized for different cultivations.
The information and control system allows both software and hardware to establish a connection with each other despite
varied sources. It offers you get a quick insight into the objects' function and also enables users to monitor an endless
number of installations irrespective of the demographic location in real time. In this manner, a laptop, smartphone, or PC
allows performing the entire task in the most convenient manner.
Remote Monitoring & Control system in India has resolved the issue to a large extent. It empowers total, computerized
checking by specialists at a central area just as manual changes by procedure ventures at explicit
destinations by nearby local organizations as required. The system enables operators to accelerate, back off, or generally
change a particular part of the procedure as distinguished by the refined central monitoring system.
The functions of the pumping station in case of remote process monitoring of the water supply system have resolved
many issues at a considerable rate. Today, data transmission is dependent on the web application. The configuration is
developed depending on the Microsoft tools and a set of pre-de-ned web services. This empowers steady and solid
information transmission from the pumping station to the dispatch center along with the signal commands from the
middle to the local control unit. The framework gives the administrator in the dispatch center the perception of control
of ces with the graphical and unthinkable introduction of pertinent qualities and parameters. The operator can screen the
usefulness of the whole structure on the SCADA Base Remote Monitoring screen, and alert reports help with finding
issues, which adds to a huge increment in upkeep effectiveness. The association between the dispatch center and
pumping station is built up with remote information transmission utilizing cell phone administrators.
Extending the Aquarius Data Acquisition, Analysis & Notification SystemsHatfield Consultants
On October 6, 2015, Hatfield's EIS Manager presented "Extending the Aquarius Data Acquisition, Analysis & Notification Systems" at the Aquarius Insider Event
An overview of ICTs as a strategic instrument in Smart Water Management, this deck acts as a catalyst for further discussion and future successful implementation of SWM initiatives in India
You and your customers expect peak performance every day year-round from your HVAC, hydronic chilled/hot water applications and irrigation systems. Optimizing these systems to meet ever changing requirements and tenant demands can be time consuming and costly.
Smart Real-time Control of Water SystemsStephen Flood
Smart Real-time Control of Water Systems
Henrik Madsen(1), Peter Steen Mikkelsen(2), Lasse Engbo Christiansen(3), Anne Katrine Falk(1), Morten Borup(2), Rune Juhl(3), Nadia Schou Vorndran Lund(2), Rasmus Halvgaard(1), Nina Donna Sto. Domingo(1), Lisbeth Birch Pedersen(1), Stephen J. Flood(1) & Lene Bassøe(4)
(1)DHI, Agern Alle 5, 2970 Hørsholm, DK
(2)DTU Environment, Bygning 115, , 2800 Kongens Lyngby, DK
(3)DTU Compute, Bygning 324, 2800 Kongens Lyngby, DK
(4)Aarhus Water, Bautavej 1, 8210 Aarhus V, DK
Delivered at: Urban Drainage Group Autumn Conference and Exhibition 2016, Blackpool, UK, November 9th–11th 2016
Presenter: Dr. Lisbeth Birch Pedersen (Product Owner, MIKE Powered by DHI)
Keywords: smart water, smart cities, urban drainage, climate change, surrogate modelling, weather radar, frameworks
Cities across the world are facing significant water system challenges related to urbanisation and climate change. To advance the concept of integrated real-time control of water systems, an innovative generalised technology framework has been developed as part of a collaborative research effort. The framework facilitates the global acceptance and improved implementation of smart real-time control of water systems which offers a proven, cost effective alternative to the conventional approach of increasing system capacity.
The core of the framework is a generalised data platform which can be used within all water domains. This platform integrates time series data and spatial data with numerical models, and offers a broad suite of generalised tools for data processing and reporting. Data tools can be executed as automated workflows that replace tedious and error prone manual tasks. A key element of the work is the development of fast and accurate surrogate models of complex physical systems, complementing standard deterministic high-fidelity models adapted to observations in real time in order to ensure efficiency and performance of the automated model predictive control algorithms. A second element is the utilisation of local area weather radar data, since distributed rainfall observations and accurate forecasts are essential for optimising the use of the system capacity.
This work focuses on the impacts of using the new smart real-time control of water systems framework on a full scale, real world example using the urban drainage system of the city of Aarhus, Denmark as a testbed.
Real Time Water Quality Monitoring and Alert Systems, Applications using OPEX...RekaNext Capital
In complex engineering business, it is useful to consider a OPEX model rather than a CAPEX model. This is to protect the customer from complex technology risks, changing technologies. Customer pays for successful delivery of services rather than buying equipment.
Smart Water Meter System for Detecting Sudden Water LeakageAneekBanerjee4
This article deals with a proposal of a smart water meter for monitoring water consumption and for accidental leakage detection. The hardware part of the smart water meter consists of a mini-computer and a pulse water meter. Application logic is then in the hands of the original software that evaluates water consumption patterns. If a water leak is detected, the smart water meter uses a ball valve to close the inlet. The meter also has a self-learning mode that can recommend set limits within the reference period. A separate application interface is designed for communication between the meter and the user .Various computer simulations were used to test and initiate different water consumption scenarios.
Enforcing vehicle speed limits is vital in lowering
road accident rates and improving road safety.
LIDAR (Light Detection and Ranging) cinemometer
technology has shown to be more accurate than
radar-based Doppler systems because it can
measure at farther distances, resulting in more
readings possible with the vehicle in the beam
detection area longer. This paper summarizes
LIDAR cinemometer methodology and describes
the primary advantages of these systems
compared to those applying conventional Doppler
Effect-based technologies.
Implementation of sequential design based water level monitoring and controll...IJECEIAES
In currently decades, water usage either for domestic or commercial purposes is facing critical conditions which negatively affects the sustainability of our environment. From this point of view, reducing water consumptions will participate in the solution of water saving. Monitoring and controlling the tank water level are important functions which effect and work on reduction of water consumption. Many studies in literature focus on proposing a high performance water level monitoring and controlling systems based on either computerized units or microcontroller units. However these systems are characterized by complexity and high cost. In this paper, a highly flexible implemented electronic system is introduced based on sequential design by using general purpose discrete components. The proposed system present simple design of water level sensing stage, in addition, this paper showing full design, simulation, and implementation steps of an automation system which is able to control switching the state of the water pump in accordance to the current level of water in the tank.
[Oil & Gas White Paper] Liquids Pipeline Leak Detection and Simulation TrainingSchneider Electric
Increasingly, pipeline operating companies must deal with regulations that focus on environmental protection. The goal of the regulations is to minimize pipeline leaks that not only endanger the environment but also result in operator downtime and financial penalties. Identifying, verifying and responding to the abnormal conditions around a potential leak require best practices, including controller training.
A computational pipeline monitoring (CPM) system uses real-time information from the field – such as pressure, temperature, viscosity, density, flow rate, product sonic velocity and product interface locations – to estimate the hydraulic behavior of the product being transported and create a computerized simulation. With it, controllers can be alerted to actual operating conditions that are not consistent with the calculated conditions and might signal the existence of a pipeline leak. Different CPM methodologies provide different leak detection capabilities, so different methods, or a combination of methods, might be better applied to different operations.
A comprehensive CPM system also supports training best practices that help engineers and controllers develop intimate knowledge of the control system interface, alarming functions and response actions. It is an efficient way to implement refresher training to cover network modifications and expansions and to accurately document training, testing results and qualifications. Computerized simulation has demonstrated to provide more comprehensive and effective training for a specific pipeline than on-the-job training. For this reason, it is the preferred method of the U.S. Department of Transportation’s Pipeline Hazardous Materials Safety Association (DOT-PHMSA) for training controllers to recognize the abnormal conditions that might suggest a leak and to optimize the safety of the pipeline operation.
Schneider Electric’s SimSuite Pipeline solution is based on a real-time transient model that includes leak detection capabilities, crucial to safety and environmental concerns; a simulation trainer application for targeted and effective training of operational staff; and forecasting and planning functionalities that help improve business intelligence. Together, these capabilities help the pipeline operator reduce operations cost as well as comply with regulations.
Smart Integrated Infrastructure and Controlling Water LossBlack & Veatch
The tools of Smart Integrated Infrastructure (SII), including data integration and analytics, can help water and wastewater utilities address the complex issue of water loss, from leakage to metering and billing, and to system-wide economics.
Taking an SII approach can help organizations:
• Regain revenue
• Increase productivity
• Improve asset management
The presenters are two Black & Veatch professionals at the forefront of SII. Andrew Chastain-Howley, a management consulting director with Black & Veatch, has worked with government agencies and private entities in North America, the Middle East, Europe and Australia, applying data visualization and analysis to address their water loss issues. Jeff Neemann, director of Black & Veatch’s water treatment technology team and lead of the company’s SII solutions, works with utilities to help them extract value from their data and leverage it for improved operations and planning. Learn more at www.bv.com
A PRECISION AGRICULTURE DSS BASED ON SENSOR THRESHOLD MANAGEMENT FOR IRRIGATI...sipij
In this paper is analyzed a case study of an industry project concerning irrigation decision support system (DSS) suitable for precision agriculture applications. In particular, a first prototype irrigation module has been developed by testing different components. The prototypal system concerns the irrigation management by reading field and weather values and, by enabling electrovalves through cloud control. A web panel will
monitor in real time all sensors data, besides the DSS will activate or disactivate the irrigation pipelines. The irrigation decision is performed by comparing the measurements with pre-set threshold limits of sensor values and by analyzing predicted weather data. The paper describes in details the network design and implementation by discussing the sequence diagram describing the DSS data flow. Finally is proposed the DSS algorithm by discussing the DSS logic and its first implementation. The proposed DSS behaves as an
engine processing simultaneously multiple parameters. The goal of the paper is to prove how potentially a microcontroller can perform a DSS which can be customized for different cultivations.
The information and control system allows both software and hardware to establish a connection with each other despite
varied sources. It offers you get a quick insight into the objects' function and also enables users to monitor an endless
number of installations irrespective of the demographic location in real time. In this manner, a laptop, smartphone, or PC
allows performing the entire task in the most convenient manner.
Remote Monitoring & Control system in India has resolved the issue to a large extent. It empowers total, computerized
checking by specialists at a central area just as manual changes by procedure ventures at explicit
destinations by nearby local organizations as required. The system enables operators to accelerate, back off, or generally
change a particular part of the procedure as distinguished by the refined central monitoring system.
The functions of the pumping station in case of remote process monitoring of the water supply system have resolved
many issues at a considerable rate. Today, data transmission is dependent on the web application. The configuration is
developed depending on the Microsoft tools and a set of pre-de-ned web services. This empowers steady and solid
information transmission from the pumping station to the dispatch center along with the signal commands from the
middle to the local control unit. The framework gives the administrator in the dispatch center the perception of control
of ces with the graphical and unthinkable introduction of pertinent qualities and parameters. The operator can screen the
usefulness of the whole structure on the SCADA Base Remote Monitoring screen, and alert reports help with finding
issues, which adds to a huge increment in upkeep effectiveness. The association between the dispatch center and
pumping station is built up with remote information transmission utilizing cell phone administrators.
DSD-NL 2021 WaterCoach, here and in Australia - WangDeltares
Presentatie door Steve Wang (Seqwater), op de Delft-FEWS NL Gebruikersdag 2021 - deel 2, tijdens de Deltares Software Dagen - Editie 2021. Dinsdag, 22 juni 2021, Delft.
Presentation of Inetrproject for Water treatment sectors, Interproject is the member of Association of Industrial Automation in Ukraine, they have big experience in Waste Water sectors. This presentation is an overview of their solutions and references for mentioned sectors.
System-wide monitoring, planning &
optimisation for reliable and cost efficient
operation of the power system
Time scale: seconds to hours.System-wide monitoring, planning &
optimisation for reliable and cost efficient
operation of the power system
Time scale: seconds to hours.
goodXense sensor framework for smart citygoodXense
This is a talk we had given at Smart City Conference & Expo 2015 in Santa Clara, CA on May 30, 2015. Water and bridge monitoring examples lead to discussion about our framework to integrate smart sensors, human users, and other information systems. More details at http://www.goodxense.com/blog/post/our-presentation-at-smart-city-conference-expo-2015.
History of best Policies for World-Class Arisusimrc
Healthy and tasty water, Arisu, is loved by all citizens of Seoul!We produce the best-quality tap water through rigorous water quality control systems.We supply safe water in state-of-the-art water distribution settings. We ensure health and taste with advanced purification facilities. Finally, we provide the highest-quality service to our citizens.
Introduced to protect the citizens from various crimes or disasters that can occur anytime, anywhere.
Implemented to correct the difficulties in collecting and using image information in accident and crime.
investigation, due to the separate CCTV operation of the departments of each district office.
Installation of CCTV in crime prone and vulnerable areas with a CCTV Integrated Control Center in each.
district will provide 24/7/365 real-time monitoring.
The rapid response system has been built to allow departments, such as the fire brigade and police, to
use real-time video in the integrated control center in each district to respond to various accidents and incidents.
after payment from client to original contractor is made, payment to the sub-contractor and/or construction/material/equipment/
workers is either late or less, which is an unfair practice in the construction industry. The Seoul Payment Monitoring System has
been introduced to improve these practices and foster a fair contract culture.
+ In order to protect the vulnerable members of the society, by guiding the original contractors, sub-contractors, construction/material/
equipment/workers, a fair contract in the construction owned by Seoul, Payment Monitoring System was built
+ By linking Seoul and financial institutions, sub-contractor claims are to be paid exactly as promised. Payment date and amount can
be checked through the Seoul Payment Monitoring System, which supports fair trade
For citizens’ comments or policy suggestions to be made, after making a suggestion through visiting responsible
departments directly, by letter or website, there would be a wait of more than a month for basic notification.
‘Oasis of 10 Million Imagination’ has been introduced to solve the inefficiencies and to open information
policy progress.
This session provides a comprehensive overview of the latest updates to the Uniform Administrative Requirements, Cost Principles, and Audit Requirements for Federal Awards (commonly known as the Uniform Guidance) outlined in the 2 CFR 200.
With a focus on the 2024 revisions issued by the Office of Management and Budget (OMB), participants will gain insight into the key changes affecting federal grant recipients. The session will delve into critical regulatory updates, providing attendees with the knowledge and tools necessary to navigate and comply with the evolving landscape of federal grant management.
Learning Objectives:
- Understand the rationale behind the 2024 updates to the Uniform Guidance outlined in 2 CFR 200, and their implications for federal grant recipients.
- Identify the key changes and revisions introduced by the Office of Management and Budget (OMB) in the 2024 edition of 2 CFR 200.
- Gain proficiency in applying the updated regulations to ensure compliance with federal grant requirements and avoid potential audit findings.
- Develop strategies for effectively implementing the new guidelines within the grant management processes of their respective organizations, fostering efficiency and accountability in federal grant administration.
Jennifer Schaus and Associates hosts a complimentary webinar series on The FAR in 2024. Join the webinars on Wednesdays and Fridays at noon, eastern.
Recordings are on YouTube and the company website.
https://www.youtube.com/@jenniferschaus/videos
Monitoring Health for the SDGs - Global Health Statistics 2024 - WHOChristina Parmionova
The 2024 World Health Statistics edition reviews more than 50 health-related indicators from the Sustainable Development Goals and WHO’s Thirteenth General Programme of Work. It also highlights the findings from the Global health estimates 2021, notably the impact of the COVID-19 pandemic on life expectancy and healthy life expectancy.
Donate to charity during this holiday seasonSERUDS INDIA
For people who have money and are philanthropic, there are infinite opportunities to gift a needy person or child a Merry Christmas. Even if you are living on a shoestring budget, you will be surprised at how much you can do.
Donate Us
https://serudsindia.org/how-to-donate-to-charity-during-this-holiday-season/
#charityforchildren, #donateforchildren, #donateclothesforchildren, #donatebooksforchildren, #donatetoysforchildren, #sponsorforchildren, #sponsorclothesforchildren, #sponsorbooksforchildren, #sponsortoysforchildren, #seruds, #kurnool
Preliminary findings _OECD field visits to ten regions in the TSI EU mining r...OECDregions
Preliminary findings from OECD field visits for the project: Enhancing EU Mining Regional Ecosystems to Support the Green Transition and Secure Mineral Raw Materials Supply.
Jennifer Schaus and Associates hosts a complimentary webinar series on The FAR in 2024. Join the webinars on Wednesdays and Fridays at noon, eastern.
Recordings are on YouTube and the company website.
https://www.youtube.com/@jenniferschaus/videos
ZGB - The Role of Generative AI in Government transformation.pdfSaeed Al Dhaheri
This keynote was presented during the the 7th edition of the UAE Hackathon 2024. It highlights the role of AI and Generative AI in addressing government transformation to achieve zero government bureaucracy
Jennifer Schaus and Associates hosts a complimentary webinar series on The FAR in 2024. Join the webinars on Wednesdays and Fridays at noon, eastern.
Recordings are on YouTube and the company website.
https://www.youtube.com/@jenniferschaus/videos
Presentation by Jared Jageler, David Adler, Noelia Duchovny, and Evan Herrnstadt, analysts in CBO’s Microeconomic Studies and Health Analysis Divisions, at the Association of Environmental and Resource Economists Summer Conference.
Effects of Extreme Temperatures From Climate Change on the Medicare Populatio...
The ARISU Integrated Information Center
1. Welcome to the ARISU Integrated Information Center! ARISU integrated information system
■Equipment (Unit : ea)
•2008. 10 Production of working design for construction of the water operation center
•2009. 6 LaunchofconstructionoftheARISUIntegratedInformationCenterandsystem
•2011. 12 Completion of the nation’s first high-tech smart water grid system
Production
management
system
DMA management Scenario based
Water networks
overall database
•Flow rate pressure
monitoring
•Pipe leakage analysis
•Unusual supply influx
analysis
•Pipe deterioration
•Based on real-time
reservoir level,
residual chlorine conc.
by SCADA system
•System revision by
monitored data
•Simulation of burst
pipe and water cut-
off scenarios
• Estimation of
restoration time after
accident
• Tracking the route of
pollutants
• DMA information
• Pipe network information
•Waterdemand information
• Affordable water bill
information
• Waterworks pipe
network GIS data
• Connection with DB
Equipment
name
6
·Server 35
·Web camera 15
·Speakerphone 15
·DVR 20
·Firewall 19
·Router 15
·DSU 15
·HUB 2
·WS 26
·Printer 3
·UPS 1
·67’ DLP cube 18
·Integration controller
·Wall controller and
two more items of
equipment
Type Server
CCTV VIDEO
conference
Communications
equipment
Operation
equipment
Centralized control
system
The ARISU integrated information system is designed
to enable rapid decision-making based on the integration, monitoring and analysis of all operational data generated by all
unit processes, ranging from water intake to water supply, in order to supply clean, fresh, potable water to Seoul citizens.
※ Smart Water Grid
1. The next-generation water management system uses the latest information communication technology to improve
the management efficiency of water resources and water and sewage.
2. The water industry platform is designed to produce tap water and optimize its supply, by taking into account real-
time water demand, using supply and meteorological information.
This system is used to plan the operational schedule of the intake pump in order
to reduce electricity costs and to plan a reasonable production schedule for the
purification centers according to systematic predictions of demand based on
meteorological data and history data.
Supply
management
system
The water supply system is designed to facilitate a rapid response to emergency situations and prepare
for pipe network accidents and water leakages, based on the analysis of pipe deterioration and flow
rate, while minimizing public complaints about such problems as dead water or poor water supply,
based on the analysis of pipe network information and influx/pressure and water quality information.
TheARISUIntegratedInformationCenteriscommittedto...
•Establishing efficient central monitoring and control based on the
construction and operation of a high-tech smart information system
•Executing centrally-based operations ranging from the production to
the supply of clean potable tap water
•Maximizing water consumers’ satisfaction and providing a customized
tour environment for visitors
Production management system Remotemonitoringsystem
Supply
management
system
Flux
monitoring
GIS/water
bills
Waterquality/
WaterNow
Meteorological
administration
Smart Water Grid
(operation and management of waterworks with IT)
Integration
DB
ARISU Integrated
Information System
•Calculation of the required amount of water
consumption according to consumption estimations
on every 2nd and 15th day of the month
Water demand forecasting
in the short and long term
• Analysis of the distribution pattern based on
weather data and history data
Simulation of distribution pattern
• Control of Intake and supply water flow rate
based on inflow rate on distribution reservoir
Efficient water distribution
• Control of water level according to hourly
variations in water discharge
Reservoir operation
• Planning of pump operation schedule based on
hourly supply of water and number of pumps
Efficient pump operation
• Correction of water demand by considering
the amount of special water
Verification and Correction
Remote
monitoringof
eachofficeof
waterworks
Online pipe
network analysis
■Location : 1st Floor, Office of Waterworks, 51 Seosomun-ro (27-1 Hap-dong), Seodaemun-gu, Seoul ※ DMA : District Metered Area
Rapid
decision
making
Decisions on
reconstruction
priority
Detection
of unusual
water flows,
etc.
2. The Office of Waterworks,
Seoul Metropolitan Government
(http://arisu.seoul.go.kr)
아리
水
Public Access to Hi-tech
Integrated Information Center
Open to the public and
citizen analysts
Water supply cessation
message sending service
Provision of SMS in the event of
cessation of water supply
Connection with
DASAN call center
Provision of accident information
via the Seoul Call Center
Disclosure of real-time
water quality information
Disclosure of water quality
information via the ARISU website,
mobile and outdoor displays
Video conference
Discussion of center and
each office of waterworks
Reinforcement of
dual security
Dual monitoring for enhanced plant
and reservoir security
•Integrationofoperational
data
•Fundamentalconstruction
ofwaterproductionand
supply
•Monitoringofoverallwater
networkstatus
•Realizationofdataforpipe
networkanalysis
•Enhancementofwater
treatmentprocess
•Optimizationofsystemwith
operationaldatahistory
•Constructionofdata
warehouse
•Supportforoperator’s
decisionmaking
•Constructionofanexpert
system
The remote monitoring system is designed to monitor remotely all
operational information and image data from six purification centers and eight waterworks offices and to control
production management and supply management, which are based on remote monitoring data.
System
Enhancement
Step 2
(~by 2015)
Decision-
making
System
Step 3
(~by 2020)
System
Infrastructure
Step 1
(present)
Settlement of ARISU integrated information system is for…
Future Plan
•Accident response ability become enhanced by whole central controlling
system with replacing water supply and transferring of water network
•Improvement of work process efficiency with automated integration of
information everyday by developed system
•Reduction of manpower about 20~30% by remote monitoring system
because of locating only emergency response personnel on purification cite
•Decision making by not experts’ experience but judgment of scientific data
•Expectedly bringing down the cost about 2.5 million a year with reduction
of production cost, electricity cost and greenhouse gases
We aim to provide the best and most improved service to Seoul citizens.Service for Citizens
Remote monitoring system
ARISU
Integrated Management Center
(아리수통합정보센터)
강서구
양천구
구로구
금천구
영등포구
동작구
관악구
서초구
강남구 송파구
강동구
중랑구
광진구
용산구
중구
서대문구
은평구
성북구
동대문구
성동구
마포구
Gangdong Office of
Waterworks
Gangdong Office of
Waterworks
Gangnam Office of
Waterworks
Gangnam Office of
Waterworks
Guui Water
Purification Center
Guui Water
Purification Center
Ttukdo Water
Purification Center
Ttukdo Water
Purification Center
Receiving well
Coagulation basin
Mixing basin
Sedimentation basin
Filter basin
Purification basin
Purification CenterPurification Center
Pressure pumping
station
Distribution reservoir
Pump
Office of WaterworksOffice of WaterworksDongbu Office of
Waterworks
Dongbu Office of
Waterworks
Seobu Office of
Waterworks
Seobu Office of
Waterworks
JungbuOfficeof
Waterworks
JungbuOfficeof
Waterworks
Gangseo Office of
Waterworks
Gangseo Office of
Waterworks
Nambu Office of
Waterworks
Nambu Office of
Waterworks
Bukbu Office of
Waterworks
Bukbu Office of
Waterworks
Gangbuk Water
Purification Center
Gangbuk Water
Purification Center
Amsa Water
Purification Center
Amsa Water
Purification Center
Gwangam Water
Pu C
Gwangam Water
Purification Center
Yeongdeungpo Water
Purification Center
Yeongdeungpo Water
Purification Center
