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Smart water solutions

Solution Overview: Leveraging modern technologies such as cloud computing, big data, the Internet of Things (IoT), and Geographic Information Systems (GIS), this solution enables end-to-end supervision of urban and rural water supply operations, driving digital and smart transformation in water management. It enhances the efficiency and quality of water supply services, ensures the safety and stability of urban and rural water distribution, optimizes resource allocation, reduces operational costs, improves user experience, and supports sustainable urban development. By seamlessly integrating operational workflows with data flows, the solution establishes a comprehensive, unified, and closed-loop smart water management framework. This system achieves fully digitalized and intelligent oversight across the entire water supply chain—from water sources and treatment plants to distribution networks, secondary water supply systems, and end-user taps.

Customer Challenges

Demand for Enhanced Management Efficiency

Water supply enterprises often operate under relatively traditional management models, particularly lacking comprehensive understanding of modern strategic approaches and methodologies. As business operations expand, it becomes extremely challenging to dynamically and comprehensively monitor production conditions across all facilities solely through limited human and material resources.

Demand for Improved Service Quality

With rising living standards, users increasingly prioritize drinking water safety and quality. Water supply security, water quality, and service standards have become critical societal concerns. Continuously improving comprehensive service levels is fundamental for water supply enterprises seeking further development and competitiveness.

Demand for Cost Reduction

Due to the capital-intensive nature, long payback cycles, and low-profit margins characteristic of the water and environmental protection industry, water supply enterprises typically rely on government subsidies to sustain low-profit (or even loss-making) operations. Consequently, energy conservation, consumption reduction, and lowering operational costs remain top priorities for water utilities.

Secondary Water Supply Management System

Pipeline Inspection System

Pipeline Geographic Information GIS System

Pipeline Dispatch SCADA System

Smart Water Management Integrated Platform

Smart Water Management APP

Water Plant Digital Twin

Water Demand Forecasting

Hydraulic Model

Secondary Water Supply Management System

The system integrates operational monitoring, remote control, video surveillance, early warning alerts, and data analysis into a single interface, enabling unified management of monitoring, administration, and control. Through this integrated platform, real-time monitoring of pump room performance metrics is achieved. Key data such as energy consumption analysis, secondary water supply pressure distribution, pump room anomaly alerts, and equipment status are aggregated, visualized, and analyzed. This comprehensive oversight enhances the management of secondary water supply facilities, improves water quality and service standards, and drives energy efficiency and cost reduction.

Pipeline Inspection System

The system enables closed-loop management of the entire workflow, including task planning, work order dispatch, process supervision, result feedback, and service evaluation. It records and analyzes inspection data, generates customized inspection reports based on user requirements, and supports quality assessment of inspection processes and outcomes to ensure efficient, safe, and stable pipeline operations. Additionally, the system provides full traceability of inspection personnel’s patrol trajectories, significantly improving inspection accuracy and efficiency while reducing operation and maintenance costs.

Pipeline Geographic Information GIS System

The system establishes a resource database for user equipment and facility assets, enabling graphical editing, querying, statistical analysis, and visualization. It offers advanced pipeline analysis tools, including pipe burst analysis, connectivity analysis, cross-sectional analysis, pipeline collision analysis, and two-point trace analysis, to provide critical insights for production planning and daily management. By visualizing resource distribution and operational dynamics, the system supports data-driven decision-making and enhances the precision of pipeline network maintenance and optimization.

Pipeline Dispatch SCADA System

Developed on the Meide Smart Water IoT Platform, this system is a specialized application for the water utility industry, enabling centralized management of locations, monitoring data, video surveillance, and alarm data across water sources, treatment plants, and pipeline network monitoring points. It achieves real-time monitoring and supervision of pipeline network operations data, ensuring rapid response to anomalies and optimized resource allocation.

Smart Water Management Integrated Platform

Centered on an Urban Water Supply Integrated Management Platform, Smart Water Solutions leverage advanced technologies such as IoT, big data, and cloud computing to achieve scientific, refined, and unified management of urban water supply networks, alongside seamless data sharing and interoperability. The platform integrates: Monitoring and dispatching of water source and treatment plant production processes; Real-time supervision of pipeline network pressure, flow rates, and water quality; Remote control of booster pump stations and secondary water supply equipment; Data tracking for high-volume commercial users; Automatic remote meter reading for residential consumers. By enabling end-to-end oversight from water sources to end-user taps, the platform ensures urban water supply security, enhances residents' quality of life, and fulfills

Smart Water Management APP

The water supply mobile application integrates core functionalities from platform systems such as production dispatching, pipeline geographic information (GIS), pipeline inspection, and marketing/customer service management. It enables on-demand access to detailed data across production, dispatching, and customer service workflows, achieving mobile-enabled management of critical stages in the end-to-end water supply process—from water sources to end-user taps.

Water Plant Digital Twin

Leveraging the advantages of digital twin technology—such as data visualization, scenario-based information sharing, and cross-functional collaboration—the system enables 3D visualization of water treatment plants, process segments, and equipment. It provides an intuitive display of all operational elements, allowing one-click localization of fault points during system alarms to resolve issues swiftly and ensure water production safety. Through digital, online, and intelligent management, the platform significantly reduces operational complexity while enhancing management efficiency and decision-making capabilities.

Water Demand Forecasting

The system models urban water consumption patterns based on factors such as temperature, rainfall, weekdays/holidays, and other usage-influencing variables. Leveraging data from integrated systems including the Pipeline Dispatch SCADA System, Pipeline GIS, District Metering Systems, Hydraulic Models, and Revenue Management, it utilizes the enterprise’s historical big data and ongoing operational data to ensure a continuous supply of high-quality input for predictive analytics.The water demand forecasting system employs data-driven insights and supply scenario planning to help users: Adjus water treatment plant production rates; Optimize pump station pressure levels; Regulate valve openings; Enhance water dispatching efficiency; Allocate resources rationally. This enables proactive, intelligent decision-making to balance supply-demand dynamics and improve overall system resilience.

Hydraulic Model

The hydraulic model integrates foundational water supply data from systems such as GIS, business management, and SCADA to aggregate, share, and update critical datasets, including pipeline network infrastructure data, integrated operational data, and cross-platform information. This supports scientific decision-making in areas such as: Design and planning of water supply networks; Diagnostics of pipeline operational status; Condition assessment of network performance; Optimized dispatching of water resources; Water quality simulation and analysis. By centralizing multi-source data and enabling collaborative updates, the model eliminates information silos, enhances planning accuracy, and drives data-informed management of water distribution systems.

Multi-Source & High-Capacity

Meide operates a fully protocol-compliant IoT platform that supports the integration of massive multi-source IoT devices. The system is equipped with extensive API interfaces to seamlessly connect new and legacy systems, ensuring interoperability and scalability for diverse infrastructure needs.
User-Centric Intelligence

By integrating big data analytics and AI-driven insights, the platform conducts deep analysis and mining of operational data to achieve comprehensive situational awareness. This empowers users with actionable intelligence for scientific decision-making, enhancing operational precision and strategic agility.
Tailored Solutions

We provide end-to-end smart water management solutions customized to align with the user’s current digital maturity. Our services are demand-driven, offering flexible and adaptive strategies to address specific challenges, ensuring a seamless transition to intelligent water resource management.

Secondary Water Supply

Pipeline Network

Water Plant

 
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Andorra
Angola
Antigua and Barbuda
Austria
Australia
Macau, China
Barbados
Papua New Guinea
Bahamas
Pakistan
Paraguay
Palestine
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Panama
Brazil
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Bulgaria
Benin
Belgium
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Bolivia
Puerto Rico
Bosnia and Herzegovina
Poland
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Belize
Bhutan
Burkina Faso
Burundi
North Korea
Equatorial Guinea
Denmark
Germany
Timor-Leste
Togo
Dominican Republic
Dominica
Russia
Ecuador
Eritrea
France
Faroe Islands
French Polynesia
Philippines
Finland
Cape Verde
Gambia
Congo
Colombia
Costa Rica
Grenada
Georgia
Cuba
Guadeloupe
Guyana
Kazakhstan
Haiti
South Korea
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Montenegro
Honduras
Kiribati
Djibouti
Kyrgyzstan
Guinea
Guinea-Bissau
Canada
Ghana
Gabon
Cambodia
Czech Republic
Zimbabwe
Cameroon
Qatar
Cayman Islands
Comoros
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Ivory Coast
Kuwait
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Lesotho
Laos
Lebanon
Liberia
Libya
Lithuania
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Maldives
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Malaysia
Mali
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Mauritania
United States
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Bangladesh
Peru
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Greece
Hong Kong, China
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Syria
Jamaica
Armenia
Yemen
Iraq
Iran
Israel
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India
Indonesia
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British Virgin Islands
Jordan
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Chad
Gibraltar
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In the field of mechanical engineering
electrical/power field
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logistics park
thermoelectric field
 
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