Smart water is an important part of the smart city, and it is a high-efficiency, energy-saving, green and environmentally comfortable water plant with a high degree of information exchange, fast response and orderly management of all aspects of production, operation, maintenance, scheduling and service by means of a new generation of information technology such as the Internet of Things, cloud computing, big data, artificial intelligence, and BIM. The smart water management platform can continuously improve the economic and social benefits of water supply enterprises and ensure the safety of urban water supply.
Accelerated urbanization: With the rapid development of urbanization, urban water management is facing increasing pressures, such as water shortage, water pollution, and aging water supply networks.
The development of information technology: The continuous progress of information technology such as the Internet of Things, big data, and cloud computing has provided technical support for the development of smart water.
Increasing awareness of environmental protection: People's awareness of environmental protection and sustainable use of water resources is increasing, and the requirements for water management are also increasing.
Internet of Things technologyRealize the interconnection of water plant equipment, real-time perception and acquisition of water plant operation status;
Cloud computing technology: Improve the computing power of the entire water division and water plant through cloud computing;
Automation technologyImprove the automation degree of the water plant through the latest automatic control technology;
Big data technology: Realize the collection, aggregation, storage and analysis of massive production and operation data;
Artificial intelligence technology: Machine learning capabilities based on artificial intelligence allow water plants to learn to think and be smarter;
CPS technology: Achieve a high degree of integration between information systems and physical systems through cyber-physical technology;
BIM technology: Through building information modeling technology, a high degree of digitization and visualization of water plant information is realized;
The smart water management platform covers:Water quality monitoring, configuration monitoring, energy consumption monitoring, sewage plant management, intelligent dosing, material management, alarm managementand other modules to achieve comprehensive monitoring and treatment of sewage. PassedMonitoringwithAutomated controlEnsure that the treated water quality meets environmental protection standards, improve treatment efficiency, reduce energy consumption, and ultimately achieve safe and efficient sewage treatment and discharge.
Cockpit. The cockpit of the smart water management platform provides a full range of monitoring and overview functions, including real-time information overview, water quality monitoring to ensure water quality meets standards, configuration monitoring to enable operators to intuitively understand the water treatment structure, and energy consumption monitoring to help optimize energy use and reduce operating costs.
Leakage monitoring and management.
Manage the management of leakage monitoring and control equipment, including public water intake points, intelligent fire hydrants, leakage monitoring equipment, dynamic monitoring and alarming, comprehensive analysis of leakage and determination, and small-scale location of leakage investigation points.
Water quality management throughout the process.
Supervise the data of all the best water quality monitoring points of the pipe network, pumping station and water plant, realize the dynamic display of water quality data, equipment alarm management, and statistical analysis of water quality.
Equipment O&M monitoring.
It supports three-dimensional modeling and presentation of various equipment and facilities of the water plant, and integrates monitoring, IoT perception data, industrial control system data, etc., based on data-driven, truly reflects the operation status of the equipment, and provides real-time warning and alarm for abnormal equipment operation. Combined with professional analysis models, scientific equipment failure**, equipment health assessment and preventive maintenance are carried out to effectively improve the efficiency of equipment maintenance management.
Energy consumption monitoring. It supports the integration of energy consumption data in the plant area, conducts real-time monitoring and analysis of the energy consumption situation of each subsystem such as power supply, gas, water supply and drainage in the plant area, and conducts a comprehensive evaluation of the energy consumption trend and energy consumption indicators of the water plant, so as to help managers understand the energy consumption status of the plant in real time, and provide a strong data basis for the reasonable allocation of resources and energy conservation and emission reduction in the plant area.
Pipe network monitoring. Pipe network monitoring displays the real-time status of each monitoring point through the map, and the current data of each monitoring can be called up in real time. The pipe network monitoring module analyzes the pressure data of the pipe network reported by each monitoring point in real time, and when the monitored pressure data is not within the normal range, it triggers the alarm in time and notifies the personnel on duty with sound and light alarms, and sends a short message to the set mobile phone to notify the relevant personnel.
Wastewater plant management.
The plant management module provides operators with a comprehensive view of the operation of the entire wastewater treatment plant through an overview of information and specific plant details to ensure the proper operation of the system.
More safe and reliable operation
Through the redundant transformation of the automatic control system and equipment and instrument system of the water plant, the introduction of process intelligent algorithms, the improvement of the asset and equipment management system, and the establishment of intelligent security management, the production control of the water plant is more stable, the equipment operation is more reliable, the security management is more efficient, and the production safety of the water plant is comprehensively strengthened.
The production indicators are of higher quality
Through intelligent means, the production of the water plant is more stable, the control of each production process link is always in the optimal mode, the water quality is better than manual control or traditional automatic control, the control of key indicators in all aspects of production, comprehensive information perception and decision support can find problems in time, timely warning and take corrective measures, and finally obtain better water quality indicators.
More efficient
The intelligent operation mode replaces manual operation through intelligent means, which improves production efficiency, and reduces the number of operation personnel by more than 50% by centralized and less people on duty, which greatly improves work efficiency. At the same time, the system operation platform can automatically produce reports, replacing manual entry work, and paperless office is also more efficient.
Energy saving and consumption reduction
Through intelligent process algorithm control such as intelligent dosing, intelligent pump distribution, and optimized sludge discharge, chemical and energy consumption have been reduced by more than 15% and 10% respectively, and wastewater discharge has been reduced by more than 30%.
The overall solution of smart water.
Smart water solutions.
What is a smart water plant What are the functions of a smart water plant.
Smart Water Solutions Smart Water Plant.