Part 1 - Energy Performance Monitoring - Introduction
Part 2 - Energy Performance Monitoring - P2 - Monitoring System
Part 3 - Energy performance monitoring - P3 - Methods
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System Operation in Energy Performance Monitoring
AI Platform application software - Smart interaction and management solution
Today, energy management is facing many challenges, especially in the use of modern sensors, including:
- Data Diversity: Modern sensor technology generates large amounts of energy and activity data, creating challenges in effectively processing and leveraging information from these sensors.
- Data management and security: The evolution of modern sensors creates problems in energy data management and security, especially in large-scale business environments.
- System integration: The integration and interaction between temperature sensors, humidity sensors, current sensors, voltage sensors, and wireless vibration sensors requires high expertise and sophisticated techniques. en to ensure continuity and reliability of the energy management system.
- Standards and regulations: The diversity of sensors and technologies requires proper compliance with safety, quality and environmental standards and regulations.
These challenges require high technical investment and expertise in energy management and the use of modern sensors to ensure efficiency and safety in energy use and system management, especially is AI technology in data processing.
VTICorp has optimized the algorithm, interface design and integration in AI Platform software with features to support users in energy management and data processing, analysis, reporting and warnings over time. real and stored.
Visualize statistics, warnings, simulate measurement point areas
Operate online anywhere on any device
Manage energy consumption
Thanks to sensors installed at the power input to the equipment to be monitored, the area input, etc. Data is transmitted to the system according to station and equipment classification with measured data on capacity, i.e. Time, Calculate power consumption... The system uses data to calculate aggregated by area, device and aggregate criteria, using the measurement values of these sensors to control the capacity of the sensors. Large power consuming equipment such as: compressor/cooler/dryer; Heating/ Pump..
The performance of parameter measurements is completely automatic according to the configured frequency, thanks to energy sensors located at the source and measurement points, helping to perform a large number of measurements and freeing up human effort.
Energy management activities are performed through operations on the management interface, including:
- Monitor target device power and energy consumption parameters using the index menu
- Monitor current energy operating parameters via software interface -> Device information
- The application support system operates on Android and IOS environments to help meet the needs of online monitoring and supervision at any time.
- Data storage: The system automatically saves received measurement data to the Server database
- Data calculation: The system has been configured for measurements to automatically perform calculations, return results, and store.
- Notifications and warnings: When a risk or risk situation is detected, the manager will receive a notification on the central administration interface and mobile application, and the warning history is automatically saved (log) on the device. The system is ready to use when needed.
- Data retrieval: Implemented directly on the management interface, the system supports exporting report data to Pdf and Excel formats. Management experts can absolutely use data for analysis purposes outside the system. The system has built-in measurements of common parameters such as: Power factor, Apparent power, Reactive power,...
Based on historical tracking and cross chart comparison, anomalies or opportunities for performance improvement will be detected by management experts.
Based on the ISO 50001 standard, the solution meets the criteria to ensure measurement, monitoring, and provision of accurate data (with tested and verified sensor devices), ensuring the ability to reproduce, store, and retrieve data; Serves well as a tool to provide management data for the Energy Management System. To perform in-depth analysis of energy, performance, and optimization, managers can completely use Energy consumption data combined with other integrated techniques and solutions, typically through thermal parameters.
Manage heat, humidity, and vibration parameters, serving in-depth energy monitoring
Information on heat, humidity, vibration, and pressure is provided by measurement data by component sensors and operates similarly to Energy Data. Monitoring these parameters combined with energy data helps evaluate and make summaries and comments about the area, machine system or equipment health, especially rotating electrical machines.
Graph of heat data retrieved over time, optionally by measuring point (sensor)
Technically, we can imagine the implementation as follows: From the collected results stored by day, month, year, region, and device, a large database will be produced for analysis and synthesis. AI Platform will analyze and process data, helping operations experts make comments and optimize operations based on visual reports. For example:
- Observe the graphs for anomalies; Compare usage quantities and specifications to find usage performance weaknesses and problem areas that need improvement;
- Map, determine usage, find out high and low points, Compare costs with related areas to find the cause.
- AI analyzes the Energy Usage Area to point out the optimal point, combined with Control Techniques to help the system plan on/off according to actual timetables.
- Expand visibility and instrumentation for infrastructure, including critical devices, products, and facilities. Such as electrical equipment, cooling, lighting, etc.
Exploit heat and electricity monitoring data to optimize operation and control capacity
The relationship between Temperature and Energy has been described in many scientific reports, with available energy consumption parameters and heat data, based on norms or building statistical analysis models to find By generating relevant coefficients, it is possible to plan economical, reasonable, and optimal equipment operations, protect durability, and meet ISO 50001 standards for the purpose of improving performance.
For example, with instructions on the Handbook on Saving Electricity in Offices and Factories issued by VNEEP - National Program on Economical and Efficient Energy Use - Department of Energy Conservation and Sustainable Development, Ministry of Energy Industry and Trade provides basic principles for evaluating performance in energy systems
Energy management experts can compare facility measurements to:
- Demonstrate energy efficiency, Safety control, Choose optimal operating schedule, Monitor voltage according to standard levels for Electric Motors;
- Focus on monitoring and optimizing air conditioning and cooling systems, designing heat circulation spaces through measured heat data for the building,...
- Control the capacity of cooling and heating equipment
The provided sensor data helps directly monitor air conditioning and cooling system information, detailed to each device and measurement point. The system provides the ability to directly control remotely or Schedule on/off the cooling air conditioning system according to the optimal plan.
With VTICorp's Energy Management solution, operators can update the on/off status, open/close status of central or local electrical equipment in general and cooling and heating equipment (depending on the sensor location). ) through the system administration interface and remote activation control right on the system. Control commands are transmitted from central software to help operations be performed quickly. In addition, the system also supports automatic activation scheduling according to the Operating Plan that has been optimized for energy efficiency. This is an effective support feature for the Energy Management System towards efficiency, optimization and ISO 50001 standards...
Other solutions and expanded features on the system
VTICorp's monitoring system has special features in protecting the safety of assets; Protects electrical equipment thanks to its current operating characteristics; For example, the supply station area, power generation for factories, workshops, transformer stations, power distribution cabinets, industrial machines, etc. The system also provides solutions for smart camera monitoring, access monitoring, and detection. detect intrusion, warn of violation of protected areas, identify risks of smoke, fire, etc. With AI Platform, businesses are not limited by only the temperature monitoring feature but can expand the scope of protection safety, intelligent automation and monitoring to other relevant goals.
Table of contents of sections:
Energy Performance Monitoring - Introduction
Energy Performance Monitoring - P2 - Monitoring System