Industrial Internet of Things Solutions: Energy Storage BMS Data Collection and Operation Management Platform
Industry Background
As the global energy transition accelerates and new energy technologies flourish, energy storage systems are emerging as a vital component of modern power systems, presenting unprecedented development opportunities. The Energy Storage Battery Management System (BMS) plays a crucial role in ensuring the safety, stability, and efficiency of battery operation. However, traditional energy storage power stations face numerous challenges, including inadequate device connectivity, severe data silos, and inefficient manual data recording and aggregation, leading to chaotic management and low operational efficiency. In response to these challenges, Shuzhineng has introduced a novel solution for the data collection and operational management of energy storage BMS.
Pain Point Analysis
1. Data Silos: Energy storage power stations consist of numerous devices but lack a unified data collection and management platform, resulting in severe data silos that hinder data sharing and analysis.
2. High Dependence on Manual Intervention: Traditional operational methods rely heavily on manual data recording and aggregation, which is labor-intensive and inefficient, making it difficult to monitor equipment status in real-time.
3. Slow Fault Response: Without real-time monitoring and early warning mechanisms, equipment failures are often difficult to detect and address promptly, adversely affecting the overall operational efficiency of the energy storage system.
Solution
By implementing the Shuzhineng device operation management platform, we can connect various equipment in energy storage stations, including battery cabinets, BMS, PCS, EMS, cameras, electricity meters, and sensors. This integration allows for real-time data collection, transmission, processing, and analysis. The platform facilitates interoperability among devices of different brands and models, enabling real-time monitoring of the operational status of energy storage stations. This ensures timely detection and resolution of anomalies, enhances fault response speed, reduces operational costs, and guarantees the safe, stable, and reliable operation of energy storage equipment.
Functionality Achieved
1. Device Monitoring: Real-time monitoring of various operational parameters of devices within the energy storage station, such as battery voltage, current, and temperature.
2. Environmental Monitoring: Collection of environmental parameters like temperature, humidity, and air quality to ensure suitable operating conditions for the equipment.
3. Fault Alarms: Automatic triggering of alarm mechanisms when device faults or abnormal data are detected, with notifications sent to operational personnel via WeChat, SMS, or email.
4. Operation Management: Provision of work order management capabilities, supporting the creation, allocation, tracking, and evaluation of operational tasks to improve efficiency.
5. Data Analysis: In-depth analysis of collected data to provide decision support for optimizing and upgrading energy storage systems, including predictive maintenance and performance optimization.
