HKST-SCADA-GP New Energy Operation & Maintenance Management System
Over view:
In order to meet the requirements of the new energy monitoring system, achieve comprehensive monitoring of new energy equipment and new energy metering, enable relevant personnel to respond, take measures, and remotely monitor, maintain, and manage relevant equipment in a centralized manner. Guangzhou HoKo develop HKST-SCADA-GP New Energy Monitoring, Operation and Maintenance Management System:
Key Feature:
The design of the entire monitoring system complies with national or international standards. The system software and hardware adopt standardized design, providing open interfaces that can be interconnected with devices and software systems from different suppliers.
The new energy data collector adopts an embedded real-time Linux operating system and dedicated hardware structure, with stable and reliable performance, ensuring the overall stability of the system, especially suitable for running in environments with complex environments and high reliability requirements. The WEB system platform adopts a professional development framework in the J2EE industry, which meets the requirements of big data collection, large capacity data storage, and high concurrency data access requests.
The system development and operation platforms all adopt the most commonly used operating systems and development tools today, fully utilizing the middleware and modules we have successfully applied in other monitoring fields, greatly reducing investment in the system platform, and having extremely high cost-effectiveness.
Based on the design concept of configuration software, a universal platform is used to solve photovoltaic data collection, local SCADA monitoring, cloud platform data analysis, and mobile app operation and maintenance management. The four-dimensional integrated solution promotes the intelligence of distributed photovoltaic operation and maintenance platforms.
The entire system has the ability to further expand its functions and can well adapt to the needs of modern intelligent control. Ensure effective development and use by users on the system, and provide a good environment for future development. Fully utilize and protect existing network resources for current and future expansion; The platform server has the ability to expand and stack, facilitating the integration and expansion of different levels of centers. The system must have strong monitoring points and storage space expansion capabilities.
Relying on a real-time database, it can achieve real-time monitoring and remote control of multiple users and screens, and can connect various alarm devices to fully meet the monitoring requirements of users.
The security of platform monitoring systems is one of the key issues in management, which is divided into data security and information security. The following requirements are required in the above three aspects:
Data security: Store data at multiple levels and in a distributed manner, making it less susceptible to damage. The AES encryption mechanism of data ensures its security during network transmission and will not be intercepted, tampered with, or utilized;
Information security: All configuration information, management information, and log information are stored in the central database, implementing centralized information management;
Hierarchical authorization: Authorize the application functions and access scope of subordinate administrators. The subordinate administrator authorizes and manages the application functions and access scope of the operators in the affiliated institution.
The HKST-SCADA-GP new energy monitoring and maintenance management system can help the new energy monitoring department achieve unmanned or fewer people on duty in the distribution room. It can achieve real-time monitoring of distribution operation, analysis of operation data, and alarm prompts for fault information, gradually promoting the automation, centralization, and intelligence of power monitoring.
The system construction is divided into two technical levels, with the first level of collection: achieving the integration of the power automation energy gateway, data collection from the gateway, and achieving the correct transmission of all equipment data to the platform. The platform provides basic functional modules, and has a complete display of data visualization; Analysis Level 2: Conduct in-depth analysis and utilization of data, excavate the value of the data itself based on the data, and guide users to collect information on photovoltaic equipment, monitor the operational efficiency of photovoltaic equipment, monitor the deterioration of photovoltaic equipment operating parameter curves, optimize distribution operation, and use online monitoring data to support, in order to maximize the energy efficiency of photovoltaic power generation systems and achieve preventive maintenance.