Patent Application for a Blockchain-Based Control and Analysis System: Enhancing the Intelligent Management Efficiency of Power Distribution Networks

Patent Application for a Blockchain-Based Control and Analysis System: Enhancing the Intelligent Management Efficiency of Power Distribution NetworksOn December 19, 2024, the State Intellectual Property Office of China (SIPO) announced that Shanghai Hezhe Run Technology Co., Ltd

Patent Application for a Blockchain-Based Control and Analysis System: Enhancing the Intelligent Management Efficiency of Power Distribution Networks

On December 19, 2024, the State Intellectual Property Office of China (SIPO) announced that Shanghai Hezhe Run Technology Co., Ltd. had filed a patent application for a "Blockchain-Based Control and Analysis System," with publication number CN119134232A and an application date of July 2024. This patent application aims to revolutionize the fault detection, analysis, and repair processes of power distribution networks, improving overall operational efficiency and reliability. Its core lies in leveraging blockchain technology to construct a secure, transparent, and efficient intelligent power distribution network management system.

The patent abstract details the system's operation, primarily encompassing four key aspects: power distribution network fault judgment and time-slice management, power distribution network power failure area power supply analysis and control, power distribution network fault self-healing control processing, and power distribution network fault repair authentication recording. Each aspect cleverly integrates the advantages of blockchain technology, resulting in significant improvements over traditional power distribution network management models.

Firstly, in power distribution network fault judgment and time-slice management, the system periodically detects bus voltage and branch current sampling information from each regional agent in the power distribution network, enabling real-time fault judgment. Unlike traditional methods relying on manual inspections or simple alarms, this system can quickly and accurately identify the time and location of a fault. Upon detecting a fault, the system immediately initiates delayed disconnection processing of downstream connecting branches, effectively controlling the fault's scope, preventing escalation, and minimizing downtime and economic losses. This precise fault location and rapid response mechanism is crucial for ensuring the stable operation of the power distribution network.

Secondly, in power distribution network power failure area power supply analysis and control, after restoring power to the affected area, the system continuously monitors real-time feeder data. Based on real-time data analysis, the system intelligently adjusts the power supply scheme to ensure the stability and reliability of power supply. This not only avoids secondary faults caused by blindly restoring power but also improves power supply efficiency and quality. This function highlights the core advantage of the system's intelligent management: data-driven decision-making for optimized allocation of power resources.

Thirdly, power distribution network fault self-healing control processing is a major highlight of the system. Through a pre-set series of automated control strategies, the system can automatically initiate self-healing processes upon fault occurrence, completing the repair of some faults without manual intervention. This significantly reduces fault recovery time, improves power supply reliability, and reduces reliance on manual operation. The realization of this function relies on the secure and reliable data transmission and storage environment provided by blockchain technology, ensuring the accuracy and effectiveness of the self-healing control strategy.

Finally, the power distribution network fault repair authentication recording aspect utilizes the tamper-proof nature of blockchain technology to create a complete record of the entire fault repair process, generating an undeniable chain of evidence. This not only enhances the transparency and traceability of power distribution network management but also facilitates post-incident analysis and responsibility determination, providing valuable data support for further system optimization. This function is key to improving power distribution network management levels and protecting user rights.

In summary, this patent application for a blockchain-based control and analysis system comprehensively upgrades traditional methods by integrating blockchain technology with power distribution network management. Its efficient fault detection, intelligent power control, automated fault self-healing, and transparent authentication recording significantly improve the intelligent management level of power distribution networks, reduce operating costs, and enhance power supply reliability and security. The system boasts high intelligent analysis management and processing efficiency, making it highly valuable in modern power systems. Its innovation lies in the seamless integration of blockchain's immutability and transparency with real-time monitoring and control of the power distribution network, effectively addressing numerous pain points in traditional power distribution network management, such as difficulties in fault location, long recovery times, and poor data security and reliability. The application has broad prospects and is expected to become an important component of future smart grid construction, contributing to a safer, more reliable, and efficient power system. Future developments and refinements will likely lead to broader application, contributing to a more intelligent, digital, and efficient energy system. This patent application also signifies the deepening application of blockchain technology in the power sector, indicating that future smart grids will move towards greater safety, reliability, and efficiency. The widespread adoption of this technology will bring greater societal benefits and drive the transformation and upgrading of the energy industry. Its application will not only improve the stability and reliability of power supply and enhance user satisfaction but also reduce the waste of power resources and lessen environmental pollution, contributing to a green and low-carbon society. This demonstrates that blockchain-based power system management solutions are maturing and will play an increasingly important role in future power system construction.