Ultra-high pressure circuit monitoring system for solar power generation

Abstract

The invention relates to a solar-powered ultra-high voltage line monitoring system, comprising a high-voltage side solar power supply, a high voltage line monitoring device, a low-voltage side solar power supply, a line monitoring host computer and a remote wireless intelligent monitoring system. The high-voltage side solar power supply and the low-voltage side solar power supply comprise solar batteries, rechargeable batteries and power management units; the high voltage line monitoring device and the line monitoring host computer comprise sensing units as well as data acquisition and recording units for detecting and processing field parameters of various lines; and the remote wireless intelligent monitoring system comprises a wireless communication unit and a monitoring system master station. The high-voltage side solar power supply, the high voltage line monitoring device, the low-voltage side solar power supply, the line monitoring host computer and the remote wireless intelligent monitoring system compose a field device which collects and records the running status and fault information of high-voltage lines through solar power and transmits the running status and fault information to the monitoring system master station through the remote wireless communication unit so as to provide real-time information for power line monitoring.

Description

technical field [0001] The invention relates to a power supply line detection system, and more specifically relates to an ultra-high voltage line monitoring system for solar power generation. Background technique [0002] Power lines often have short circuits, ground faults, and stolen wires. Severe weather such as strong winds, rain, snow, and freezing will also cause line faults. It is very difficult to find and locate faults. In order to improve the power supply reliability of the power grid, at present, key points such as power plants, substations and branch points in the power grid, as well as special transformers and distribution transformers as power terminals, are equipped with equipment and devices for monitoring and protecting operating conditions. , transmission and recording technologies are all mature; however, on the high-voltage and ultra-high-voltage lines for long-distance transmission, only some pilot studies have been carried out on the detection of some f...

AI Technical Summary

Problems solved by technology

Most of them are powered by batteries. In this way, the detection device only detects and processes specific sudden fault signals, and is in a dormant state to save power. The fatal disadvantage of this method is serious false positives and false negatives. , it is impossible to monitor the gradual fault changes, and it can only be reported after the fault bursts, and it is impossible to prevent problems before they happen through long-term monitoring of parameter changes, especially for icing, which needs to be accumulated for a long time Evolving faults, the above methods cannot be detected at all

[0005] Another kind of method that has a small amount of reports but has not been put into practical use is the monitoring device installed on the transmission line tower, which uses solar energy for power supply, but the parameters monitored are mainly meteorological parameters such as temperature, humidity and wind speed near the transmission line and the pole tower. Peripheral conditions such as inclination and shaking cannot detect faults such as short circuit, open circuit, grounding, overload, etc. of the transmission line, and cannot meet the requirements for monitoring the operating parameters and faults of the transmission line concerned by the power system, and have little practical significance

[0006] Under the above conditions, in order to detect these transmission line faults, it is necessary to use sensors with high dielectric strength to ensure the isolation between high and low voltage; as the voltage level of transmission lines continues to increase, high dielectric strength must use huge structures And complex process to achieve, directly resulting in high cost and manufacturing difficulty

No matter which of the above-mentioned power supply methods is adopted, the high-voltage line monitoring device cannot conduct long-term monitoring of direct operating state parameters such as load current and conductor temperature of high-voltage and ultra-high-voltage transmission lines and on-site environmental parameters, which is not conducive to timely reflection of the state of high-voltage lines trend, with great limitations

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