High-voltage direct-current power transmission system reliability assessment method considering alternating-current side fault

Abstract

The invention provides a high-voltage direct-current power transmission system reliability assessment method considering an alternating-current side fault. A line commutated converter reliability modeling and probability index evaluation method is provided and is combined with an existing high-voltage direct-current power transmission system reliability assessment method, so that a problem that the influence on the high-voltage direct-current power transmission system reliability by the alternating-current side fault can not be taken into consideration by the traditional high-voltage direct-current power transmission system reliability assessment method can be solved. Therefore, precision and engineering practicability of the high-voltage direct-current power transmission system reliability assessment method can be improved.

Description

technical field [0001] The invention belongs to the field of power system reliability evaluation, in particular to the reliability evaluation of a high voltage direct current transmission system based on a current source converter. Background technique [0002] With the large-scale development of new energy power generation, the trend of spatial asymmetry between power supply and load is still intensifying, and the demand for long-distance high-power transmission of electric energy is increasing day by day. UHV AC transmission solutions can partially meet this demand, but the stability problems brought about by long-distance AC transmission are prominent, which greatly restricts its application. The problem of reactive angle stability of high-voltage direct current transmission (HVDC), as the transmission distance increases, its economy gradually exceeds that of AC transmission schemes. In addition, with the development of power electronic equipment technology, HVDC technol...

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Problems solved by technology

The existing HVDC system reliability evaluation methods are all based on fixed component failure rate, repair rate and installation rate, without considering the operating status of the HVDC system. Although the overall reliability index of the HVDC system can be given, it cannot accurately describe the operating conditions of the HVDC system. Real reliability level of medium HVDC system

The HVDC system reliability report released by CIGRE shows that in actual operation, more than 60% of the outages of LCC-based HVDC systems are caused by the failure of AC side equipment or auxiliary equipment, while the existing HVDC system reliability evaluation is difficult to reveal and characterize this part of the breakdown

[0006] my country's HVDC is developing rapidly, and it is playing an increasingly important role in the transmission of electricity from west to east and the large-scale development of new energy. Traditional reliability assessment methods for AC-side system faults have been difficult to accurately describe the reliability of HVDC systems in the AC-DC hybrid scenario. It is particularly necessary and urgent to study HVDC system reliability assessment methods that consider AC-side faults

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