Zaixing Peng scite author profile

Zaixing Peng

5Publications

7Citation Statements Received

13Citation Statements Given

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China Southern Power Grid (China)

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A new method of estimating the inverse power law ageing parameter of XLPE based on step-stress tests

Liu

et al. 2013

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In recent years, HVDC cables have been greatly improved, 500kV XLPE DC cable has been developed, and many XLPE DC cables of lower applied voltage have been used in HVDC systems. However, there still is not a unified standard for testing high voltage DC extruded cable systems, only a recommendation. Furthermore the recommendation only gives a lower limit of ageing parameter (n=10 in the inverse power law t L ·V n = constant), which directly determines the voltage used in the test. A more precise value of ageing parameter is needed in order to improve the testing method. The most common method of estimating the ageing parameter uses constant-stress tests at different voltages (fields) and is based on the inverse power model, but this method takes a lot of time and cannot give usable data when the applied voltage is low. An alternative method is to use step-stress tests based on the cumulative life model. This approach can give usable data quickly, but parameter evaluation is much harder than for the constant-stress tests and the approximations necessary for the data solution unavoidably brings errors. In this paper, a new method of estimating the ageing parameter of XLPE is proposed.Step-stress tests are also used but a new parameter evaluation method is presented, which avoids complicated approximations in the data solution. This new method can greatly reduce the errors and easily give the ageing parameter. A series of step-stress tests on 0.3 mm thick XLPE samples have been carried out to illustrate the method. The values of the ageing parameter, n, obtained from different methods are compared, and it is found that the new method gives a greater consistency between different test protocols, indicating a more accurate estimation of its value. However, a comparison between the new method and the constant stress accelerated life tests is still needed to confirm the accuracy of the new method.

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Study on GIS Temperature Rise Characteristics and the Related Influencing Factors under Internal Overheating Defect

Peng

Wang

et al. 2020

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Coupling model of AC filter branch in SF₆ circuit breaker during the break process

Peng¹,

Li²,

Nan³

et al. 2020

Plasma Sci. Technol.

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In this paper, a coupling model of the AC filter branch circuit with the arc plasma in the circuit breaker was built to investigate the arcing process considering the harmonic current. The comparisons among the current at power frequency (50 Hz), power frequency combining the 11th harmonic and power frequency combining the 24th harmonic show that the high-order harmonic current would lead to higher decreasing rate of current before current-zero period. In addition, the influence of arc on the amplitude of high-order harmonic current is not negligible. Thus, the coupling of arc with AC filter branch circuit is quite necessary in the numerical modeling of the circuit breaker in the AC filter branch at the high voltage direct current converter station.

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Investigation on the defect data of circuit breaker above 110kV

Yao

Wang

Peng

et al. 2016

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Model Establishment of Power Equipment Safety Assessment Method Under New Power System

Chen

Peng

Wang

et al. 2023

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Zaixing Peng

A new method of estimating the inverse power law ageing parameter of XLPE based on step-stress tests

Study on GIS Temperature Rise Characteristics and the Related Influencing Factors under Internal Overheating Defect

Coupling model of AC filter branch in SF₆ circuit breaker during the break process

Investigation on the defect data of circuit breaker above 110kV

Model Establishment of Power Equipment Safety Assessment Method Under New Power System

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Zaixing Peng

A new method of estimating the inverse power law ageing parameter of XLPE based on step-stress tests

Study on GIS Temperature Rise Characteristics and the Related Influencing Factors under Internal Overheating Defect

Coupling model of AC filter branch in SF6 circuit breaker during the break process

Investigation on the defect data of circuit breaker above 110kV

Model Establishment of Power Equipment Safety Assessment Method Under New Power System

Contact Info

Product

Resources

About

Coupling model of AC filter branch in SF₆ circuit breaker during the break process