A method for assessing the risk of transformer short circuit and damage
A technology on the low-voltage side of transformers and transformers, applied in the fields of instrumentation, calculation, electrical digital data processing, etc., can solve the problems of unoptimistic operation environment of substation incoming and outgoing lines, winding deformation during short-circuit time, damage to large transformers, etc., to reduce hardware input costs, The effect of improving reliability and reducing working errors
Active Publication Date: 2019-03-22
STATE GRID HEBEI ELECTRIC POWER RES INST +2
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AI Technical Summary
Problems solved by technology
However, with the increasing capacity of the current power grid, the short-circuit capacity of the system also increases. At the same time, the operating environment of the substation's incoming and outgoing lines is not optimistic, and various overvoltages occur from time to time.
In recent years, due to various reasons, accidents of damage to large-scale transformers caused by external short-circuits have occurred frequently. Many transformers have winding deformation and damage when the short-circuit current and short-circuit time are far below the level required by the national standard and the manufacturer's commitment. Some new The external short circuit of the transformer put into operation will be damaged once or twice
Method used
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Experimental program
Comparison scheme
Effect test
Embodiment Construction
[0031] The embodiments of the present invention will be described in further detail below.
[0032] The No. 2 main transformer of a substation was produced in 2001, with a transformer capacity of 180MVA and a rated voltage of 220 / 110 / 38.5kV.
[0033] (1) According to formula (1), evaluate the degree of short-circuit current and damage to the transformer,
[0034] ( ) (1)
[0035] when Time, ;
[0036] In the formula: k is the coefficient of current short-circuit and damage to the transformer;
[0037] I d Is the largest short-circuit current that may occur in the transformer in the system;
[0038] I s It is the short-circuit current that the transformer can withstand given by the manufacturer.
[0039] The short-circuit current that the transformer can withstand given by the manufacturer, that is, the magnitude of Is, directly reflects the short-circuit resistance level of the transformer. Generally speaking, Is should be greater than the maximum short-circuit current that the transfo...
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The invention relates to a method for evaluating the risk of short circuit and damage of a transformer. The method is characterized by comprising the following steps: (1) evaluating the degree of the short circuit and damage of the transformer from short-circuit current according to a formula; (2) calculating the probability of tripping of single main transformer circuit every year according to a formula; (3) calculating the proportion of damaged transformers in recent ten years to transformers tripped at outlets according to a formula; (4) calculating the probability of the short circuit and damage at the low-voltage side of single transformer according to a formula; (5) evaluating the quantity P of the transformers damaged by short circuit every year according to a formula. The method is wide in application range, high in reliability and low in cost, can be used for evaluating the risk of the short circuit and damage of the transformer, and can be applicable to evaluation on the risk of the short circuit and damage of multiple transformers with different voltage levels and different cooling modes.
Description
Technical field [0001] The invention belongs to the field of transformer operation detection and maintenance, and specifically relates to a method for evaluating the risk of transformer short-circuit and damage. Background technique [0002] The transformer is the core of the power supply system, and the reliability of its operation has a great impact on the safety of the power system. However, with the increasing capacity of the current grid, the short-circuit capacity of the system has also increased. At the same time, the operating environment of the incoming and outgoing lines of the substation is not optimistic, and various overvoltages occur from time to time. In recent years, due to various reasons, large-scale transformer damage accidents caused by external short-circuits have occurred frequently. Many transformers have winding deformation and damage when the short-circuit current and short-circuit time are far less than the national standard requirements and the level pr...
Claims
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IPC IPC(8): G06F17/50
CPCG16Z99/00
Inventor 刘宏亮潘瑾刘振高树国张建军王卓然
Owner STATE GRID HEBEI ELECTRIC POWER RES INST