Cover Image

Correlation of partial discharge occurrence in power transformer by using self organizing map, acoustic partial discharge and DGA

Power transformer consists of components which are under consistent thermal and electrical stresses. The major component which degrades under these stresses is the paper insulation of power transformer. The degradation is accelerated by the existence of partial discharge in the transformer. The part...

Full description

Saved in:
Bibliographic Details
Main Authors: Samsudinl R., Sk T., Ramli A.Q.
Other Authors: 35410298500
Format: Article
Published: 2023
Subjects:
Dissolved Gas Analysis
Gas Rates
Hydrogen
Partial Discharge
Total Dissolved Combustible Gas
Acoustics
Discharge (fluid mechanics)
Dissolution
Electric instrument transformers
Electric transformer insulation
Electric transformer testing
Gas chromatography
Gases
Hydrogen production
Methane
Power transformers
Self organizing maps
Strength of materials
Transformer substations
Acoustic PD measurements
Classification tool
Combustible gas
Decision making process
Electrical stress
Field testing
Generation rate
Paper insulation
Partial discharge activity
Partial discharge measurements
Predictive maintenance
Partial discharges
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Power transformer consists of components which are under consistent thermal and electrical stresses. The major component which degrades under these stresses is the paper insulation of power transformer. The degradation is accelerated by the existence of partial discharge in the transformer. The partial discharge activity in the transformer will generate gasses such as Hydrogen (H 2) and Methane (CH 4). According to IEC 60599, hydrogen may be produced by other ways than PD itself. The current predictive maintenance methodology practiced by utility that could detect partia discharge in the transformer is the dissolved gas analysis (DGA). Hydrogen is the main gas used for decision making process. In this project, acoustic partial discharge measurement technique was used together with the monthly generation rates of hydrogen and methane in proportion to Total Dissolved Combustible Gas (TDCG) method was used to identify the PD occurrence in power transformer. In this paper, a field testing was done on 120 transformers to verify the proposed method by using classification tool such as Self Organizing Map (SOM). The monthly generation rates of hydrogen and methane in proportion to TDCG method serves as useful information in identifying the partial discharge occurrence in power transformer. The correlation between the monthly generation rates of hydrogen and methane in proportion to TDCG and PD activities has been established by using SOM. As a result, the SOM gave two regions which represents the "with PD" and "no PD" region. This result has been confirmed by doing acoustic PD measurements. � 2009 WASET.ORG.

Similar Items