Add to ORKGAbstract: This paper analyses transformer loss of life attending to the realistic variability of both structural and functional parameters. The article begins with the modelling of load and ambient temperature profiles, by means of chronological series theory. A simple additive model is proposed and validated with realistic data, loss of life resulting from probabilistic functional and structural parameters is analysed through a sensitivity study. Key-Words: Transformer thermal, Estimate thermal parameters
Hot spot as well as top oil temperatures have played the most effective parameters on the life of th...
AbstractPower transformers represent the largest portion of capital investment in transmission and d...
Electricity demand is increasing because of global decarbonisation efforts to reduce emissions that ...
In this paper, transformer thermal and loss of life models was studied. Based on the thermal model a...
Abstract: In this paper, on basis of heat transfer mechanism, some models of transformer thermal and...
International audienceMain factors constraining transformers' thermal loss of life (LOL) are load an...
Abstract—In this paper, on basis of heat transfer mechanism, some models of transformer thermal and ...
Abstract: The purpose of this article is to analyse the tansformer thermal and loss of life models w...
Abstract: The purpose of this article is to analyse the different thermal models proposed in special...
Transformers are among the most important equipment in electrical power systems, where their operati...
With the continuous rise in the load demand at consumer end, the performance of the existing operati...
Transformers are one the most important facilities in electrical power systems where their operation...
Abstract — Heat dissipation is always a problem in large power transformers. Increased market compet...
Temperature, especially the hot spot temperature (HST) and top oil temperature (TOT), has played the...
Power and Generator Transformers are important and expensive elements of a power system. Inadvertent...
Hot spot as well as top oil temperatures have played the most effective parameters on the life of th...
AbstractPower transformers represent the largest portion of capital investment in transmission and d...
Electricity demand is increasing because of global decarbonisation efforts to reduce emissions that ...
In this paper, transformer thermal and loss of life models was studied. Based on the thermal model a...
Abstract: In this paper, on basis of heat transfer mechanism, some models of transformer thermal and...
International audienceMain factors constraining transformers' thermal loss of life (LOL) are load an...
Abstract—In this paper, on basis of heat transfer mechanism, some models of transformer thermal and ...
Abstract: The purpose of this article is to analyse the tansformer thermal and loss of life models w...
Abstract: The purpose of this article is to analyse the different thermal models proposed in special...
Transformers are among the most important equipment in electrical power systems, where their operati...
With the continuous rise in the load demand at consumer end, the performance of the existing operati...
Transformers are one the most important facilities in electrical power systems where their operation...
Abstract — Heat dissipation is always a problem in large power transformers. Increased market compet...
Temperature, especially the hot spot temperature (HST) and top oil temperature (TOT), has played the...
Power and Generator Transformers are important and expensive elements of a power system. Inadvertent...
Hot spot as well as top oil temperatures have played the most effective parameters on the life of th...
AbstractPower transformers represent the largest portion of capital investment in transmission and d...
Electricity demand is increasing because of global decarbonisation efforts to reduce emissions that ...