Add to ORKGIndustrial power plants are able to generate electricity with appropriate quality and power factor using Instrumentation. These plants use traditional methods to avoid the heavy compensation that may be imposed on them, and also use capacitive banks or newer solutions such as SVC and STATCOM, which are too expensive to improve power factor. They also use separate active filters to reduce current harmonics. This paper proposes that dynamic capacitors that are based on inverters used as a capacitive dynamic controller with an active harmonic filter make this system cost less than SVC and STATCOM
The traditional approach to power factor correction (PFC) in industrial applications involves insta...
In this paper a Transformer less Hybrid Series Active Filter (THSeAF) employing a slippery mode mana...
The traditional approach to power factor correction (PFC) in industrial applications involves insta...
Harmonics and reactive power have been a key concern in power systems owing to the extensive usage o...
In electrical installations with a low power factor, significant cost savings can be made through th...
In this paper we introduced a new control scheme which uses one PFC Boost Converter connected in sh...
Switching mode power supplies (SMPS) are subject to low power factor and high harmonic distortions. ...
The paper presents advantages of dynamic reactive power compensation facilities instead of until now...
The paper presents advantages of dynamic reactive power compensation facilities instead of until now...
This paper discusses the design, implementation and analysis of a three phase (6.6kV, 50Hz) capacito...
The power factor deteriorates due to non-linear loads, interconnected grid system, amplitude disturb...
The paper presents detailed fast control characteristics and continuous compensation capability; Fle...
Power factor is a way of measuring the percentage of reactive power in an electrical system. Reactiv...
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University.A ...
The proposed model automatically corrects the power factor without any human presence. Because of in...
The traditional approach to power factor correction (PFC) in industrial applications involves insta...
In this paper a Transformer less Hybrid Series Active Filter (THSeAF) employing a slippery mode mana...
The traditional approach to power factor correction (PFC) in industrial applications involves insta...
Harmonics and reactive power have been a key concern in power systems owing to the extensive usage o...
In electrical installations with a low power factor, significant cost savings can be made through th...
In this paper we introduced a new control scheme which uses one PFC Boost Converter connected in sh...
Switching mode power supplies (SMPS) are subject to low power factor and high harmonic distortions. ...
The paper presents advantages of dynamic reactive power compensation facilities instead of until now...
The paper presents advantages of dynamic reactive power compensation facilities instead of until now...
This paper discusses the design, implementation and analysis of a three phase (6.6kV, 50Hz) capacito...
The power factor deteriorates due to non-linear loads, interconnected grid system, amplitude disturb...
The paper presents detailed fast control characteristics and continuous compensation capability; Fle...
Power factor is a way of measuring the percentage of reactive power in an electrical system. Reactiv...
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University.A ...
The proposed model automatically corrects the power factor without any human presence. Because of in...
The traditional approach to power factor correction (PFC) in industrial applications involves insta...
In this paper a Transformer less Hybrid Series Active Filter (THSeAF) employing a slippery mode mana...
The traditional approach to power factor correction (PFC) in industrial applications involves insta...