The paper introduces two definitions of instantaneous reactive power terms, which are conservative in every network and apply even under non-sinusoidal conditions. Both quantities coincide with usual reactive power for sinusoidal operation, however they assume a different meaning for distorted behaviour. The first one is an energy-related term, and its unbiased integral accounts for the average energy stored in the network. The second has a differential nature and is suitable for dynamic analysis and control of harmonic and reactive power sources acting in the network. The combined use of both approaches allows cooperative operation of static and dynamic reactive and harmonic compensators, like STATCOMs and Active Power Filters
An energy-related definition of reactive power is introduced first, which is conservative in every n...
The instantaneous reactive power theory was published 25 years ago, in an IEEE Transactions. Since t...
Transmission networks of modern power systems are becoming increasingly stressed because of growing ...
The paper introduces two definitions of instantaneous reactive power terms, which are conservative i...
An energy-related definition of reactive power is introduced first, which is conservative in every n...
The paper describes an approach to cooperative operation of a system of distributed harmonic and rea...
Reactive power compensation is the management of reactive power to improve the performance of an net...
Although the mechanism of electric energy flow for nonsinusoidal conditions is well described today,...
The paper presents a time-domain approach to current and voltage decomposition and power terms defin...
The paper presents a time-domain approach to current and voltage decomposition and power terms defin...
In this paper, the most significant definitions of reactive power in single-phase and three-phase th...
The dominant standard for transmitting and distributing power is the alternating current (ac) power ...
This chapter introduces most widely used reactive power compensators considering the recent advances...
A generalized theory of instantaneous reactive power for three-phase power systems is proposed in th...
The paper describes an approach to cooperative control of multiple active compensators acting in the...
An energy-related definition of reactive power is introduced first, which is conservative in every n...
The instantaneous reactive power theory was published 25 years ago, in an IEEE Transactions. Since t...
Transmission networks of modern power systems are becoming increasingly stressed because of growing ...
The paper introduces two definitions of instantaneous reactive power terms, which are conservative i...
An energy-related definition of reactive power is introduced first, which is conservative in every n...
The paper describes an approach to cooperative operation of a system of distributed harmonic and rea...
Reactive power compensation is the management of reactive power to improve the performance of an net...
Although the mechanism of electric energy flow for nonsinusoidal conditions is well described today,...
The paper presents a time-domain approach to current and voltage decomposition and power terms defin...
The paper presents a time-domain approach to current and voltage decomposition and power terms defin...
In this paper, the most significant definitions of reactive power in single-phase and three-phase th...
The dominant standard for transmitting and distributing power is the alternating current (ac) power ...
This chapter introduces most widely used reactive power compensators considering the recent advances...
A generalized theory of instantaneous reactive power for three-phase power systems is proposed in th...
The paper describes an approach to cooperative control of multiple active compensators acting in the...
An energy-related definition of reactive power is introduced first, which is conservative in every n...
The instantaneous reactive power theory was published 25 years ago, in an IEEE Transactions. Since t...
Transmission networks of modern power systems are becoming increasingly stressed because of growing ...