Add to ORKGThis paper investigates the effect of DG, with and without reactive power control, on power losses in LV distribution feeders. The effect of load and feeder parameters, DG location and power factor is considered. A calculation method is presented and explained in detail, which proves to give accurate results as compared with one commercial load flow program. Moreover, simplified expressions are derived, which can be used to calculate the most appropriate size of DG unit during planning and/or to select the most appropriate mode of operation (active power generated) for an existing DG unit
Distributed Generator (DG) can cause over-voltages as well as under-voltages, depending on several f...
Distributed Generation (DG) has become an essential part of the smart grids due to the widespread in...
In this thesis, the impact of distributed generation (DG) on steady state operation and control of p...
This paper discusses the effect of DG on voltage profile of LV distribution feeder. Two methods for ...
This paper discusses the effect of DG on voltage profile of LV distribution feeder. Two methods for ...
Distributed Generation (DG) operating in a distribution network influences active power losses. In t...
This paper presents voltage and reactive power control methods in distribution systems in the presen...
This paper presents voltage and reactive power control methods in distribution systems in the presen...
The interest in integration of Distributed Generation (DG) at the low and medium voltage distributio...
This paper presents the enhancement and impacts of the system losses, voltage profile and cost by us...
Dispersed small distributed generation (DG) systems in low-voltage (LV) grids pose diverse challenge...
Integration of distributed generation (DG) units in power distribution network has become increasing...
Integration of distributed generation (DG) units in power distribution network has become increasing...
Distributed Generators that use reactive power for voltage control in distribution networks reduce r...
The introduction of distributed generation (DG) affects the operational characteristics of the distr...
Distributed Generator (DG) can cause over-voltages as well as under-voltages, depending on several f...
Distributed Generation (DG) has become an essential part of the smart grids due to the widespread in...
In this thesis, the impact of distributed generation (DG) on steady state operation and control of p...
This paper discusses the effect of DG on voltage profile of LV distribution feeder. Two methods for ...
This paper discusses the effect of DG on voltage profile of LV distribution feeder. Two methods for ...
Distributed Generation (DG) operating in a distribution network influences active power losses. In t...
This paper presents voltage and reactive power control methods in distribution systems in the presen...
This paper presents voltage and reactive power control methods in distribution systems in the presen...
The interest in integration of Distributed Generation (DG) at the low and medium voltage distributio...
This paper presents the enhancement and impacts of the system losses, voltage profile and cost by us...
Dispersed small distributed generation (DG) systems in low-voltage (LV) grids pose diverse challenge...
Integration of distributed generation (DG) units in power distribution network has become increasing...
Integration of distributed generation (DG) units in power distribution network has become increasing...
Distributed Generators that use reactive power for voltage control in distribution networks reduce r...
The introduction of distributed generation (DG) affects the operational characteristics of the distr...
Distributed Generator (DG) can cause over-voltages as well as under-voltages, depending on several f...
Distributed Generation (DG) has become an essential part of the smart grids due to the widespread in...
In this thesis, the impact of distributed generation (DG) on steady state operation and control of p...