The intent of the study detailed in this paper is to demonstrate the benefits of inverter var control on a fast timescale to mitigate rapid and large voltage fluctuations due to the high penetration of photovoltaic generation and the resulting reverse power flow. Our approach is to formulate the volt/var control as a radial optimal power flow (OPF) problem to minimize line losses and energy consumption, subject to constraints on voltage magnitudes. An efficient solution to the radial OPF problem is presented and used to study the structure of optimal inverter var injection and the net benefits, taking into account the additional cost of inverter losses when operating at non-unity power factor. This paper will illustrate how, depending on th...
The rapid uptake of residential photovoltaic (PV) systems is causing serious power quality issues ...
The distribution systems are increasingly challenged by the continued prevalence of distributed ener...
Volt-VAr optimization (VVO) is important in a distribution system as the performance of the entire n...
Abstract—The intent of the study detailed in this paper is to demonstrate the benefits of inverter v...
The addition of renewable generation, such as PV's, throughout a distribution circuit, create signif...
Motivated by the need to cope with rapid and random fluctuations of renewable generation, we present...
High reactive power fluctuations in Low-Voltage (LV) distribution systems may negatively impact the ...
Rapid and substantial voltage changes can occur in distribution networks with a high pen- etration o...
The rapid uptake of residential photovoltaic (PV); systems is causing serious power quality issues s...
The increasing amount of photovoltaic (PV) generation results in a reverse power flow and a violatio...
This paper proposes a novel three-stage robust inverter-based voltage/var control (TRI-VVC) approach...
We show how an adaptive control algorithm can improve the performance of distributed reactive power ...
Existing electric distribution systems are designed to deliver power from distribution substations t...
Accommodating a high penetration of intermittent photovoltaic (PV) in distribution systems can poten...
High photovoltaic (PV) system generation in low-voltage feeders can cause voltage rise especially in...
The rapid uptake of residential photovoltaic (PV) systems is causing serious power quality issues ...
The distribution systems are increasingly challenged by the continued prevalence of distributed ener...
Volt-VAr optimization (VVO) is important in a distribution system as the performance of the entire n...
Abstract—The intent of the study detailed in this paper is to demonstrate the benefits of inverter v...
The addition of renewable generation, such as PV's, throughout a distribution circuit, create signif...
Motivated by the need to cope with rapid and random fluctuations of renewable generation, we present...
High reactive power fluctuations in Low-Voltage (LV) distribution systems may negatively impact the ...
Rapid and substantial voltage changes can occur in distribution networks with a high pen- etration o...
The rapid uptake of residential photovoltaic (PV); systems is causing serious power quality issues s...
The increasing amount of photovoltaic (PV) generation results in a reverse power flow and a violatio...
This paper proposes a novel three-stage robust inverter-based voltage/var control (TRI-VVC) approach...
We show how an adaptive control algorithm can improve the performance of distributed reactive power ...
Existing electric distribution systems are designed to deliver power from distribution substations t...
Accommodating a high penetration of intermittent photovoltaic (PV) in distribution systems can poten...
High photovoltaic (PV) system generation in low-voltage feeders can cause voltage rise especially in...
The rapid uptake of residential photovoltaic (PV) systems is causing serious power quality issues ...
The distribution systems are increasingly challenged by the continued prevalence of distributed ener...
Volt-VAr optimization (VVO) is important in a distribution system as the performance of the entire n...