Motivated by the need to cope with rapid and random fluctuations of renewable generation, we presents a model that augments the traditional Volt/VAR control through switched controllers on a slow timescale with inverter control on a fast timescale. The optimization problem is generally nonconvex and therefore hard to solve. We propose a simple convex relaxation and prove that it is exact provided over-satisfaction of load is allowed. Hence Volt/VAR control over radial networks is efficiently solvable. Simulations of a real-world distribution circuit illustrates that the proposed inverter control achieves significant improvement over the IEEE 1547 standard in terms of power quality and power savings
This paper proposes a distributed data-driven distributionally robust volt/var control (DDDR-VVC) ap...
Nowadays, the diffusion of renewable energy sources and electric vehicles are turning the traditiona...
Existing electric distribution systems are designed to deliver power from distribution substations t...
Motivated by the need to cope with rapid and random fluctuations of renewable generation, we present...
The intent of the study detailed in this paper is to demonstrate the benefits of inverter var contro...
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...
We show how an adaptive control algorithm can improve the performance of distributed reactive power ...
The currently deployed volt-var infrastructure for voltage optimization in distribution networks wou...
This paper presents a fully distributed algorithm for the stochastic Volt/VAr control (VVC) problem ...
Inverter-based local volt/var control forms a closed-loop dynamical system whereby the measured volt...
The inevitable growing demand for electrical power, depleting sources of conventional power generati...
The increasing penetration of renewable and distributed energy resources in distribution networks ca...
This paper proposes a completely non-centralized Volt/VAr control (VVC) algorithm for active distrib...
We consider a class of local volt/var control schemes where the control decision on the reactive pow...
This paper proposes a distributed data-driven distributionally robust volt/var control (DDDR-VVC) ap...
Nowadays, the diffusion of renewable energy sources and electric vehicles are turning the traditiona...
Existing electric distribution systems are designed to deliver power from distribution substations t...
Motivated by the need to cope with rapid and random fluctuations of renewable generation, we present...
The intent of the study detailed in this paper is to demonstrate the benefits of inverter var contro...
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...
We show how an adaptive control algorithm can improve the performance of distributed reactive power ...
The currently deployed volt-var infrastructure for voltage optimization in distribution networks wou...
This paper presents a fully distributed algorithm for the stochastic Volt/VAr control (VVC) problem ...
Inverter-based local volt/var control forms a closed-loop dynamical system whereby the measured volt...
The inevitable growing demand for electrical power, depleting sources of conventional power generati...
The increasing penetration of renewable and distributed energy resources in distribution networks ca...
This paper proposes a completely non-centralized Volt/VAr control (VVC) algorithm for active distrib...
We consider a class of local volt/var control schemes where the control decision on the reactive pow...
This paper proposes a distributed data-driven distributionally robust volt/var control (DDDR-VVC) ap...
Nowadays, the diffusion of renewable energy sources and electric vehicles are turning the traditiona...
Existing electric distribution systems are designed to deliver power from distribution substations t...