Sairaj V. Dhople scite author profile

Low-voltage distribution feeders were designed to sustain unidirectional power flows to residential neighborhoods. The increased penetration of roof-top photovoltaic (PV) systems has highlighted pressing needs to address power quality and reliability concerns, especially when PV generation exceeds the household demand. A systematic method for determining the active-and reactive-power set points for PV inverters in residential systems is proposed in this paper, with the objective of optimizing the operation of the distribution feeder and ensuring voltage regulation. Binary PV-inverter selection variables and nonlinear power-flow relations render the optimal inverter dispatch problem nonconvex and NP-hard. Nevertheless, sparsitypromoting regularization approaches and semidefinite relaxation techniques are leveraged to obtain a computationally feasible convex reformulation. The merits of the proposed approach are demonstrated using real-world PV-generation and load-profile data for an illustrative low-voltage residential distribution system.

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Optimal Regulation of Virtual Power Plants

Dall’Anese

Guggilam

Simonetto

et al. 2018

IEEE Trans. Power Syst.

146

115

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Synchronization of Nonlinear Oscillators in an LTI Electrical Power Network

Johnson

Dhople

Hamadeh

et al. 2014

IEEE Trans. Circuits Syst. I

105

101

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Scalable Optimization Methods for Distribution Networks With High PV Integration

Guggilam

Dall’Anese

Chen

et al. 2016

IEEE Trans. Smart Grid

144

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Uncovering Droop Control Laws Embedded Within the Nonlinear Dynamics of Van der Pol Oscillators

Sinha

Dörfler

Johnson

et al. 2017

IEEE Trans. Control Netw. Syst.

129

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Abstract-This paper examines the dynamics of powerelectronic inverters in islanded microgrids that are controlled to emulate the dynamics of Van der Pol oscillators. The general strategy of controlling inverters to emulate the behavior of nonlinear oscillators presents a compelling time-domain alternative to ubiquitous droop control methods which presume the existence of a quasi-stationary sinusoidal steady state and operate on phasor quantities. We present two main results in this work. First, by leveraging the method of periodic averaging, we demonstrate that droop laws are intrinsically embedded within a slower time scale in the nonlinear dynamics of Van der Pol oscillators. Second, we establish the global convergence of amplitude and phase dynamics in a resistive network interconnecting inverters controlled as Van der Pol oscillators. Furthermore, under a set of non-restrictive decoupling approximations, we derive sufficient conditions for local exponential stability of desirable equilibria of the linearized amplitude and phase dynamics.

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Oscillator-Based Inverter Control for Islanded Three-Phase Microgrids

Johnson

Dhople

Cale

et al. 2014

IEEE J. Photovoltaics

108

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Sairaj V. Dhople

Synchronization of Parallel Single-Phase Inverters With Virtual Oscillator Control

Synthesizing Virtual Oscillators to Control Islanded Inverters

Optimal dispatch of photovoltaic inverters in residential distribution systems

Optimal Regulation of Virtual Power Plants

Synchronization of Nonlinear Oscillators in an LTI Electrical Power Network

Scalable Optimization Methods for Distribution Networks With High PV Integration

Uncovering Droop Control Laws Embedded Within the Nonlinear Dynamics of Van der Pol Oscillators

Oscillator-Based Inverter Control for Islanded Three-Phase Microgrids

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