Temitayo O. Olowu scite author profile

Integration of high volume (high penetration) of photovoltaic (PV) generation with power grids consequently leads to some technical challenges that are mainly due to the intermittent nature of solar energy, the volume of data involved in the smart grid architecture, and the impact power electronic-based smart inverters. These challenges include reverse power flow, voltage fluctuations, power quality issues, dynamic stability, big data challenges and others. This paper investigates the existing challenges with the current level of PV penetration and looks into the challenges with high PV penetration in future scenarios such as smart cities, transactive energy, proliferation of plug-in hybrid electric vehicles (PHEVs), possible eclipse events, big data issues and environmental impacts. Within the context of these future scenarios, this paper reviewed the existing solutions and provides insights to new and future solutions that could be explored to ultimately address these issues and improve the smart grid's security, reliability and resiliency.

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Optimal Smart Inverters Volt-VAR Curve Selection with a Multi-Objective Volt-VAR Optimization using Evolutionary Algorithm Approach

Jafari

Olowu

Sarwat³

2018

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Flicker Estimation Associated with PV Integrated Distribution Network

Rahman

Moghaddami

Sarwat

et al. 2018

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A Multi-Objective Optimization Technique for Volt-Var Control with High PV Penetration using Genetic Algorithm

Olowu

Jafari

Sarwat

2018

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Case study on the effects of partial solar eclipse on distributed PV systems and management areas

Sundararajan¹,

Olowu²,

Wei³

et al. 2019

IET Smart Grid

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Photovoltaic (PV) systems depend on irradiance, ambient temperature and module temperature. A solar eclipse causes significant changes in these parameters, thereby impacting PV generation profile, performance, and power quality of larger grid where they connect to. This paper presents a case study to evaluate the impacts of the solar eclipse of August 21, 2017 on two real-world grid-tied PV systems (1.4MW and 355kW) in Miami and Daytona, Florida, the feeders they are connected to, and the management areas they belong to. Four types of analyses are conducted to obtain a comprehensive picture of the impacts using 1-minute PV generation data, hourly weather data, real feeder parameters, and daily reliability data. These analyses include: individual PV system performance measurement using power performance index; power quality analysis at the point of interconnection; a study on the operation of voltage regulating devices on the feeders during eclipse peak using an IEEE 8500 test case distribution feeder; and reliability study involving a multilayer perceptron framework for forecasting system reliability of the management areas. Results from this study provide a unique insight into how solar eclipses impact the behavior of PV systems and the grid, which would be of concern to electric utilities in future high penetration scenarios.

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Temitayo O. Olowu

Future Challenges and Mitigation Methods for High Photovoltaic Penetration: A Survey

Optimal Smart Inverters Volt-VAR Curve Selection with a Multi-Objective Volt-VAR Optimization using Evolutionary Algorithm Approach

Flicker Estimation Associated with PV Integrated Distribution Network

A Multi-Objective Optimization Technique for Volt-Var Control with High PV Penetration using Genetic Algorithm

Case study on the effects of partial solar eclipse on distributed PV systems and management areas

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