Analysis of Grid Disturbances Caused by Massive Integration of Utility Level Solar Power Systems

Soto, Esteban A.; Bosman, Lisa; Wollega, Ebisa; Leon-Salas, Walter D.

doi:10.3390/eng3020018

Cited by 10 publications

(9 citation statements)

References 40 publications

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“…Although BEVs and PHEVs do not release emissions, many use grid-connected charging stations that generate a significant percentage of their energy from fossil fuels, which results in critical demand surges in the electrical system [28]. This research builds upon previous studies conducted by the authors [29], extending the examination to the incorporation of solar power facilities within the US at the Balancing Authority level, and its effectiveness in diminishing emissions from fossil fuels. It specifically focuses on the main goal of reducing emissions from fossil fuels.…”

Section: Introductionmentioning

confidence: 91%

“…The guiding research question is as follows: How does the massive integration of solar power plants impact fossil fuel emission reductions in the US electrical system? By leveraging foundational work in grid disturbances and renewable energy integration [29], this study aims to provide new insights into the scalability and efficiency of solar power systems in reducing fossil fuel dependence.…”

Section: Introductionmentioning

confidence: 99%

“…Energy generation by region and sources before and after the integration of the hypothetical solar plants at 100% capacity[29].…”

mentioning

confidence: 99%

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Reduction in Emissions by Massive Solar Plant Integration in the US Power Grid

Soto,

Wollega,

Vizcarrondo Ortega

et al. 2024

Energies

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Fossil fuels, the predominant energy source in the United States, have been identified as major contributors to environmental pollution through the release of harmful emissions. As a countermeasure, there has been an increasing focus on the exploration and development of cleaner energy alternatives to alleviate the environmental degradation caused by fossil fuels and to satisfy the growing energy needs. This study conducted scenario analyses to evaluate the impact of integrating solar energy into specific US power grids on reducing carbon emissions. The analysis encompassed electrical systems within California, New England, New York, and the Southwest, utilizing datasets from the Energy Information Administration and National Renewable Energy Laboratory. The Energy Information Administration dataset includes information on net generation according to each source and carbon emissions according to fuel type, whereas the National Renewable Energy Laboratory dataset provides hourly projections for 6000 theoretical photovoltaic installations and detailed solar energy output data every five minutes over a year. Our findings indicated a notable decrease in carbon dioxide emissions following the introduction of solar power facilities. The most significant reductions were observed in the Southwest and California, attributed to solar plant integration. Conversely, New York and New England were identified as regions requiring additional policy measures and incentives to meet the emission reduction goals.

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Section: Introductionmentioning

confidence: 91%

Section: Introductionmentioning

confidence: 99%

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Reduction in Emissions by Massive Solar Plant Integration in the US Power Grid

Soto,

Wollega,

Vizcarrondo Ortega

et al. 2024

Energies

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“…The intermittent nature of non-dispatchable generation results in unpredictable voltage, current, and frequency profile deviations causing power fluctuations and imbalances in the grid [38]. Distributed energy sources could inject or draw large leading or lagging reactive power and affect the offset load current, voltage drop, and power quality of the grid, thereby increasing harmonics, DC injections and flickers [39]. Furthermore, distributed energy sources can have a variety of effects on the short-circuit current leading to improper protective device coordination and unintended islanding in microgrids, causing equipment damage and delay in service restoration [40].…”

Section: Need Of Sensors In Transmission and Distribution Systemsmentioning

confidence: 99%

Sensor Technologies for Transmission and Distribution Systems: A Review of the Latest Developments

et al. 2022

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The transmission and distribution systems are essential in facilitating power flow from the source multiple loads over large distances with high magnitudes of voltages and currents. Hence, the monitoring and control of various components of these structures are crucial. Traditionally, this was implemented by sensing only the grid current and grid voltage parameters through coils, clamps, or instrument transformers. However, these have bulky structures that restrict them to the substation and have installation and maintenance issues due to their direct contact with high voltage conductors. Currently, the power grid is undergoing various developments e.g., penetration of renewable energy sources, remote control, and automation, bidirectional power flow, etc. These developments call for compact and energy-efficient sensors to sense multiple grid parameters such as the magnetic field data, temperature, humidity, acoustics, etc., to enable real time, wide area monitoring and the predictive maintenance of the power grid. The goal of this paper is to summarize the advancements in sensing technologies on transmission and distribution systems over a decade and to explain their role in the forthcoming expansion of the power grids. This paper aims to outline the current state-of-affairs of sensor technology as well as to fill research gaps by exploring their limitations.

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“…In the case of residential zones, Fachrizal et al [81] showed that PV and EV exhibit a positive correlation for hosting capacity. Finally, Esteban et al [82] discussed grid disturbances associated with solar energy generation. They showed California's and Southwest's USA net (hourly) energy generation and demand and the energy imbalance taking place in these states with the largest solar energy production.…”

Section: Grid Connectivity and Managementmentioning

confidence: 99%

The Role of Computational Science in Wind and Solar Energy: A Critical Review

Drikakis

Dbouk

2022

Energies

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This paper concerns technology challenges for the wind and solar sectors and the role of computational science in addressing the above. Wind energy challenges include understanding the atmospheric flow physics, complex wakes and their interaction with wind turbines, aeroelastic effects and the associated impact on materials, and optimisation of wind farms. Concentrated solar power technologies require an optimal configuration of solar dish technology and porous absorber in the volumetric solar receiver for efficiency and durability and to minimise the convective heat losses in the receiver. Computational fluid dynamics and heat transfer have advanced in terms of numerical methods and physics-based models and their implementation in high-performance computing facilities. Despite this progress, computational science requires further advancement to address the technological challenges of designing complex systems accurately and efficiently, as well as forecasting the system’s performance. Machine Learning models and optimisation techniques can maximise the performance of simulations and quantify uncertainties in the wind and solar energy technologies. However, in a similar vein, these methods require further development to reduce their computational uncertainties. The need to address the global energy challenges requires further investment in developing and validating computational science methods and physics-based models for accurate and numerically efficient predictions at different scales.

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Analysis of Grid Disturbances Caused by Massive Integration of Utility Level Solar Power Systems

Cited by 10 publications

References 40 publications

Reduction in Emissions by Massive Solar Plant Integration in the US Power Grid

Reduction in Emissions by Massive Solar Plant Integration in the US Power Grid

Sensor Technologies for Transmission and Distribution Systems: A Review of the Latest Developments

The Role of Computational Science in Wind and Solar Energy: A Critical Review

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