Can 100% renewable power system be successfully built?

Can 100% renewable power system be successfully built?

Global warming has been a critical issue in recent years. Many leaders and politicians have talked about replacing fossil fuels with Renewable Energy Resources (RES). Some of them even went further and are talking about running a country with 100% RES soon. Is that economically viable? What would be...

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Bibliographic Details
Published in:Renewable energy Vol. 177; pp. 715 - 722
Main Authors: DaneshvarDehnavi, Saeed, Negri, Cesar A., Giesselmann, Michael G., Bayne, Stephen B., Wollenberg, Bruce
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-11-2021
Subjects:
100% Renewable
BESS
Monte Carlo simulation
Renewable energy resources
Solar energy
Wind energy
100% Renewable
Wind energy
BESS
Renewable energy resources
Monte Carlo simulation
Solar energy
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Summary:Global warming has been a critical issue in recent years. Many leaders and politicians have talked about replacing fossil fuels with Renewable Energy Resources (RES). Some of them even went further and are talking about running a country with 100% RES soon. Is that economically viable? What would be the estimated cost of such a system? In this paper, a city in west Texas with a 100 MW peak load has been assumed to operate with the wind, solar, and Battery Energy Storage System (BESS) totally disconnected from the grid for a cost evaluation. Real generation and load time series data are used to achieve an optimum combination of the installed capacity of those resources by minimizing the total overnight cost, respecting a maximum of 24 h of faults in which the system cannot provide the load during the period. A Monte Carlo simulation is applied to the previous results to evaluate the influence of faulty devices and increase the robustness of the system. The results for both cases are analyzed and compared. Finally, the total cost of install capacity will be compared with other non-renewable resources. •Challenges of 100% isolated renewable system with wind, solar, and battery.•Algorithm to optimize the size and cost of system elements.•Effects of equipment failures for the designed system reliability.•Viability of the 100% system compared with other available technologies.
ISSN:0960-1481
1879-0682
DOI:10.1016/j.renene.2021.06.002