Maximizing the Economic Benefits of a Grid-Tied Microgrid Using Solar-Wind Complementarity

Naeem, Aqsa; Hassan, Naveed Ul; Yuen, Chau; Muyeen, S. M.

doi:10.3390/en12030395

Cited by 28 publications

(11 citation statements)

References 52 publications

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“…[4] relates the reliability of a hybrid system with the complementarity between energy resources and Refs. [[5], [6], [7], [8]] present practical situations related to complementarity. This method article summarizes a method for the qualitative evaluation of spatial complementarity by means of complementarity roses.…”

Section: Methods Detailsmentioning

confidence: 99%

Qualitative evaluation of spatial complementarity between renewable energy resources with complementarity roses

Risso¹,

Beluco²,

Alves³

2019

MethodsX

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Section: Methods Detailsmentioning

confidence: 99%

Qualitative evaluation of spatial complementarity between renewable energy resources with complementarity roses

Risso¹,

Beluco²,

Alves³

2019

MethodsX

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show abstract

“…More recently, da Luz & Moura (2019) [90] created a model for optimizing the mix between solar, wind, hydro and biomass power, from a complementarity perspective, in order to supply Brazil's monthly and hourly load demand based on projections for the year 2050. Naeem et al (2019) [46] used the Pearson correlation coefficient for assessing solar-wind complementarity in an optimization model whose objective function aims at maximizing economic benefits of a microgrid, by means of exploiting such spatial and temporal energetic complementarity. Some other models dealing with optimization based on complementarity can be found in [42], [44], [68], [75], [91], [92], [93] and [94].…”

Section: Complementarity and Optimization Modelsmentioning

confidence: 99%

“…The most common purposes for calculating the Pearson correlation coefficient regarding energetic complementarity has been: 1) conducting an statistical analysis for evaluating if the renewable energies available in one region could allow the configuration of efficient power systems based on renewables ( [15], [17], [18], [19], [20], [21], [22], [23], [24], [25], [26], [27], [28], [29], [30], [31], [32], [33], [34]); 2) as a tool for improving the operation or planning of existing power plants or systems ( [12], [13], [35], [36], [37], [38]); 3) as part of the set of equations, parameters and inequalities in an optimization model ( [39], [40], [41], [42], [43], [44], [45], [46]).…”

Section: Pearson Correlation Coefficient (Simple Correlationrxy)mentioning

confidence: 99%

A review on the complementarity of renewable energy sources: Concept, metrics, application and future research directions

et al. 2020

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It is expected, and regionally observed, that energy demand will soon be covered by a widespread deployment of renewable energy sources. However, the weather and climate driven energy sources are characterized by a significant spatial and temporal variability. One of the commonly mentioned solutions to overcome the mismatch between demand and supply provided by renewable generation is a hybridization of two or more energy sources in a single power station (like wind-solar, solar-hydro or solar-wind-hydro). The operation of hybrid energy sources is based on the complementary nature of renewable sources. Considering the growing importance of such systems and increasing number of research activities in this area this paper presents a comprehensive review of studies which investigated, analyzed, quantified and utilized the effect of temporal, spatial and spatiotemporal complementarity between renewable energy sources. The review starts with a brief overview of available research papers, formulates detailed definition of major concepts, summarizes current research directions and ends with prospective future research activities. The review provides a chronological and spatial information with regard to the studies on the complementarity concept.

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“…Time series among several renewable resources are evaluated through the use of correlation coefficients, such as Pearson's correlation coefficient (PCC), Spearman's correlation coefficient, and Kendall's correlation coefficient [5]. In this work, PCC is applied to assess the degree of complementarity between wind and solar energies as it is a widely acceptable complementarity index [3,11,12,[42][43][44][45][46][47][48][49].…”

Section: Complementarity Indexmentioning

confidence: 99%

Combining Re-Analyzed Climate Data and Landcover Products to Assess the Temporal Complementarity of Wind and Solar Resources in Iraq

et al. 2021

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Considering the spatial–temporal variation of renewable energy (RE) resources, assessment of their complementarity is of great significance for decision-makers to increase the stability of power output and reduce the need for storage systems. In this regard, the current paper presents a roadmap to assess the temporal complementarity patterns between wind and solar resources for the first time in Iraq. A new approach based on re-analyzed climate data, Landcover products, and geographical information system (GIS) is proposed. As such, renewable resource datasets are collected for 759 locations with a daily timescale over five years. Landcover classes are translated into wind shear coefficients (WSCs) to model wind velocity at turbine hub height. Then, the Pearson correlation coefficient (PCC) is applied to calculate the complementarity indices for each month of the year. Results of this investigation reveal that there are significant synergy patterns spanning more than six months in the southwestern regions and some eastern parts of Iraq. The highest complementarity is observed in March and December with a value of −0.70 and −0.63, respectively. Despite this promising potential, no typical temporal complementarity has been discovered that would completely eliminate the fluctuations of clean power generation. However, the synergistic properties yielded by this work could mitigate the reliance on storage systems, particularly as they cover important regions of the country. The proposed approach and tools can help improve the planning of renewable energy systems.

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Maximizing the Economic Benefits of a Grid-Tied Microgrid Using Solar-Wind Complementarity

Cited by 28 publications

References 52 publications

Qualitative evaluation of spatial complementarity between renewable energy resources with complementarity roses

Qualitative evaluation of spatial complementarity between renewable energy resources with complementarity roses

A review on the complementarity of renewable energy sources: Concept, metrics, application and future research directions

Combining Re-Analyzed Climate Data and Landcover Products to Assess the Temporal Complementarity of Wind and Solar Resources in Iraq

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