Performance analysis of wind generators and PV systems in industrial small-scale applications

Pinheiro, E.; Bandeiras, Filipe; Gomes, Mário; Coelho, Paulo; Fernandes, J.

doi:10.1016/j.rser.2019.04.074

Cited by 17 publications

(5 citation statements)

References 51 publications

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“…Research on microgeneration has started occupying more and more space in mature urban solutions over the last decade [18,19]. Kakran and Chanana [20] discussed the simulated use of energy management and balancing systems in individual homes alongside a small-scale wind generation unit.…”

Section: Literature Reviewmentioning

confidence: 99%

Wind Microgeneration Strategy for Meeting California’s Carbon Neutral Grid Goal

Niswander

Xydis

2022

Applied Sciences

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As California’s Renewables Portfolio Standard continues to phase power production from fossil fuels, carbon neutral sources will need to be implemented. This sets small-scale wind production and battery storage in a position to integrate into current grid infrastructure as means of production. This would be an “E Pluribus Unum” approach where many decentralized small production and storage units would act in combination to provide a stable grid. This is often referred to as distributed generation (DG). By distributing the grid’s production in this manner and designating predetermined regional hubs for control (in the event of a fractured grid due to natural disaster), the state and its residents will be able to maintain power for critical infrastructure and basic utilities. This work presents, in detail, a sustainable plan for achieving carbon neutral Californian grid by 2045.

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Section: Literature Reviewmentioning

confidence: 99%

Wind Microgeneration Strategy for Meeting California’s Carbon Neutral Grid Goal

Niswander

Xydis

2022

Applied Sciences

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“…In addition to the advantages previously described, this solar PV-wind turbine hybrid system still requires identification of placement or additional configuration of each component of the system. In addition to not interfering with the performance of both Solar PV systems and wind turbines [27], it also aims to obtain good cooling performance on Solar PV in order to increase its performance and efficiency. In this case, the PowerNEST configuration which uses a flat winglet deflector can increase wind speed by up to 1.4 times on the surface of the turbine, thereby significantly increasing wind energy output with an increase in power factor reaching 1.7 [28].…”

Section: Introductionmentioning

confidence: 99%

Performance analysis of flat winglet deflector on hybrid solar PV-Wind turbine system: Case study on twisted Savonius turbine

Hijriawan,

Arifin,

Tjahjana

et al. 2024

J Appl Eng Science

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The harnessing of clean energy from solar and wind constitutes the foremost renewable energy source in Indonesia. The amalgamation of these energy modalities holds the promise of heightened energy efficiency coupled with reduced maintenance expenditures. This investigation endeavors to synergize wind turbines with photovoltaic (PV) solar panels in a hybrid configuration, capitalizing on the turbulent effluent from the wind turbine system as a cooling medium for the solar PV panels. Further studies are needed regarding the Solar PV-Wind Turbine hybrid cooling system, as a system needs to be designed to optimize the direction of airflow from the turbine as a cooling medium for the solar PV panels without compromising the turbine's performance. Experimental-scale modeling is implemented in this study, introducing a flat winglet deflector configuration to refine and optimize the airflow dynamics traversing the turbine, directed towards enhancing the performance of the integrated solar PV-Wind Turbine hybrid system. The results showed that the installation of solar PV panels and the addition of a flat winglet deflector configuration could improve the performance of the turbine. The highest Cp and Ct values obtained were 0.18476 and 0.66404 with an increased value of 21.74% and 20.56% respectively. Using the Taguchi method, the most optimal configuration for Cp is obtained for installing a PV solar panel with a height of 10cm with AoA for installing a flat winglet deflector of 5°. In the ANOVA analysis conducted, it is known that AoA has an effect of up to 71.57%, while the panel height has an effect of 24.69% with an error percentage of 3.73%.

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“…Especially, with the continuous development of modern society, some new social needs and technology also affect the implementation effect of the scientific innovation model for art students in colleges. Moreover, the quantitative analysis for the implementation effect of this model still needs to be further deepened, although there are currently some methods of performance analysis [12][13][14][15], and each has a corresponding scope of application. Based on existing research results, this paper attempts to explore the implementation strategies of the scientific innovation model for art students in colleges.…”

Section: Introductionmentioning

confidence: 99%

A Fuzzy Information Evaluation Model for Scientific Innovation of Art Talents in Colleges

Kong

2020

Int. J. Emerg. Technol. Learn.

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In most colleges, the current scientific innovation model for art talents is not well implemented. Besides, it is a complex task to evaluate the effect of the said model. To solve the problems, this paper attempts to renovate the scientific innovation model for art talent in colleges. Firstly, the authors identified the problems in the current scientific innovation model for art talent training in colleges, and put forward several countermeasures. To evaluate the scientific innovation model, the performance indicators were selected and weighted based on analytical hierarchy analysis (AHP). Next, a fuzzy information evaluation model was established based on the weighted indicators. The research results provide strong supports to the scientific innovation of art talents in colleges.

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Performance analysis of wind generators and PV systems in industrial small-scale applications

Cited by 17 publications

References 51 publications

Wind Microgeneration Strategy for Meeting California’s Carbon Neutral Grid Goal

Wind Microgeneration Strategy for Meeting California’s Carbon Neutral Grid Goal

Performance analysis of flat winglet deflector on hybrid solar PV-Wind turbine system: Case study on twisted Savonius turbine

A Fuzzy Information Evaluation Model for Scientific Innovation of Art Talents in Colleges

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