E. Pyrgioti scite author profile

In the present study, a novel procedure is introduced for the optimal placement and arrangement of wind turbines in a wind park. In this approach a statistical and mathematical method is used, which is called 'Monte Carlo simulation method'. The optimization is made by the mean of maximum energy production and minimum cost installation criteria. As a test case, a square site is subdivided into 100 square cells that can be possible turbine locations and as a result, the program presents us the optimal arrangement of the wind turbines in the wind park, based on the Monte Carlo simulation method. The results of this study are compared to the results of previous studies that handle the same issue. r

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Ultrastable Natural Ester-Based Nanofluids for High Voltage Insulation Applications

Peppas

Bakandritsos

Charalampakos

et al. 2016

ACS Appl. Mater. Interfaces

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Nanofluids for high voltage insulation systems have emerged as a potential substitute for liquid dielectrics in industrial applications. Nevertheless, the sedimentation of nanoparticles has been so far a serious barrier for their wide and effective exploitation. The present work reports on the development and in-depth characterization of colloidally ultrastable natural ester oil insulation systems containing iron oxide nanocrystals which lift the problem of sedimentation and phase separation. Compared to state-of-the-art systems, the final product is endowed with increased dielectric strength, faster thermal response, lower dielectric losses (decreased dissipation factor: tan δ), and very high endurance during discharge stressing. The developed nanofluid was studied and compared with a similar system containing commercial iron oxide nanoparticles, the latter demonstrating extensive sedimentation. Herein, the dielectric properties of the nanofluids are analyzed at various concentrations by means of breakdown voltage and dissipation factor measurements. The characterization techniques unequivocally demonstrate the high performance reliability of the reported nanofluid, which constitutes a significant breakthrough in the field of high voltage insulation technologies.

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Statistical investigation of AC breakdown voltage of nanofluids compared with mineral and natural ester oil

Peppas

Charalampakos²,

Pyrgioti

et al. 2016

IET Science, Measurement & Technology

101

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Dielectric strength and stability of natural ester oil based TiO2 nanofluids

Κούτρας

Naxakis

Αντωνέλου

et al. 2020

Journal of Molecular Liquids

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Stochastic models of partial discharge activity in solid and liquid dielectrics

Куперштох

Karpov

Медведев

et al. 2007

IET Sci. Meas. Technol.

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A new model that can reproduce main stochastic features of partial discharge (PD) activity at AC and DC voltages was proposed. The type of PD activity because of microdischarges in small cavities present in dielectric materials was considered. Three different criteria were used to simulate an initiation of partial discharge inside voids. The simplest criterion of threshold type was used also to describe a decay of plasma in voids and subsequent decrease in conductivity to zero. After AC voltage was applied to solid dielectric, the narrow peaks of current in external circuit were observed in our simulations. Every peak corresponds to a moment of PD in a void. The behaviour of cavities in dielectric liquid under DC voltage was also simulated. In this case, PD activity is possible even under DC voltage because of both elongation of microbubbles present in a liquid and diffusion of charge carriers from the surface of a bubble into a liquid.

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E. Pyrgioti

Optimal placement of wind turbines in a wind park using Monte Carlo simulation

Ultrastable Natural Ester-Based Nanofluids for High Voltage Insulation Applications

Statistical investigation of AC breakdown voltage of nanofluids compared with mineral and natural ester oil

Dielectric strength and stability of natural ester oil based TiO2 nanofluids

Stochastic models of partial discharge activity in solid and liquid dielectrics

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