Conceptual Design and Hydrodynamic Performance of a Modular Hybrid Floating Foundation

Qu, Xiaobin; Yao, Yingxue; Du, Jianjun

doi:10.3390/en14227605

Cited by 3 publications

(1 citation statement)

References 20 publications

(20 reference statements)

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“…Electricity production was examined when the system was integrated by determining the technically most suitable optimum mixtures. Qu et al [28] designed a hybrid floating system utilizing a floating wind turbine, PV, and wave energy converters. The design incorporated a grid system to enhance the buoyancy of the floating foundation.…”

Section: Introductionmentioning

confidence: 99%

Investigation and Optimization of Integrated Electricity Generation from Wind, Wave, and Solar Energy Sources

Balta,

Yumurtaci

2024

Energies

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This study investigates the potential for renewable energy-based electricity generation using existing wave, wind, and solar energies in Türkiye. A significant part of Türkiye’s energy needs is still met using fossil fuels. Considering the country’s resources, renewable energy sources appear as an alternative source to meet these needs. The objective of this study is to find an effective, efficient, economical, environmentally friendly, and sustainable way to produce electricity to reach net-zero targets and transition towards low-carbon and carbon-free energy systems. To be able to make a deep investigation about the relevant issue, six provinces from different regions of Türkiye (Antalya, Çanakkale, İstanbul, İzmir, Kırklareli, and Muğla) are assessed in terms of wave, wind, and solar energy potential, including wave data, wind speeds, sunshine duration, and global radiation values. Wind, wave, and solar energy data of the selected regions were taken from the ERA5 database, which is the weather forecast model of the European Center for Medium-Term Weather Forecasts (ECMWF), and the Ministry of Energy and Natural Resources of the Republic of Türkiye and the General Directorate of Meteorology. Calculations were made using monthly data for the last 5 years. Considering the coastal lengths in the determined regions, the annual total electrical power produced from wave, solar, and wind energies was calculated. In these calculations, the coastal length parameter was assumed to be uniform across all cities, and the electrical power potential from these energy sources was analyzed. Within the framework of these analyses, the number of houses in the selected regions whose electricity needs can be met was calculated. As a result, the potential electrical power and the amount of affordable housing units in the selected regions were compared. As an important result of the studies, it was determined that the characteristic features of the selected regions, such as wavelength, wave height, and wind speed, were directly related to the applicable coast length. The power obtained from wave energy was higher than that from other renewable energy sources, considering the determined coast lengths. Wave energy was followed by parabolic solar collector, wind, and photovoltaic solar energy systems. According to the model, the power obtained from renewable energy systems was at the highest level in the Kırklareli/Demirköy province compared to other locations. Kırklareli was followed by İstanbul, Antalya, İzmir, Muğla, and Çanakkale. It was also found that the electricity needs of 763,578 houses were met in the Kırklareli/Demirköy region, and the electricity needs of 470,590 houses were met in the Çanakkale/Ayvacık region. The statistically optimized factors using the Response Surface Methodology (RSM) for wind, photovoltaic, parabolic solar collector, and wave power were reported as 995.278, 4529.743, 2264.546, and 276,495.09, respectively. The optimal factors aim to achieve a total electricity generation rate of 2.491 × 109 (kWh/year), a total number of houses of 682,590.55 (number/year), and a total cost of USD 813,940,876. In line with the results obtained, the Kırklareli/Demirköy region becomes favorable when considering wave and wave-integrated wind and solar energies. The proposed system has the potential to meet the entire electricity demand of the Kırklareli province based on data from the Republic of Türkiye Energy Market Regulatory Authority (EMRA).

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Section: Introductionmentioning

confidence: 99%

Investigation and Optimization of Integrated Electricity Generation from Wind, Wave, and Solar Energy Sources

Balta,

Yumurtaci

2024

Energies

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Evaluation of Floating Renewable Energy Potential for Sustainable Energy in Türkiye

DURMAZ

Üçgül

2023

Iğdır Üniversitesi Fen Bilimleri Enstitüsü Dergisi

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Energy is an increasing necessity due to the change in needs and the development of the industry with the rapid growth of the world's population. Today, the energy supply usually meet from non-renewable (fossil-based) sources. This situation causes adverse effects globally and a decrease in the fossil resources that future generations need. Sustainable, efficient, and clean energy will only be possible using renewable resources. Installation of renewable energy systems requires large areas, but suitable terrestrial for onshore are not always available. Therefore, in our country, it is necessary to increase floating renewable energy power plants. In the study, the offshore installation potential of solar, wind, and wave renewable energy required for sustainable energy production in Türkiye was examined. A qualitative evaluation was conducted for solar, wind, and wave energy generation. It has been concluded that coastal areas and stagnant water surfaces of Türkiye are suitable for the installation of floating energy systems. This study aims to emphasize the necessity of floating renewable energy systems for Türkiye. It also provides essential contributions to the studies to be carried out on floating energy systems in Türkiye.

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Türkiye Kıyı Bölgelerinde Yenilenebilir Enerji Santrali Uygulamaları İçin: Hibrit Yüzer Modüler Tasarım Önerileri

Cesur Durmaz,

Üçgül

2024

Afyon Kocatepe University Journal of Sciences and Engineering

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Çalışmada, temiz enerji üretiminde sürdürülebilirliğe katkı sağlamak için günümüz rüzgar ve güneş enerji teknolojisinin kullanıldığı, hibrit yüzer yenilenebilir enerji santrali tasarımı yapılmıştır. Türkiye’nin kıyı bölgelerini temsil eden 3 koordinat noktasına ait Global Wind Atlas ve Global Solar Atlas yazılımından elde edilen değerlere göre toplam enerji potansiyeli hesaplanmıştır. Küçük 6 tip (10x10 m2), orta 2 tip (20x20 m2) ve (30x30 m2), büyük 1 tip (60x60 m2) alana sahip toplam 9 tip modül geliştirilmiştir. Ancak küçük modül tipleri arasından açık deniz koşullarında altıgen platform yapının en uygun davranış sergileyecek olması ve üzerinde yakın toplam kurulu güç değerleri hesaplanmasından dolayı, küçük modül tip 5 için enerji hesapları yapılmıştır. Sonuçta, küçük modül tip 5, orta modül tip 1, orta modül tip 2 ve büyük modül tip 1’in 10’ar adet kullanımıyla bölgelere ait santral toplam enerji potansiyeli ve karşıladığı konut sayısı hesaplanmıştır. En yüksek santral toplam enerji potansiyeline Ege bölgesinin sahip olduğu sonucuna ulaşılarak, küçük modül tip 5 ile (1830 MWh/yıl) ~500 konutun, orta modül tip 1 ile (4370 MWh/yıl) ~1195 konutun, orta modül tip 2 ile (41930 MWh/yıl) ~11485 konutun, büyük modül tip 1 ile (183960 MWh/yıl) ~50400 konutun ihtiyacının karşılanabileceği ortaya konulmuştur. Aynı zamanda enerji santralinin açık deniz ortamından olumsuz etkilenmemesi için modül büyüklüklerine uygun öneri niteliğinde dalgakıran yapıları tasarlanmıştır.

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Conceptual Design and Hydrodynamic Performance of a Modular Hybrid Floating Foundation

Cited by 3 publications

References 20 publications

Investigation and Optimization of Integrated Electricity Generation from Wind, Wave, and Solar Energy Sources

Investigation and Optimization of Integrated Electricity Generation from Wind, Wave, and Solar Energy Sources

Evaluation of Floating Renewable Energy Potential for Sustainable Energy in Türkiye

Türkiye Kıyı Bölgelerinde Yenilenebilir Enerji Santrali Uygulamaları İçin: Hibrit Yüzer Modüler Tasarım Önerileri

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