Regional Study of Changes in Wind Power in the Indian Shelf Seas over the Last 40 Years

Kumar, V. Sanil; Asok, Aswathy B.; George, Jesbin; Amrutha, M. M.

doi:10.3390/en13092295

Cited by 13 publications

(12 citation statements)

References 30 publications

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“…The mean wind power densities in the offshore regions are relatively higher than those in the onshore regions (Figure 5c). These are consistent with the mean wind power estimated along the coastal regions of a few marginal seas and along the Indian coasts [16,71]. More specifically, the mean wind power densities in the offshore regions of Al Ruwais, Ras Laffan, Doha, and Dukhan are 186, 165, 147, and 136 W/m 2 , respectively (Table 2).…”

Section: The Annual and Decadal Wind Powersupporting

confidence: 85%

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Long-Term Assessment of Onshore and Offshore Wind Energy Potentials of Qatar

et al. 2021

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Exploitation of conventional energy resources has caused a deliberate increase in the emitted carbon in the atmosphere, which catalyzes global warming trends. This is a matter of concern, especially in Qatar, where fossil fuels (oil and gas) are largely relied upon for power production. The dependency on such resources could be gradually reduced by utilizing clean and renewable energy. Resource characterization is an important step to evaluate the potentiality of available renewable energy sources. Wind energy is one among them, which has not been assessed reliably so far in Qatar. We analyzed the wind energy potential along the onshore and offshore areas of Qatar using 40 years (1979–2018) of hourly wind data extracted from the ECMWF Reanalysis v5 (ERA5) database. Monthly, seasonal, annual, and decadal mean wind power densities have been derived. Reliability tests have been carried out at select onshore and offshore locations. Trends and inter-annual variability have been assessed. The study reveals that the available wind resources are generally moderate but consistent with no intense trends during the 40 year period. An inter-annual variability in wind power has been identified, which has secured links with the El Niño–Southern Oscillation (ENSO).

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Section: The Annual and Decadal Wind Powersupporting

confidence: 85%

“…The ERA5 winds were validated with measurements in the Gulf, and a correlation coefficient of 0.95 and bias of 0.07 were obtained [51]. A few recent works utilized ERA5 winds for the wind climate and energy assessment studies [8,16,51].…”

Section: Methodsmentioning

confidence: 98%

Long-Term Assessment of Onshore and Offshore Wind Energy Potentials of Qatar

et al. 2021

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“…After modelling the test systems using MATLAB/Simulink (version 2019 developed by MathWorks, Natick, MA, USA) the short circuit current value was obtained at the PCC of each system. The I sc values were obtained and then the grid's SCC was calculated using (1). Finally, the SCR value was given by (2) regarding the amount of power injected by the wind farm in each test system.…”

Section: Methodsmentioning

confidence: 99%

“…Wind power is one of the most abundant, sustainable, cost effective and clean fuel energy sources [1,2]. The majority of small wind farms are being connected to distribution networks [3].…”

Section: Introductionmentioning

confidence: 99%

Developing a Mathematical Model for Wind Power Plant Siting and Sizing in Distribution Networks

et al. 2020

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Wind Power Plants (WPPs) are generally located in remote areas with weak distribution connections. Hence, the value of Short Circuit Capacity (SCC), WPP size and the short circuit impedance angle ratio (X/R) are all very critical in the voltage stability of a distribution system connected WPP. This paper presents a new voltage stability model based on the mathematical relations between voltage, the level of wind power penetration, SCC and X/R at a given Point of Common Coupling (PCC) of a distribution network connected WPP. The proposed model introduces six equations based on the SCC and X/R values seen from a particular PCC point. The equations were developed for two common types of Wind Turbine Generators (WTGs), including: the Induction Generator (IG) and the Double Fed Induction Generator (DFIG). Taking advantage of the proposed equations, design engineers can predict how the steady-state PCC voltage will behave in response to different penetrations of IG- and DFIG-based WPPs. In addition, the proposed equations enable computing the maximum size of the WPP, ensuring grid code requirements at the given PCC without the need to carry out complex and time-consuming computational tasks or modelling of the system, which is a significant advantage over existing WPP sizing approaches.

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“…Wind speeds from ERA5 have been subject to extensive evaluation and are generally seen as exhibiting fidelity relative to independent observations [41][42][43][44][45]. ERA5 output have been used to estimate wind resources in the U.S. [44], global extreme wind speeds [22], the Spanish near-shore [46] and over the Indian shelf seas [47]. ERA5 wind speeds have approximately 20% lower errors than MERRA compared with aggregated wind generation in five countries [41].…”

Section: Era5mentioning

confidence: 99%

Extreme Wind and Waves in U.S. East Coast Offshore Wind Energy Lease Areas

et al. 2021

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The Outer Continental Shelf along the U.S. east coast exhibits abundant wind resources and is now a geographic focus for offshore wind deployments. This analysis derives and presents expected extreme wind and wave conditions for the sixteen lease areas that are currently being developed. Using the homogeneous ERA5 reanalysis dataset it is shown that the fifty-year return period wind speed (U50) at 100 m a.s.l. in the lease areas ranges from 29.2 to 39.7 ms−1. After applying corrections to account for spectral smoothing and averaging period, the associated pseudo-point U50 estimates are 34 to 46 ms−1. The derived uncertainty in U50 estimates due to different distributional fitting is smaller than the uncertainty associated with under-sampling of the interannual variability in annual maximum wind speeds. It is shown that, in the northern lease areas, annual maximum Swind speeds are generally associated with intense extratropical cyclones rather than cyclones of tropical origin. Extreme wave statistics are also presented and indicate that the 50-year return period maximum wave height may substantially exceed 15 m. From this analysis, there is evidence that annual maximum wind speeds and waves frequently derive from the same cyclone source and often occur within a 6 h time interval.

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Regional Study of Changes in Wind Power in the Indian Shelf Seas over the Last 40 Years

Cited by 13 publications

References 30 publications

Long-Term Assessment of Onshore and Offshore Wind Energy Potentials of Qatar

Long-Term Assessment of Onshore and Offshore Wind Energy Potentials of Qatar

Developing a Mathematical Model for Wind Power Plant Siting and Sizing in Distribution Networks

Extreme Wind and Waves in U.S. East Coast Offshore Wind Energy Lease Areas

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