Beneficial role of diurnal smoothing for grid integration of wind power

Gangopadhyay, Anasuya; Seshadri, Ashwin K; Toumi, Ralf

doi:10.1088/1748-9326/aca9e6

Cited by 4 publications

(2 citation statements)

References 21 publications

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“…The co-variability of generation with demand for electrical energy is another dynamic factor not considered here, and other work has noted how the anti-phasing between wind generation and air temperatures in India contributes to enhanced variability in electricity demand net of wind generation on intra-seasonal timescales [83]. However, other studies have suggested possible compensatory generation from solar PV on diurnal [84] and seasonal timescales [33], with the phasing of the annual cycle of wind and solar PV generation particularly advantageous in the South of India [85]. Further investigation of potential balancing between these two sources is warranted, given the importance of wind and solar PV technologies within India's national renewable targets.…”

Section: Discussionmentioning

confidence: 97%

The role of repowering India’s ageing wind farms in achieving net-zero ambitions

Norman,

Maycock,

Troccoli

et al. 2024

Environ. Res. Lett.

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India’s ambitious net-zero climate goals include plans for a four-fold increase in current levels of wind energy generation by 2030. Many existing wind farms in India occupy sites with the best wind resources nationally but use older, smaller turbines that achieve lower capacity factors compared to modern turbine designs. A strategy of replacing existing wind turbines with state-of-the-art models (termed repowering) could boost capacity factors and ensure maximal use of available wind resources. However, a nationwide assessment of the potential wind generation increases resulting from repowering is currently lacking for India. Here, we present the first validated synthetic wind generation dataset for India based on reanalysis data and show that full repowering of the existing fleet of wind turbines could boost capacity factors by 82% nationwide (from 0.19 to 0.35). Our assessment of attainable capacity factors under full repowering exceeds equivalent estimates within the National Electricity Plan of India and national decarbonisation pathways compiled by the Intergovernmental Panel on Climate Change, suggesting less total installed capacity is required to achieve specific generation outcomes than previously estimated. Ongoing technological progress, leading to increased turbine dimensions, will drive capacity factors beyond the levels estimated here, which could further add to the generation benefits of repowering. Yet, despite the higher average output from a repowered fleet of wind generators, substantial variability in generation across timescales persists, highlighting the increasing need for power system flexibility within a decarbonised energy system.

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Section: Discussionmentioning

confidence: 97%

The role of repowering India’s ageing wind farms in achieving net-zero ambitions

Norman,

Maycock,

Troccoli

et al. 2024

Environ. Res. Lett.

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“…Another innovative approach involves co-locating offshore wind and wave power to mitigate variability in individual renewable energy sources 26 . The role of diurnal smoothing, influenced by spatial variations in wind speed timing, has also been explored 27 . Moreover, there are several proposals for producing hydrogen as an ancillary service to address offshore wind power variability and facilitate further expansion both from researchers 28 , 29 .…”

Section: Introductionmentioning

confidence: 99%

Correlation challenges for North Sea offshore wind power: a Norwegian case study

Hjelmeland,

Nøland

2023

Sci Rep

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Offshore wind power projects are currently booming around the North Sea. However, there are inherent correlation challenges between wind farms in this area, which has implications for the optimal composition of locations and the scale-up of installed capacities. This paper is aimed at addressing the correlation problem by minimizing the variance of total wind power accumulated around the North Sea. We show that this nonlinear convex optimization problem can be solved by applying the Augmented Lagrangian Algorithm (ALA). The premise of the study is that more interconnections between the EU countries will be prioritized in order to optimize and smooth out the wind power production patterns. A publicly available dataset with historical hour-by-hour data spanning over 20 years was used for the analysis. We explore two distinct scenarios for Norwegian offshore wind development. In the first scenario, we consider the ongoing activities on the European continental side of the North Sea and their implications for Norway. Here, we illustrate the advantages of focusing on expanding wind power capacity in the northern regions of Norway to enhance the overall value of the generated wind power. In contrast, the second reference scenario neglects these interconnections, resulting in a significantly greater concentration of offshore wind development in the southern parts of Norway, particularly in Sørlige Nordsjø II. Additionally, our work estimates the wind power correlation coefficient in the North Sea as a function of distance. Furthermore, we analyze deviations and intermittencies in North Sea wind power over various time intervals, emphasizing that the perceived integration challenges are highly dependent on the chosen time resolution in the analysis.

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Research on deep peaking cost allocation mechanism considering peaking demand subject and thermal power unit

Zhang,

Jin,

Pang

et al. 2024

Energy Reports

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Beneficial role of diurnal smoothing for grid integration of wind power

Cited by 4 publications

References 21 publications

The role of repowering India’s ageing wind farms in achieving net-zero ambitions

The role of repowering India’s ageing wind farms in achieving net-zero ambitions

Correlation challenges for North Sea offshore wind power: a Norwegian case study

Research on deep peaking cost allocation mechanism considering peaking demand subject and thermal power unit

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