风力:发电和冷却电线

Q2 Earth and Planetary Sciences

Advances in Science and Research Pub Date : 2020-06-22 DOI:10.5194/asr-17-105-2020

M. Kaasik, S. Mirme

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引用次数: 0

摘要

摘要通过高压输电线路传输的电能受到导体焦耳发热的限制。在沿海风力发电场的情况下，同时发电的风有助于冷却高压架空导体。理想情况下，这将允许增加电力传输或减少导体电线的尺寸和成本。在这项研究中，我们调查了沿海风电场的风速与沿75公里长的330千瓦输电线向内陆方向的风的相关性。研究发现，沿海风电场在涡轮机高度和导体水平(10米)上的风速相关性(R=0.39 -0.64)明显低于彼此距离达100公里的风电场之间的相关性(R=0.76 -0.97)。电力线周围茂密的混交林既降低了当地风速，也降低了与沿海高层风的相关性，从而降低了冷却效果的可靠性。

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Wind: generating power and cooling the power lines

Abstract. The electric power that can be transmitted via high-voltage transmission lines is limited by the Joule heating of the conductors. In the case of coastal wind farms, the wind that produces power simultaneously contributes to the cooling of high-voltage overhead conductors. Ideally this would allow for increased power transmission or decreased dimensions and cost of the conductor wires. In this study we investigate how well the wind speed in coastal wind farms is correlated with wind along a 75 km long 330 kW power line towards inland. It is found that correlations between wind speed in coastal wind farms at turbine height and conductor-level (10 m) are remarkably lower ( R=0.39 –0.64) than between wind farms at distances up to 100 km from each other ( R=0.76 –0.97). Dense mixed forest surrounding the power line reduces both local wind speed and the correlations with coastal higher-level wind, thus making the cooling effect less reliable.

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来源期刊

Advances in Science and Research Earth and Planetary Sciences-Geophysics

CiteScore

4.10

自引率

0.00%

发文量

审稿时长

22 weeks