欧洲气候相关可变可再生能源未来供应的不受《巴黎协定》影响的情景

IF 13 Q1 ENERGY & FUELS
Jing Hu , Vinzenz Koning , Thomas Bosshard , Robert Harmsen , Wina Crijns-Graus , Ernst Worrell , Machteld van den Broek
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引用次数: 1

摘要

为了实现欧盟2050年的气候中和目标,未来的发电预计将主要依赖可变可再生能源(VRE)。VRE的供应依赖于天气,容易受到气候条件变化的影响。基于巴黎气候情景下的时空明确气候数据和综合能源转换模型,从平均产量、产量变率、时空互补性和可再生能源并发干旱风险的角度评估了欧洲VRE供应的预测变化。在2045-2055年期间,我们发现与1990-2010年期间相比,欧洲大部分地区的风能和太阳能平均产量略有下降。在国家层面,气候变化对VRE平均产量的影响相当有限(风能在±3%以内,太阳能在±2%以内)。VRE供应的其他方面预计的中期变化也相对较小。这表明,如果严格遵循《巴黎协定》规定的减排路径,气候相关的影响对欧洲VRE供应的影响就不那么令人担忧。基于光谱分析,我们在跨区域水平上发现了强烈的季节性风能-太阳能互补性(负相关在-0.6和-0.9之间)。这减少了对季节性储存的需求,但需要协调跨境努力来发展泛欧输电基础设施。即使在铜版假设下,一个国家与欧洲其他国家同时出现可再生能源干旱的风险仍然不容忽视。西欧中部国家和波兰最容易受到这种危险的影响,这表明需要规划足够的灵活性资源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Implications of a Paris-proof scenario for future supply of weather-dependent variable renewable energy in Europe

To meet the European Union's 2050 climate neutrality target, future electricity generation is expected to largely rely on variable renewable energy (VRE). VRE supply, being dependant on weather, is susceptible to changing climate conditions. Based on spatiotemporally explicit climate data under a Paris-proof climate scenario and a comprehensive energy conversion model, this study assesses the projected changes of European VRE supply from the perspective of average production, production variability, spatiotemporal complementarity, and risk of concurrent renewable energy droughts.

For the period 2045–2055, we find a minor reduction in average wind and solar production for most of Europe compared to the period 1990–2010. At the country level, the impact of climate change on average VRE production is rather limited in magnitude (within ±3% for wind and ±2% for solar). The projected mid-term changes in other aspects of VRE supply are also relatively small. This suggests climate-related impacts on European VRE supply are less of a concern if the Paris-proof emission reduction pathway is strictly followed.

Based on spectral analysis, we identify strong seasonal wind-solar complementarities (with an anticorrelation between -0.6 and -0.9) at the cross-regional level. This reduces the demand for seasonal storage but requires coordinated cross-border efforts to develop a pan-European transmission infrastructure.

The risk of concurrent renewable energy droughts between a country and the rest of Europe remains non-negligible, even under the copperplate assumption. Central Western European countries and Poland are most vulnerable to such risk, suggesting the need for the planning of adequate flexibility resources.

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来源期刊
Advances in Applied Energy
Advances in Applied Energy Energy-General Energy
CiteScore
23.90
自引率
0.00%
发文量
36
审稿时长
21 days
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