未来碳中和能源系统分析-以瑞典Växjö市为例

IF 5.4 Q2 ENERGY & FUELS
Samar Ahmed , Truong Nguyen
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引用次数: 8

摘要

与瑞典到2045年实现碳中和的目标一致,克罗诺伯格县Växjö市也设定了自己的目标,即到2030年实现碳中和。目前,市政当局部分分散的能源系统严重依赖国家电网的互联电力供应,以及从瑞典其他地区进口的燃料。在这种情况下,出现了几个问题,包括:未来需求的变化以何种方式引起供应的变化,以及未来碳中性能源系统在可持续电力供应条件下是否会成本更低。本研究利用EnergyPLAN的逐小时动态能源模拟工具,对2030年和2050年Växjö未来能源系统的不同碳中和情景进行了技术经济评价。对Växjö未来能源需求的预测是根据发展战略和瑞典的国家可持续未来设想制定和建模的。Växjö碳中和情景的结果表明,目前的能源系统足以满足未来的热需求。然而,满足所有部门的电力需求以及运输和工业的燃料需求是一项挑战。在短期内,在能源需求和价格增加的情况下,在能源供应技术没有重大变化的情况下,实现碳中和在技术上是可行的。然而,从长远来看,对间歇性可再生能源资源以及碳捕获和储存的投资被认为是可行的。因此,基于当地投资的碳中和Växjö规划是一项可行的战略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Analysis of future carbon-neutral energy system – The case of Växjö Municipality, Sweden

Analysis of future carbon-neutral energy system – The case of Växjö Municipality, Sweden

In line with the Swedish target of carbon neutrality by 2045, the municipality of Växjö in Kronoberg County has set its own target to be carbon neutral in 2030. Currently, the Municipality's partially decentralized energy system relies heavily on interconnected electricity supply from the national grid, and fuels imports from other parts of Sweden. Under this circumstance, several concerns arise, including: in which ways future demand changes induce supply changes, and whether a future carbon-neutral energy system will be less costly in a sustained-electricity supply condition. In this study, techno-economic evaluations are conducted for different carbon-neutral scenarios for Växjö’s future energy system in 2030 and 2050, using an hour-by-hour dynamic energy simulation tool of EnergyPLAN. Projections for the future energy demands for Växjö were developed and modeled, based on the development strategies and on the national sustainable future scenarios in Sweden. Results for the Växjö’s carbon-neutral scenarios showed that the current energy system is sufficient to satisfy future heat demand. However, fulfilling demands of electricity for all sectors and fuels for transport and industry is a challenge. In the short term and at increased energy demand and price, being carbon neutral is technically viable without major changes in energy supply technologies. However, in the long term, investment for intermittent renewable energy resources, together with carbon capture and storage is considered to be viable financially. Therefore, planning for a carbon-neutral Växjö based on local investments showed to be a feasible strategy.

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来源期刊
Smart Energy
Smart Energy Engineering-Mechanical Engineering
CiteScore
9.20
自引率
0.00%
发文量
29
审稿时长
73 days
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