城市应急足迹:比较奥地利维也纳的供应和使用扩展投入产出模型

O. Galychyn , B.D. Fath , D. Wiedenhofer , E. Buonocore , P.P. Franzese
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引用次数: 0

摘要

目前,城市活动消耗了全球最终能源需求的 75%,鉴于城市人口的绝对增长和相对增长,预计这一数字还会增加。需要对城市产业间交流的生产者(上游)和消费者(下游)的生态和社会经济影响进行评估,以减少城市产业足迹背后的能源消耗和资源使用。投入产出分析中的环境扩展是从用户方面设计的,只关注商业能源的供应和使用。本研究介绍了维也纳的应急能源评估供应扩展碳足迹模型和使用扩展碳足迹模型,并比较了它们的经验和概念含义。根据研究问题,在以往对温室气体排放以及能源供应和使用扩展的调查基础上,结合工业生态学和系统生态学方法,对维也纳城市消费的应急评估足迹进行了估算。结果表明,最终产品类别的足迹排序对评估方法很敏感,采掘业和制造业产品的足迹相差 10%以上,这取决于是选择应急评估还是碳评估。基于能效的比较进一步显示,采掘业产品的使用和供应扩展结果之间的差异可能超过 20%,而基于碳的比较显示,服务业的供应和使用扩展结果之间的差异甚至不到 5%。未来的研究可以解决对经济的直接能源供应估计过高、对产品和服务估计不足、标准使用扩展设计不一致,以及在集合应急评估的供应和使用扩展方面的挑战。在不优先考虑结构特征的情况下,资金与上游和下游部门的统一责任评估相关。
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An urban emergy footprint: Comparing supply- and use-extended input-output models for the case of Vienna, Austria

Urban activities currently consume 75% of global final energy demand, which is expected to increase given absolute and relative population growth in cities. Assessments of both producer (upstream) and consumer (downstream) ecological and socioeconomic impacts of urban inter-industry exchanges are needed to reduce energy consumption and resource use behind the industrial footprints of cities. Environmental extensions in the input-output analysis are designed from the user side perspective, focusing only on commercial energy supply and use. This study introduced emergy-evaluated supply-extended and use-extended carbon footprint models for Vienna and compared their empirical and conceptual implications. Emergy-evaluated footprints of Vienna's urban consumption were estimated by combining industrial and systems ecology approaches as per the research question, based on previous investigations of GHG emissions and energy supply- and use-extensions. Results showed that the ranking of footprints of final product categories is sensitive to the evaluation method, with products of extractive and manufacturing industries differing by more than 10% depending on whether emergy or carbon evaluation is chosen. The emergy-based comparison further reveals that for products of extractive industries, the difference between use and supply extension results can be more than 20% as opposed to carbon-based comparison with the difference between supply and use extension results for services not even amounting to 5%. Future studies could address the over-estimation of direct energy supply to the economy, under-estimation of product and service, inconsistency in standard use-extension design, and challenges in assembling emergy-evaluated supply and use extensions. Fundings are relevant for unified responsibility assessment of upstream and downstream sectors without prioritising structural features.

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