非住宅建筑能源优化的比较研究

IF 1 Q4 ENGINEERING, CIVIL Journal of Applied Engineering Sciences Pub Date : 2022-05-01 DOI:10.2478/jaes-2022-0004

K. Cziszter, G. Ionescu, A.F. Sărăcuț-Ardelean, S. Szabó, T. Kovacs, G. Ionescu

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引用次数: 1

摘要

统计数据证实，在欧盟，建筑消耗大约。占最终能源的40%，占欧洲能源消费后温室气体排放总量的36%。为有效减少温室气体排放，迫切需要采取节能措施。减少化石燃料消费将对单位国内生产总值能源需求的下降产生重大影响。2014年，欧洲领导人通过了雄心勃勃的《2030年气候与能源框架》，其中提出了三个关键目标:到2030年温室气体排放量减少40%，可再生能源减少27%，能源效率提高27%。随后，2016年11月，欧盟委员会(EC)提出了“面向所有欧洲人的清洁能源”一揽子计划，旨在支持和加速向无碳能源系统的过渡。本文包括对罗马尼亚这些事项的现状的个案研究，并侧重于在这个问题上采取哪些可靠和可用的行动的步骤和方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Comparative Studies and Research on Energy Optimization of Non-Residential Buildings

Abstract Statistics confirm that in the EU, buildings consume approx. 40% of final energy, which accounts for 36% of total European greenhouse gas production after energy consumption. Energy efficiency measures are urgently needed to effectively reduce greenhouse gas emissions. Decreasing fossil fuel consumption would have a major impact on declining energy demand per unit of gross domestic product. In 2014, European leaders adopted the ambitious Climate and Energy Framework 2030, in which the three key targets were raised: a 40% reduction in greenhouse gas emissions by 2030, a 27% reduction in RES and a 27% increase in energy efficiency. Then, in November 2016, the European Commission (EC) proposed the Clean Energy for All Europeans package, designed to support and accelerates the transition to a carbon-free energy system. This paper comprises a case study of the current situation of these matters in Romania and focuses on steps and methodology of what actions are reliable and available to be put into practice on this matter.

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