Indicative appraisal of clustered micro-generators for a low-carbon transition in the UK building sector

Q1 Social Sciences
Stephen R Allen , Benjamin Cohen , Geoffrey P. Hammond
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引用次数: 1

Abstract

Building ‘zero carbon’ homes will be essential for achieving the carbon reductions within industrialised countries required to meet their commitments under the 2015 Paris Agreement on climate change. Such high performance buildings may need a combination or ‘cluster’ of micro-generators to be installed, such as a heat pump to provide heating and a solar photovoltaic (PV) array to produce electricity. When sized and installed appropriately, these technologies have lower emissions than the conventional systems they displace (centralised grid electricity and gas-fired boilers). However, if the ‘embodied’ energy and carbon is not recouped from that saved during the lifetime of the micro-generator, then there is no net saving overall. This study therefore assesses a range of clustered micro-generators using an ‘integrated approach’ that combines energy analysis, environmental life-cycle assessment, and an indicative financial appraisal. Eight clusters of micro-generators were designated to meet the heat and electricity requirements of five different dwelling types, each one specified to two different UK performance standards (2006 building regulations and a zero-carbon specification). For these 80 scenarios, various combinations of heat pumps with solar hot water and/or PV systems yield the most attractive performance metrics with all of the clusters having energy and carbon paybacks (4.5–5.5 and 5.0–7.0 years respectively) within their operational lifetimes, and would hence create net savings overall. But the clusters were generally found to have unattractive financial payback periods (50–80 years), although this result will be sensitive to the discount rate and prevailing energy prices and support mechanisms. The focus is on the use of clustered micro-generators in the context of UK transition pathways to a low-carbon economy out to 2050, but the lessons learned are applicable to many industrialised countries.

集束式微型发电机对英国建筑行业低碳转型的指示性评价
建设“零碳”住宅对于实现工业化国家在2015年巴黎气候变化协定中承诺的碳减排至关重要。这种高性能建筑可能需要安装微型发电机的组合或“集群”,例如提供供暖的热泵和发电的太阳能光伏(PV)阵列。如果尺寸和安装得当,这些技术比它们所取代的传统系统(集中电网电力和燃气锅炉)的排放更低。然而,如果在微型发电机的生命周期内,“体现”的能量和碳不能从节省的能量和碳中回收,那么总体上就没有净节省。因此,本研究使用结合能源分析、环境生命周期评估和指示性财务评估的“综合方法”评估了一系列集群微型发电机。八组微型发电机被指定用于满足五种不同住宅类型的热能和电力需求,每一种都符合两种不同的英国性能标准(2006年建筑法规和零碳规范)。对于这80种方案,热泵与太阳能热水和/或光伏系统的各种组合产生了最具吸引力的性能指标,所有集群在其运行寿命内都具有能源和碳回报(分别为4.5-5.5年和5.0-7.0年),因此总体上可以实现净节约。但是,这些集群的财务回收期(50-80年)普遍缺乏吸引力,尽管这一结果对贴现率、现行能源价格和支持机制很敏感。重点是在英国到2050年向低碳经济过渡的背景下使用集群微型发电机,但从中吸取的经验教训适用于许多工业化国家。
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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来源期刊
Global Transitions
Global Transitions Social Sciences-Development
CiteScore
18.90
自引率
0.00%
发文量
1
审稿时长
20 weeks
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