Residential geothermal air-conditioning: inhabitants’ comfort, behaviour and energy use

Q1 Engineering
Buildings & cities Pub Date : 2022-01-01 DOI:10.5334/bc.172
Leena Thomas, Alexandra Woods, Rebecca Powles, Parisa Kalali, S. Wilkinson
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引用次数: 0

Abstract

How do occupants’ behaviour and expectations influence energy use for residential geothermal air-conditioning? This detailed study of 40 homes with geothermal AC in Sydney, Australia, during the period 2019–20 covers one of hottest Australian summers and increased daytime occupancy over the winter due to working from home during Covid-19 lockdowns. Monitored data are analysed for ground source heat pump (GSHP)-AC energy, occupancy, indoor conditions, as well as a snapshot resident feedback captured during hot and cold spells. Findings indicate that the homes built to comply with 2011 energy efficiency standards maintain indoor temperatures within 10–12°C of peak summer and minimum winter temperatures, without AC. A general preference to adopt adaptive strategies such as ceiling fans and appropriate clothing before deploying AC is evident for moderately hot and cold days. A heightened dependence on AC is seen for extreme days. However, a significant number of houses adhere to a narrow range of acceptable temperatures, thereby increasing the take-up of GSHP-AC and energy consumption. The replacement of conventional AC with alternate technologies is not a one-stop solution in, and of, itself. There is a need for improved building low energy design and construction based on a better understanding of occupant behaviour and energy consequences. POLICY RELEVANCE Although geothermal systems offer potential energy savings (especially in extreme conditions) and their potential for seamless technological replacement of conventional AC in homes, the findings suggest GSHP-AC is not a one-stop solution to reduce dependence on AC. The study reveals that the unconstrained use of GSHP-AC can increase energy consumption and squander energy savings achieved through its technological efficiency. The ‘conditioned’ expectations of inhabitants, stimulated by a lower tolerance of ‘imperfect’ conditions and availability of heating and cooling on standby, can lead to increased dependence and usage. In an increasing warming world, more stringent guidelines are needed for thermal performance and design to mitigate residual discomfort and transform occupant practices. These must also be supported with occupant education and engagement to ensure the design intent is realised. © 2022 The Author(s).
住宅地热空调:居民的舒适度、行为和能源使用
使用者的行为和期望如何影响住宅地热空调的能源使用?这项对2019 - 2020年期间澳大利亚悉尼40个装有地热空调的家庭的详细研究涵盖了澳大利亚最热的夏季之一,由于在Covid-19封锁期间在家工作,冬季白天的入住率增加。对地源热泵(GSHP)的监测数据进行分析——交流能量、占用率、室内条件,以及在热和冷期间捕获的居民反馈快照。研究结果表明,在没有空调的情况下,符合2011年能效标准的房屋将室内温度保持在夏季峰值和冬季最低温度的10-12°C以内。在适度炎热和寒冷的天气中,在安装空调之前,普遍倾向于采用吊扇和适当的衣服等适应性策略。在极端天气,对空调的依赖程度会提高。然而,相当数量的房屋坚持一个狭窄的可接受温度范围,从而增加了地源热泵-空调的使用和能源消耗。用替代技术取代传统的空调本身并不是一站式的解决方案。有必要在更好地了解居住者行为和能源后果的基础上改进建筑的低能耗设计和施工。虽然地热系统提供了潜在的节能(特别是在极端条件下),并且它们在家庭中无缝技术替代传统空调的潜力,但研究结果表明,地源热泵-空调并不是减少对空调依赖的一站式解决方案。研究表明,无限制地使用地源热泵-空调会增加能源消耗,浪费通过其技术效率节省的能源。由于居民对“不完美”条件的容忍度较低,以及待机供暖和制冷的可用性,居民的“条件性”期望会导致依赖性和使用量的增加。在日益变暖的世界中,需要更严格的热性能和设计指导方针,以减轻残余的不适和改变居住者的做法。这些还必须得到居住者教育和参与的支持,以确保设计意图得以实现。©2022作者。
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
CiteScore
5.40
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0.00%
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审稿时长
25 weeks
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