Evaluation of climate change effects on residential building cooling and heating demands in New Zealand: implications for energy efficiency standards and building codes

IF 2.1 Q2 CONSTRUCTION & BUILDING TECHNOLOGY

International Journal of Building Pathology and Adaptation Pub Date : 2023-07-17 DOI:10.1108/ijbpa-10-2022-0168

Zahra Jalali, A. Shamseldin, Sandeeka Mannakkara

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Abstract

PurposeClimate change reports from New Zealand claim that climate change will impact some cities such as Auckland from a heating-dominated to a cooling-dominated climate. The benefits and risks of climate change on buildings' thermal performance are still unknown. This paper examines the impacts of climate change on the energy performance of residential buildings in New Zealand and provides insight into changes in trends in energy consumption by quantifying the impacts of climate change.Design/methodology/approachThe present paper used a downscaling method to generate weather data for three locations in New Zealand: Auckland, Wellington and Christchurch. The weather data sets were applied to the energy simulation of a residential case study as a reference building using a validated building energy analysis tool (EnergyPlus).FindingsThe result indicated that in Wellington and Christchurch, heating would be the major thermal load of residential buildings, while in Auckland, the main thermal load will change from heating to cooling in future years. The revised R-values for the building code will affect the pattern of dominant heating and cooling demands in buildings in Auckland in the future, while in Wellington and Christchurch, the heating load will be higher than the cooling load.Originality/valueThe findings of this study gave a broader insight into the risks and opportunities of climate change for the thermal performance of buildings. The results established the significance of considering climate change in energy performance analysis to inform the appropriate building codes for the design of residential buildings to avoid future costly changes to buildings.

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新西兰气候变化对住宅建筑制冷和供暖需求的影响评估：对能效标准和建筑规范的影响

目的新西兰的气候变化报告称，气候变化将影响奥克兰等一些城市，从供暖为主转变为制冷为主。气候变化对建筑物热性能的益处和风险仍然未知。本文研究了气候变化对新西兰住宅建筑能源性能的影响，并通过量化气候变化的影响来深入了解能源消费趋势的变化。设计/方法/方法本文使用降尺度方法生成新西兰三个地点的天气数据：奥克兰、惠灵顿和克赖斯特彻奇。使用经过验证的建筑能量分析工具（EnergyPlus），将天气数据集应用于作为参考建筑的住宅案例研究的能量模拟。结果表明，在惠灵顿和克赖斯特彻奇，供暖将是住宅的主要热负荷，而在奥克兰，未来几年主要热负荷将从供暖变为制冷。建筑规范的修订R值将影响奥克兰未来建筑的主要供暖和制冷需求模式，而惠灵顿和克赖斯特彻奇的供暖负荷将高于制冷负荷。独创性/价值这项研究的发现让我们更深入地了解了气候变化对建筑热性能的风险和机遇。研究结果表明，在能源性能分析中考虑气候变化的重要性，为住宅设计提供适当的建筑规范，以避免未来对建筑进行昂贵的更改。

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来源期刊

International Journal of Building Pathology and Adaptation CONSTRUCTION & BUILDING TECHNOLOGY-

CiteScore

4.80

自引率

18.20%

发文量

期刊介绍： The International Journal of Building Pathology and Adaptation publishes findings on contemporary and original research towards sustaining, maintaining and managing existing buildings. The journal provides an interdisciplinary approach to the study of buildings, their performance and adaptation in order to develop appropriate technical and management solutions. This requires an holistic understanding of the complex interactions between the materials, components, occupants, design and environment, demanding the application and development of methodologies for diagnosis, prognosis and treatment in this multidisciplinary area. With rapid technological developments, a changing climate and more extreme weather, coupled with developing societal demands, the challenges to the professions responsible are complex and varied; solutions need to be rigorously researched and tested to navigate the dynamic context in which today''s buildings are to be sustained. Within this context, the scope and coverage of the journal incorporates the following indicative topics: • Behavioural and human responses • Building defects and prognosis • Building adaptation and retrofit • Building conservation and restoration • Building Information Modelling (BIM) • Building and planning regulations and legislation • Building technology • Conflict avoidance, management and disputes resolution • Digital information and communication technologies • Education and training • Environmental performance • Energy management • Health, safety and welfare issues • Healthy enclosures • Innovations and innovative technologies • Law and practice of dilapidation • Maintenance and refurbishment • Materials testing • Policy formulation and development • Project management • Resilience • Structural considerations • Surveying methodologies and techniques • Sustainability and climate change • Valuation and financial investment

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