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Architectural Energy Retrofit (AER): An alternative building's deep energy retrofit strategy

机译:建筑节能改造(AER):替代建筑的深度节能改造策略

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The refinement of architectural space plays a catalytic role in the building's energy balance. A different configuration on the deep energy building retrofit is presented on this paper, by proposing mainly strategies that hierarchize in a high position the invigoration of the building's architectural design principals. These space qualities enable diversity of occupancy, environmental variability and facilitate the building envelope to operate efficiently as climate moderator. The main working hypothesis claims that bioclimatic trends, derived from primary architectural decisions of the early design phase, predispose the final energy performance of the existing building.Based on that, the alternative retrofit proposal called Architectural Energy Retrofit (AER) strategy, focuses on the energy genetic code of these basic architectural features. It argues that their holistic revival and refinement, indoors and outdoors will pave the way for the building's energy retrofit and the space's regeneration. As a case study to test this theory, an old and energy-consuming school complex is selected. By applying solely architectural interventions, a reduction of 44% energy demands was achieved. The results highlighted the challenges of "quantifying" the energy efficiency of architecture. However, by exploring and focusing on the non-energy, co-benefits, it also seeks to expand the perspective of energy efficiency beyond the traditional measures, by identifying and measuring its impacts across many different spheres. AER, as a counterproposal, wishes to add a new base of discussion on deep energy retrofit strategies as it follows a diametrically opposed direction than the typical practices, The building instead of being "sealed" and its environment kept strictly controlled, it "opens" and interacts with its surroundings. (C) 2017 Elsevier B.V. All rights reserved.
机译:建筑空间的完善在建筑的能量平衡中起着催化作用。通过提出主要在高层建筑中激励建筑设计原理的策略,本文提出了一种在深层能源建筑改造中的不同配置。这些空间质量使占用空间,环境可变性变得多样化,并使建筑物围护结构有效地用作气候调节剂。主要工作假设认为,从早期设计阶段的主要建筑决策得出的生物气候趋势会影响现有建筑物的最终能源绩效,在此基础上,另一种名为建筑节能改造(AER)策略的改造建议侧重于这些基本的建筑特征的能量遗传密码。它认为,它们在室内和室外的全面复兴和完善将为建筑物的能源改造和空间的再生铺平道路。作为检验该理论的案例研究,选择了一座老式且耗能的综合学校。通过仅采用建筑干预措施,能源需求减少了44%。结果强调了“量化”建筑节能的挑战。但是,通过探索和关注非能源的共同效益,它也试图通过识别和衡量其在许多不同领域的影响,将能源效率的观点扩展到传统措施之外。作为对策,AER希望在深度能源翻新策略方面增加新的讨论基础,因为它遵循与典型做法截然相反的方向,而不是“密封”建筑物,并且严格控制环境,“开放”建筑物并与周围环境互动(C)2017 Elsevier B.V.保留所有权利。

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