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Potential strategies offered by animals to implement in buildings' energy performance:Theory and practice

机译:动物为实现建筑物的能源绩效提供的潜在策略:理论与实践

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摘要

The strategies for thermal regulation and environmental control found in nature are countless.In this article,a parallelism between animals and building energy systems is defined in order to identify and emphasize the immediate opportunities that biomimicry offers for future research.The motivation was the need to find alternative solutions to tackle problems mainly in the efficiency of heating,ventilation and cooling systems.Due to the wide range of possibilities offered by animals,this study is largely limited to the strategies that cold-blooded animals have developed through evolutionary adaptation to the environment.The method used for the analysis is based on a solution-based approach.Firstly,different animal thermoregulation strategies are defined (biological domain).Then the strategy is analyzed and classified into three categories.This classification is essential in order to formulate the parallelism with building systems (transfer phase).The final step is to identify the potential implementation (technological domain).This approach has been seen to be useful in creating new research opportunities based on biomimicry.In addition,suitable solutions arising from multidisciplinary team research are presented as promising answers to the challenges that building energy systems face nowadays.
机译:自然界中存在着无数的热调节和环境控制策略。在本文中,定义了动物与建筑能源系统之间的平行性,以识别并强调仿生技术为未来研究提供的直接机会。寻找解决方案,主要解决供暖,通风和冷却系统的效率问题。由于动物提供了广泛的可能性,因此本研究主要限于通过对环境的进化适应而开发的冷血动物策略。用于分析的方法基于解决方案方法,首先定义不同的动物体温调节策略(生物学领域),然后对该策略进行分析并分为三类。此分类对于阐述并行性至关重要与建筑系统(转移阶段)。最后一步是确定现实的应用(技术领域)。这种方法被认为在创造基于仿生学的新研究机会方面是有用的。此外,多学科团队研究提出的合适解决方案被提出来,是对当今建筑能源系统面临的挑战的有希望的答案。

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  • 来源
    《建筑学研究前沿(英文版)》 |2019年第1期|17-31|共15页
  • 作者单位

    Department of Building Construction, Building Services and Structures, Universidad de Navarra,Pamplona 31009, Spain;

    Department of Building Construction, Building Services and Structures, Universidad de Navarra,Pamplona 31009, Spain;

    Department of Building Construction, Building Services and Structures, Universidad de Navarra,Pamplona 31009, Spain;

    School of Sciences, Department of Environmental Biology, Universidad de Navarra, Pamplona 31080,Spain;

    School of Sciences, Department of Environmental Biology, Universidad de Navarra, Pamplona 31080,Spain;

    Department of Building Construction, Building Services and Structures, Universidad de Navarra,Pamplona 31009, Spain;

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  • 入库时间 2022-08-19 04:27:08
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