Parametric behavior maps: A method for evaluating the energy performance of climate-adaptive building envelopes

Kim Hyoungsub; Clayton Mark J.

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Parametric behavior maps: A method for evaluating the energy performance of climate-adaptive building envelopes

机译：参数行为地图：一种评估气候适应性建筑信封的能量性能的方法

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This research presents a new method for evaluating the energy performance of climate-adaptive building envelopes (CABEs) called parametric behavior maps (PBMs). There are three main challenges when evaluating a CABE for energy performance that are not overcome by the currently accepted process: (1) representing complex three-dimensional dynamic geometry; (2) generating various candidate CABE control scenarios by integrating environmental factors and their thresholds; and (3) representing a CABE's time-varying behavior within a single building energy model (BEM). To overcome these challenges, the PBM method was developed. This method makes two key contributions to the field of performance-driven building design. First, it is capable of generating hourly CABE operation scenarios to evaluate CABE performance using a single BEM, regardless of dynamic operation and any geometric complexity. Second, the PBM method is superior at handling the effects of thermal energy storage with dynamic operations than is the currently accepted process. The reliability of the PBM method was validated by comparing indoor temperature profiles obtained from a PBM and the existing method. The new method enables designers to integrate the energy performance of a CABE system with multiple control scenarios, ultimately improving the building design process. (C) 2020 Elsevier B.V. All rights reserved.

机译：本研究提出了一种评估气候适应性建筑包络（CABES）的能量性能的新方法，称为参数行为图（PBMS）。当评估当前接受的过程不克服的能量性能时，有三种主要挑战：（1）代表复杂的三维动态几何; （2）通过整合环境因素及其阈值来生成各种候选CACE控制方案; （3）代表单个建筑能量模型（BEM）内的CABE的时变行为。为了克服这些挑战，开发了PBM方法。这种方法对性能驱动的建筑设计领域进行了两个关键贡献。首先，它能够生成每小时CABE操作场景，以使用单个BEM评估CABE性能，无论动态操作和任何几何复杂度如何。其次，PBM方法优于处理热能储存与动态操作的影响而不是当前接受的过程。通过比较从PBM获得的室内温度谱和现有方法来验证PBM方法的可靠性。新方法使设计人员能够集成具有多种控制场景的CABE系统的能量性能，最终提高建筑设计过程。（c）2020 Elsevier B.v.保留所有权利。

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来源
《Energy and Buildings》 |2020年第7期|110020.1-110020.16|共16页
作者
Kim Hyoungsub; Clayton Mark J.;
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作者单位

Calif State Univ Sacramento Dept Design 6000 J St Mariposa Hall 2009 MS 6137 Sacramento CA 95819 USA;

Texas A&M Univ Coll Architecture Dept Architecture 3137 TAMU College Stn TX 77843 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Parametric behavior map (PBM); Climate-adaptive building envelope (CABE); Building energy; Kinetic facades; Operations schedule; Thermal energy storage effect;

机译：参数行为地图（PBM）;气候适应性建筑信封（CABE）;建筑能量;动力学立面;运营时间表;热能储存效果;

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2. A Method for Thermal Dimensioning and for Energy Behavior Evaluation of a Building Envelope PCM Layer by Using the Characteristic Days [J] . Domenico Mazzeo, Giuseppe Oliveti, Natale Arcuri Energies . 2017,第5期

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3. A study of the impact of occupant behaviors on energy performance of building envelopes using occupants' data [J] . Yousefi Fatemeh, Gholipour Yaghob, Yan Wei Energy and Buildings . 2017,第auga期

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4. FIELD TEST METHODS FOR THE EVALUATION OF WATERTIGHTNESS PERFORMANCE OF BUILDING ENVELOPE [C] . Edmund C C Choi, Mary Mathews International Conference on Building Envelope Systems and Technologies(ICBEST 2001) v.1-Day 1 Tracks 1 to 4; 20010625-20010629; Ottawa; CA . 2001

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5. Façade Retrofit Performance Evaluation Predicting Energy Conservation Potential from Renovations to the Building Envelope [D] . Collins, Kenya I. 2018

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6. Monitoring System Analysis for Evaluating a Building’s Envelope Energy Performance through Estimation of Its Heat Loss Coefficient [O] . Catalina Giraldo-Soto, Aitor Erkoreka, Laurent Mora, 2018

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7. Evaluation of building envelope energy performance through extensive simulation and parametrical analysis [O] . Pernigotto Giovanni 2013

机译：通过广泛的模拟和参数分析评估建筑物围护结构的能源性能

Parametric behavior maps: A method for evaluating the energy performance of climate-adaptive building envelopes

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