Green buffer space influences on the temperature of photovoltaic modules Multifunctional system: Building greening and photovoltaic

Moren Maria Soledad Penaranda; Korjenic Azra

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Green buffer space influences on the temperature of photovoltaic modules Multifunctional system: Building greening and photovoltaic

机译：绿色缓冲空间影响光伏组件的温度多功能系统：建筑绿化和光伏

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This paper focuses on influences of a "green-buffer-space" (GB) on the photovoltaic-module (PV) temperatures. The described results correspond to the first year of research. They are part of an ongoing project-development: "Multifunctional System: Building Greening and Photovoltaic" (MFS). The MFS combines two well-known systems: photovoltaics and green facades. The aim is to evaluate the synergies and benefits of the system on its components the PV, buffer space (BS) and green facade (GF) on the building facade (BF). The presented outcome shows the effects of the GB layer on the PV layer. The analysis focusses on two PV systems of the same technology and power output, but with different buffer spaces: one with a GF and the other one without a GF. The first two assumptions were confirmed: the plants can growth behind PV mounted on a facade, and the GB acts as a temperature regulation tool. The GB reduces the PV operating temperatures in increasing ranges, about 1 degrees C up to 4 degrees C. Temperature differences increase by outdoor temperatures above 20 degrees C, i.e. the GB benefits are higher under higher outdoor temperatures. The third one, GB benefits on the PV performance were positive for specific time intervals: when the PV module was operating under extreme conditions, what requires further research. (C) 2017 Elsevier B.V. All rights reserved.

机译：本文重点讨论“绿色缓冲区空间”（GB）对光伏模块（PV）温度的影响。所述结果对应于研究的第一年。它们是正在进行的项目开发的一部分：“多功能系统：建筑绿化和光伏发电”（MFS）。 MFS结合了两个著名的系统：光伏系统和绿色外墙。目的是评估系统在其组件PV，建筑立面（BF）上的缓冲空间（BS）和绿色立面（GF）上的协同作用和收益。呈现的结果显示了GB层对PV层的影响。分析着重于两个具有相同技术和功率输出，但具有不同缓冲空间的光伏系统：一个具有GF，另一个不具有GF。确认了前两个假设：植物可以在安装在立面上的PV后面生长，GB可以作为温度调节工具。 GB在大约1摄氏度到4摄氏度的升高范围内降低了PV工作温度。室外温度超过20摄氏度时，温差会增加，即GB在室外温度较高时的好处更大。第三，GB在特定时间间隔内对PV性能的好处是积极的：当PV组件在极端条件下运行时，需要进一步研究。（C）2017 Elsevier B.V.保留所有权利。

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《Energy and Buildings》 |2017年第7期|364-382|共19页
作者
Moren Maria Soledad Penaranda; Korjenic Azra;
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作者单位

Vienna Univ Technol, Inst Bldg Construct & Technol, Res Ctr Bldg Phys & Sound Protect, Karlspl 13-206-2, A-1040 Vienna, Austria;

Vienna Univ Technol, Inst Bldg Construct & Technol, Res Ctr Bldg Phys & Sound Protect, Karlspl 13-206-2, A-1040 Vienna, Austria;

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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
Green facade; Vertical greening; Green walls; Building greening; Photovoltaics; PV temperature losses; PV cooling; PV performance; Greening and PV; Green buffer;

机译：绿色立面;垂直绿化;绿色墙壁;建筑物绿化;光伏;光伏温度损失;光伏冷却;光伏性能;绿化和光伏;绿色缓冲;

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1. Hotter and colder - How Do Photovoltaics and Greening Impact Exterior Facade Temperatures: The synergies of a Multifunctional System [J] . Moren Maria Soledad Penaranda, Korjenic Azra Energy and Buildings . 2017,第jula期

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2. Evaluation of in-situ thermal transmittance of innovative building integrated photovoltaic modules: Application to thermal performance assessment for green mark certification in the tropics [J] . Shabunko Veronika, Badrinarayanan Samyuktha, Pillai Dhanup S. Energy . 2021,第Nova15期

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3. Applications of Building Integrated Photovoltaic Modules in a Greenhouse of Northern Taiwan [J] . Yi-Chun Kuo, Che-Ming Chiang, Po-Cheng Chou, Journal of Biobased Materials and Bioenergy . 2012,第6期

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4. HISTORIC BUILDING OWNER GOES GREEN. A CASE STUDY OF A 25KW PHOTOVOLTAIC SYSTEM INSTALLED ON AN HISTORIC BUILDING IN EUGENE, OREGON [C] . Don Spiek, Alan Fraser Solar 2004 Conference: Including ASES(American Solar Energy Society) Annual Conference and National Passive Solar Conference; 20040711-14; Portland,OR(US) . 2004

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Green buffer space influences on the temperature of photovoltaic modules Multifunctional system: Building greening and photovoltaic

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