Adaptive Photovoltaic Performance Study with a Biomimetic Approach for Energy Saving

Journal of Artificial Intelligence in Architecture Pub Date : 2023-02-26 DOI:10.24002/jarina.v2i1.6331

K. Ananda, A. Hariyadi

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Abstract

The facade has a function to improve the energy performance of the building by controlling the acquisition of sunlight and natural lighting. The biomimetic architecture approach is one form of architecture that imitates the principles of nature—integrating photovoltaics with facades to utilize solar lighting and generate electricity for building needs. The novelty of this study aims to examine the effectiveness of adaptive facade forms with a biomimetic approach integrated with photovoltaic on heat transfer and energy saving and determine the factors that influence it. This study uses the parametric modeling simulation method. In addition, this study compares aspects of heat transfer and energy generated by photovoltaics on adaptive facades with a biomimetic approach. The study's results using a flower petal-shaped adaptive biomimetic facade showed that OTTV 35 watt/m2 (standard) obtained all grid configurations with an opening angle of 10-20 degrees, and the average electrical energy produced by integrated Photovoltaic was around 1,757.7 kWh. This result provides energy savings of 20.03% on a building.

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基于仿生节能的自适应光伏性能研究

立面的功能是通过控制阳光和自然光的获取来提高建筑的能源性能。仿生建筑方法是一种模仿自然原理的建筑形式-将光伏与立面结合起来，利用太阳能照明和发电满足建筑需求。本研究的新颖之处在于，通过结合光伏的仿生方法来检验自适应立面形式在传热和节能方面的有效性，并确定影响因素。本研究采用参数化建模仿真方法。此外，本研究比较了自适应立面上由光伏发电产生的热量传递和能量方面的仿生方法。采用花瓣形自适应仿生立面的研究结果表明，OTTV 35瓦特/平方米(标准)获得了所有开放角度为10-20度的电网配置，集成光伏产生的平均电能约为1,757.7 kWh。这一结果为一栋建筑节省了20.03%的能源。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Artificial Intelligence in Architecture

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