COMPARISON OF POTENTIAL ENERGY OF SOLAR RADIATION IN ROOFTOP MODELING USING DIFFERENT BUILDING LEVELS OF DETAIL

Kalingga Titon, Nur Ihsan, A. Sakti, Atsushi Higuchi, Hideaki Takenaka, D. Suwardhi, K. Wikantika
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Abstract

Abstract. The potential for future energy crises is a problem the world is currently facing. Many countries are switching from fossil to renewable energy to prevent an energy crisis. One of the most developed renewable energy today is solar energy. Easy installation makes solar energy installation not only on a large scale but also on a home scale. Urban areas will be very suitable for building solar photovoltaic (PV) roofs due to minimal open areas. In installing rooftop solar PV, sound planning is needed to predict the energy potential that can be provided by solar energy on the rooftop of a building. Spatial modeling can be done to determine the energy potential and suitable location for rooftop solar PV installation. In building rooftop solar PV modeling, the level of detail of the building will affect the results of the model. The rooftop's shape and the building's height will affect the amount of solar radiation going into the building. However, the higher the level of detail of the building, the higher the cost and processing time will be. This study will review the differences in modeling the potential of rooftop solar PV using different levels of detail. This research will integrate solar radiation data from remote sensing to determine the energy potential of solar radiation and digital surface model data from photogrammetry to create a level of detail for buildings. Integration of solar radiation data and the level of detail of the building will use hillshade analysis. Hillshade analysis can review the shadow effect on the rooftop of a building which will be directly related to the potential of solar energy on the rooftop of the building. This study determines the energy potential on the rooftop of the building with different levels of detail, namely 0, 1, and actual shape, to determine the difference in energy potential in the three scenarios. Hopefully, this research will determine the best level of detail for modeling rooftop solar PV. The best model that can show high accuracy value but at a lower price. Hopefully, this research can also assist policymakers and the public in planning for rooftop solar PV installations to develop renewable energy.
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不同建筑细节层次的屋顶建模中太阳辐射势能的比较
摘要未来能源危机的可能性是世界目前面临的一个问题。许多国家正在从化石能源转向可再生能源,以防止能源危机。太阳能是当今最发达的可再生能源之一。安装简单,不仅可以大规模安装太阳能,还可以在家庭规模上安装太阳能。由于开放面积最小,城市地区将非常适合建造太阳能光伏(PV)屋顶。在安装屋顶太阳能光伏发电时,需要进行合理的规划,以预测建筑物屋顶太阳能所能提供的能源潜力。可以进行空间建模,以确定屋顶太阳能光伏安装的能源潜力和合适位置。在建筑屋顶太阳能光伏建模中,建筑的详细程度将影响模型的结果。屋顶的形状和建筑的高度将影响进入建筑的太阳辐射量。然而,建筑的细节水平越高,成本和处理时间就越高。本研究将回顾使用不同细节水平建模屋顶太阳能光伏潜力的差异。这项研究将整合遥感的太阳辐射数据,以确定太阳辐射的能量潜力,并整合摄影测量的数字表面模型数据,为建筑创造一定程度的细节。太阳辐射数据和建筑细节水平的整合将使用山坡分析。Hillshade分析可以评估建筑物屋顶上的阴影效应,这将与建筑物屋顶上太阳能的潜力直接相关。本研究确定了具有不同细节级别(即0、1和实际形状)的建筑屋顶的能量势能,以确定三种情况下的能量势能差异。希望这项研究能够确定屋顶太阳能光伏建模的最佳细节水平。能够显示出高精度价值但价格较低的最佳模型。希望这项研究也能帮助决策者和公众规划屋顶太阳能光伏装置,以开发可再生能源。
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CiteScore
1.70
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0.00%
发文量
949
审稿时长
16 weeks
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