Abstract
Abstract. Apart from the drive to reduce carbon dioxide emissions by carbon-intensive economies like South Africa, the recent spate of electricity load shedding across most part of the country, including Cape Town has left electricity consumers scampering for alternatives, so as to rely less on the national grid. Solar energy, which is adequately available in most part of Africa and regarded as a clean and renewable source of energy, makes it possible to generate electricity by using photovoltaics technology. However, before time and financial resources are invested into rooftop solar photovoltaic systems in urban areas, it is important to evaluate the potential of the building rooftop, intended to be used in harvesting the solar energy. This paper presents methodologies making use of LiDAR data and other ancillary data, such as high-resolution aerial imagery, to automatically extract building rooftops in City of Cape Town and evaluate their potentials for solar photovoltaics systems. Two main processes were involved: (1) automatic extraction of building roofs using the integration of LiDAR data and aerial imagery in order to derive its’ outline and areal coverage; and (2) estimating the global solar radiation incidence on each roof surface using an elevation model derived from the LiDAR data, in order to evaluate its solar photovoltaic potential. This resulted in a geodatabase, which can be queried to retrieve salient information about the viability of a particular building roof for solar photovoltaic installation.
Highlights
Countries around the world are grappling with the challenge of finding and promoting various sources of sustainable energy, which will align their attitude towards energy consumption with their environmental, social and economic targets (IEA, 2012)
The second step involved in estimating the rooftop solar photovoltaic potential is to determine the mean solar radiation (SMR) incident on each building roof
A method to automatically extract building rooftops and evaluate their solar photovoltaic potential has been described, and this has been applied to city of Cape Town, South Africa
Summary
Countries around the world are grappling with the challenge of finding and promoting various sources of sustainable energy, which will align their attitude towards energy consumption with their environmental, social and economic targets (IEA, 2012). Likewise, both developed and emerging countries face similar energy and environmental challenges. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XLI-B7, 2016 XXIII ISPRS Congress, 12–19 July 2016, Prague, Czech Republic on the earth; these could be spatial or temporal It includes, atmospheric conditions, geometry of the earth and the terrain (Suri & Hofierka, 2004). The first stage involves extracting the building roof outline in order to determine the roof area; while, the second stage involves calculating the amount of global solar radiation incident upon such roof, so as to estimate its solar photovoltaic potential
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