![]() ![]() However, several studies highlight various barriers which are limitations to the widespread adoption of BIPV. These include savings in materials and electricity costs, reduced use of fossil fuels, decreasing carbon and greenhouse gases emissions and improved architectural image of the building. BIPV systems can be more cost effective simply because their composition and location replaces a number of conventional components and thus provide multiple gains which are reviewed in details in this paper. ![]() As a contemporary material available to architects, BIPV serves simultaneously as a part of the building envelope and an energy source. Technological advancements have evolved BIPV into a PV application with the capability of electrical delivery at a comparatively lower cost than grid electricity for certain end users in certain peak demand niche markets. BIPV reduces the damage done to the ecosystem through conventional energy sources and is a promising way of relieving the increasing financial and environmental costs of fossil fuel energy generation. Several studies indicate that application of BIPV leads to substantial energy savings and thus related gains in energy consumption and reduction of pollution sources. Building Integrated Photovoltaics (BIPV) provides such an opportunity through clean micro-energy generation being adoptable to various building designs. This provides an opportunity to address environmental pollution which has frequently been linked with the rising level of nonrenewable energy consumption. At the building scale, the potential of on-site renewable energy generation to optimize energy demand and supply infrastructure has been investigated. Mitigation in various dimensions is a key factor to improving the environment for future generations. From the Kyoto protocol of 1997 to the Paris Agreement of 2015, various policy directions have been motivated to mitigate international environmental pollution. The paper concludes that a wide range of BIPV adoption barriers such as aesthetics, architectural integration, and performance can be overcome by appropriate BIPV customization.īuildings are a main source of global energy consumption and CO 2 emissions accounting for about 40% of global energy consumption The international contribution to sustainability has generated a large number of publications in relevant journals and conferences over the last four decades and has established a dire need to reduce greenhouse gas emissions as these gases are potential causes of threats to the ecosystem such as global warming. These products are well integrated for both energy generation and aesthetic applications with a power output increase of up to 80% in some cases. The findings reflect that elemental and compositional level customization using combined customization strategies provide enhanced BIPV products. The current paper identifies customization parameters ranging from the customization category, level, and strategies, and related architectural potential along with an assessment of their impact. This paper seeks to review the potential of BIPV façade customization as a means of enhancing BIPV adoption. Although extensive reviews exist on BIPV product types, design integration, adoption barriers and performance issues, research on BIPV customization has not been reviewed as a solution to BIPV adoption. In innovative cases, the characteristics of conventional BIPV façades have been modified by researchers to address such conflicts through customization as an emerging trend in BIPV façade design. The challenge however, is that architectural design objectives sometimes conflict with energy performance, such as the provision of view and daylight versus maximum power output. ![]() The BIPV façade is designed to provide energy generation along with conventional design objectives such as aesthetics and environmental control. Technological advancement in Building Integrated Photovoltaics (BIPV) has converted the building façade into a renewable energy-based generator.
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