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The Influence of Battery Storage Size on Photovoltaics Energy Self-Consumption for Grid-Connected Residential Buildings
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The Influence of Battery Storage Size on Photovoltaics Energy Self-Consumption for Grid-Connected Residential Buildings
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Abstract
A current trend in renewable energy research goes towards the development of storage technologies in order to bridge gaps in energy supply. In this context, one prominent, hotly debated application scenario is the employment of battery storage systems for photovoltaic-equipped buildings to maximize the self-consumption/supply of produced photovoltaics (PV) energy and minimize the purchase of grid energy as well as grid feed-in. Due to currently still high prices for battery storage systems, finding the optimal cost-benefit ratio between employed storage size and achievable energy self-consumption/supply is a crucial research topic. Accordingly, in this article, we investigate the effect of employed storage size on the achievable energy self-consumption/supply of photovoltaic-supplied households based on real-world household load data and solar irradiance data in combination with computational simulations. Differences in results are an...
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International Category Code (ICC):
ICC-0202
Rosemarie Velik
International Article Address (IAA):
IAA.ZONE/en6847en
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