Abstract
Modern households usually have independent energy sources such as wind generators, photovoltaic (PV) panels, and similar green energy production equipment. Experts predict that soon, there will be an increasing number of such prosumers who both produce and consume energy. This process alleviates and reduces the load on large national electricity networks and also contributes to overall energy security. In this paper, a simulation model of a household, which employs a wind generator as its independent source of electricity, is developed. It is expected that this approach will be easily replicated for more complex configurations. The other components of the single prosumer microgrid that will be assessed are the non-shiftable electricity consumption equipment, which is used mainly in households and deployed separately for water heater, with a separate battery to meet the needs of these non-shiftable consumers. The 5-min data intervals for the year of simulation have been used. The characteristics of energy flow according to production and consumption schedules and the capacity of storage equipment have been modelled and simulated. Results disclose that wind turbine production size and buffer battery have a crucial impact on the demand cover factor.
Highlights
The European Union’s energy policy aims to achieve 32% of its total electricity production from renewable sources by 2030 [1]
Hydropower is environmentally friendly and stable in 24-h cycles, it varies from season to season [9,10]
The present study introduces a buffer battery (BB), which stands between the microgrid and utility grid
Summary
The European Union’s energy policy aims to achieve 32% of its total electricity production from renewable sources by 2030 [1]. More attention is being paid to converting energy from renewable sources such as wind and solar [2]. These natural energy sources present new challenges for electrical engineers and researchers regarding maximal extractions of energy for on-site use, and the methods of their deployment besides fossil energy sources [3]. The renewable sources are interfaced with the grid by the means of power electronic converters. Such systems are becoming widespread and getting more efficient with the developments in topologies and power semiconductor components [4,5]. Hydropower is environmentally friendly and stable in 24-h cycles, it varies from season to season [9,10]
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