2016
DOI: 10.1016/j.ijepes.2016.01.017
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Impact of residential electricity tariffs with variable energy prices on low voltage grids with photovoltaic generation

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Cited by 18 publications
(17 citation statements)
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“…For our study, we use solar radiation profiles from near Dublin in Ireland and Karlsruhe in Germany. The profiles are converted into power generation profiles using a physical PV model (Ritzenhoff 1992;Bertsch et al 2014;Ruppert et al 2016). This model calculates the PV modules' electrical yield based on incident light, module efficiency and its orientation described by longitude, latitude, tilt and azimuth of the modules.…”
Section: Supply Side Datamentioning
confidence: 99%
“…For our study, we use solar radiation profiles from near Dublin in Ireland and Karlsruhe in Germany. The profiles are converted into power generation profiles using a physical PV model (Ritzenhoff 1992;Bertsch et al 2014;Ruppert et al 2016). This model calculates the PV modules' electrical yield based on incident light, module efficiency and its orientation described by longitude, latitude, tilt and azimuth of the modules.…”
Section: Supply Side Datamentioning
confidence: 99%
“…Consequently, load‐shifting can lead to flattening of the load profile and can result in increased efficiency and stability of the power network. Load‐shifting programs can influence the electricity use of customers via two different mechanisms: an incentive‐based pricing mechanism involving consumers or via domestic appliances that can be controlled from the utility side …”
Section: Methodsmentioning
confidence: 99%
“…Load-shifting programs can influence the electricity use of customers via two different mechanisms: an incentive-based pricing mechanism involving consumers or via domestic appliances that can be controlled from the utility side. 29,30 We select domestic EWHs as the shiftable load since they share around 30% of the aggregate residential demand amid on-peak periods. 7 In spite of the fact that on-peak demand represents just a little portion of the generation capacity, it can result in added stress on the grid and increase the cost of generation.…”
Section: Load-shifting Modelmentioning
confidence: 99%
“…Self-generation does not have to be traded via the wholesale market (Ackermann et al, 2001) and results in a number of potential benefits for the energy system, among which there is the reduced peak generation requirement (see Luthander et al, 2015, for a survey). Nonetheless, selfgeneration from rooftop solar PV systems increases the load dependence on weather, seasons, and time of the day (Ruppert et al, 2016), thus resulting in less smooth and spikier grid load shapes, which can make the existing standard load profiles inappropriate. This inappropriateness is highlighted in Fig.1, which shows the German hourly load (in MW) of the residential sector in June 2010 and 2016 (chart (a) and chart (b), respectively), and the contribution of rooftop solar PV selfgeneration in satisfying the electricity demand of the residential sector (blue area in the charts) in the period 1 .…”
Section: Literature Reviewmentioning
confidence: 99%