Angelos I. Nousdilis scite author profile

Over the last few decades, there is a constantly increasing deployment of solar photovoltaic (PV) systems both at the commercial and residential building sector. However, the steadily growing PV penetration poses several technical problems to electric power systems, mainly related to power quality issues. To this context, the exploitation of energy storage systems integrated along with PVs could constitute a possible solution. The scope of this paper is to thoroughly evaluate the economic viability of hybrid PV-and-Storage systems at the residential building level under a future pure self-consumption policy that provides no reimbursement for excess PV energy injected to the grid. For this purpose, an indicator referred to as the Levelized Cost of Use is utilized for the assessment of the competitiveness of hybrid PV-and-Storage systems in the energy market, considering various sizes of the hybrid system, battery energy ✩ This research has been co-funded by the European Union and National Funds of the participating countries through the Interreg MED Programme, under the project "Promotion of higher penetration of distributed PV through storage for all -StoRES".

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Active power management in low voltage networks with high photovoltaics penetration based on prosumers’ self-consumption

Nousdilis

Christoforidis

Papagiannis

2018

Applied Energy

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Impact of policy incentives on the promotion of integrated PV and battery storage systems: a techno‐economic assessment

Nousdilis

Kryonidis

Kontis

et al. 2020

IET Renewable Power Generation

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During the last two decades, the use of residential photovoltaic (PV) systems has been widely promoted by governments through various support mechanisms such as feed-in-tariffs, net-metering, net-billing, etc. These support schemes have developed a secure investment environment, increasing the penetration level of PVs in low-voltage distribution grids. Nonetheless, increased PV integration may introduce several technical problems regarding the secure operation of distribution grids. Battery energy storage (BES) systems can mitigate such challenges, but the high capital cost is one of the most important limiting factors towards the widespread use of these systems. In fact, the financial viability of integrated PV and BES systems under different support schemes remains an open issue. In this study, the profitability of PV and BES systems is evaluated through an advanced techno-economic model, that provides the optimal size of PV-BES system in terms of net present value, based on the electricity production and consumption profile of the installation, PV and BES systems costs, and electricity charges. The proposed model may be a useful tool for prosumers, grid operators and policymakers, to assess the impact of various incentive policy schemes and different BES operation strategies on the economic viability of PV-BES systems. Nomenclature Indices k billing period n year of analysis r pricing period t year of investment (t = 1 for an investment at the current year) ti time instant related to the BES system control Variables c t, n annual electricity cost for a net consumer supplied exclusively by the grid c SC t, n annual electricity cost for a prosumer with a PV-BES system operating under a self-consumption scheme c NeB t, n

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Ancillary services in active distribution networks: A review of technological trends from operational and online analysis perspective

Kryonidis

Kontis

Papadopoulos

et al. 2021

Renewable and Sustainable Energy Reviews

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A two-layer control strategy for voltage regulation of active unbalanced LV distribution networks

Kontis

Kryonidis

Nousdilis

et al. 2019

International Journal of Electrical Power & Energy Systems

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