StoRES project participated at the Efficient Buildings & Renewable Energy MED
On the 18th and 19th of October, StoRES participated at the Efficient Buildings & Renewable Energy MED Community Conference, which was organized in the framework of the Interreg MED programme in Ljubljana (Slovenia). During the Conference, StoRES showcased its energy storage solution with the battery.
The conference was attended by partners of all Interreg MED Modular Projects from the two Thematic Communities: Efficient Buildings Community and Renewable Energy Community. The conference was organized with the support and in the presence of the EU Director General for Energy.
The conference objectives where to:
• Showcase solutions for an efficient, inclusive and renewable energy model in the Mediterranean area.
• Gather experts from the energy/environmental sector to explore new synergies and share best practices and innovative ideas.
• Understand the current state, the challenges and the assets of the energy sector in the Mediterranean area.
• Formulate recommendations for the improvement of the energy sector in the Mediterranean area.
Charge/discharge process on a typical day with frequent battery usage
This figure presents the charging and discharging (positive and negative values in the graph respectively) power (Watts) of the battery unit, during a day that required frequent use of the battery (in simple words a lot of charging and discharging during the course of the day). As the pilots are located nearby, the PV production is similar, so the pilot's consumption is the parameter mainly affecting the behaviour of the battery.
Average Self-consumption Ratio with and without storage during the summer months
Average value from the pilots for the three months of summer. The case of storage and a no-storage scenario are presented. The self-consumption shows how the PV energy is consumed (via the household - direct consumption or via battery charging).
The equation used is:
SCR = (Direct PV Consumption + Battery Charge) / (Total PV Production)
As the rated power of the battery system is 2.5 KW (2500 KW, the max/min values seen in the graph), it can be observed that the power sizing of the battery (those 2.5 KW) was done correctly and that this power ability can cover both the power needs of the households and is also enough to charge the battery with surplus PV generation.
Average Self-sufficiency Quota with and without storage during the summer months
Average value from the pilots for the three months of summer. The case of storage and a no-storage scenario are presented.
The self-sufficiency shows the amount of PV energy consumed (via the household – direct consumption or via battery discharging) over the total energy consumption of the household.
The equation used is:
SSQ = (Direct PV Consumption + Battery Discharge) / (Total Household Consumption)
Average Grid feed-in power to PV Production with and without storage during the summer months