Source: https://www.esrec.swiss/
Timestamp: 2019-04-23 14:26:40+00:00

Document:
BFH heads one of the leading battery research and development centres in Switzerland and takes part in three Swiss competence center for energy research: SCCER-Storage, SCCER-Mobility and SCCER-Grids.
CSEM hosts a national competence center for silicon-based photovoltaics and is active in Energy Systems research. CSEM also participates in two Swiss Competence Center of Energy Research as cooperation partner: SCCER-Grids and SCCER FEEB&D.
At ESReC, we share the vision that electrical energy storage is not only a key driver for the electrification of transport but will also play a vital role in catalyzing the integration of renewable energy sources. To exploit such systems in an efficient and economic manner, ESReC has set up a common research infrastructure for the testing and characterization of electrochemical storage systems.
Swiss Energy Storage Overview: Overview of the Swiss electrical energy storage landscape from pumped-hydro systems to MWh-sized batteries for ancillary services and several pilot power plants. It also provides a list of commercially available PV-battery systems in Switzerland.
PV hosting capacity analysis tool: Open-source tool to estimate the PV hosting capacity of your electrical network under specific solar and network configurations, also including support for inclusion of battery systems.
C. Brivio, V. Musolino, P.-J. Alet, M. Merlo, A. Hutter, and C. Ballif, “Application-independent protocol for predicting the efficiency of lithium-ion battery cells in operations,” J. Energy Storage, vol. 15, 2018.
C. Brivio, “Battery energy storage systems: modelling, applications and design criteria,” “Doctoral Diss., 2017.
S. Barcellona, L. Piegari, V. Musolino, and C. Ballif, “Economic viability for residential battery storage systems in grid-connected PV plants,” IET Renewable Power Generation, Aug. 2017.
C. Brivio, V. Musolino, P. J. Alet, M. Merlo, A. Hutter, and C. Ballif, “Analysis of lithium-ion cells performance, through novel test protocol for stationary applications,” in 2017 6th International Conference on Clean Electrical Power (ICCEP), 2017, pp. 410–415.
D. Falabretti, M. Moncecchi, C. Brivio, M. Delfanti, M. Merlo, and V. Musolino, “IoT-oriented management of distributed energy storage for the primary frequency control,” in 2017 IEEE International Conference on Environment and Electrical Engineering and 2017 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I CPS Europe), 2017, pp. 1–6.
V. Musolino, C. Rod, P. J. Alet, A. Hutter, and C. Ballif, “Improved ramp-rate and self consumption ratio in a renewable-energy-based DC micro-grid,” in 2017 IEEE Second International Conference on DC Microgrids (ICDCM), Nüremberg, 2017, pp. 564–570.
S. Barcellona, L. Piegari, and V. Musolino, “Correct sizing of a storage unit for a residential PV plant,” in 5th IET International Conference on Renewable Power Generation (RPG) 2016, 2016, pp. 1–7.
C. Brivio, S. Mandelli, and M. Merlo, “Battery energy storage system for primary control reserve and energy arbitrage,” Sustain. Energy, Grids Networks, vol. 6, pp. 152–165, 2016.
P.-J. Alet et al., “Forecasting and Observability: Critical Technologies for System Operations with High PV Penetration,” in 32nd European Photovoltaic Solar Energy Conference and Exhibition, Munich, 2016.
SwissTrolley plus (SFOE lighthouse project, 2015-2018) – Lifespan analysis and modeling of a high-performance battery in a fully electric trolleybus in the city of Zurich.
SBB battery (SFOE pilot project, 2014-2017) – Design and development of a battery for electrical power in SBB-railway carriages.

References: V. 
 V. 
 V. 
 V. 

V. 
 V.