Electric Marine Laboratory

marine lab

The Hardware-In-the-Loop laboratory includes the following main devices:

- Real time simulators (Opal RT)

- Power amplifiers (15 kVA)

- Lithium batteries (LFP lithium-ion, 8 modules of 50Ah, 48V).

- Programmable power converters (24 Half-bridge power modules, rated 400-800V, 32-46A, with programmable controllers).   
- Bridge simulator: MANTA simulator by CETENA, full ship's bridge simulator (Class B).

 

Real-Time Simulator 1OPAL-RT OP5707XG, multi-core real time simulator, with I/O ports and eHS FPGA processor, expanded with the FPGA equipment OP4520.
Real-Time Simulator 2OPAL-RT OP4512, multi-core real time simulator, with I/O ports and eHS FPGA processor.

Related Publications

DC Shipboard Microgrid Modeling for Fuel Cell Integration Study
F. D'Agostino, G. P. Schiapparelli, F. Silvestro, S. Grillo
2019 IEEE Power & Energy Society General Meeting (PESGM)

Integration of shipboard microgrids within land distribution networks: Employing a ship microgrid to meet critical needs
F D’Agostino, A Fidigatti, E Ragaini, F Silvestro
IEEE Electrification Magazine 7 (4), 69-80

Dynamic modeling of a supply vessel power system for DP3 protection system
A Boveri, F D’Agostino, A Fidigatti, E Ragaini, F Silvestro
IEEE Transactions on Transportation Electrification 2 (4), 570-579

The ShIL Project: a new laboratory infrastructure for co-simulation of multi-domain marine applications 
F D’Agostino, D Kaza, G Schiapparelli 
2020 AEIT International Annual Conference (AEIT)

Development of a multiphysics real-time simulator for model-based design of a DC shipboard microgrid
F D’Agostino, D Kaza, M Martelli, GP Schiapparelli, F Silvestro, C Soldano
Energies 13 (14), 3580

Multiphysics modeling and simulation of integrated electric propulsion system for ship dynamic positioning
S Donnarumma, M Martelli, F D'Agostino, D Kaza, F Silvestro
IEEE Transactions on Industry Applications

Power plant design for all-electric ships considering the assessment of carbon intensity indicator
M Gallo, D Kaza, F D’Agostino, M Cavo, R Zaccone, F Silvestro
Energy, 283, 129091

A Cross-Current Compensation Control Scheme to Improve Voltage Regulation and Power Sharing in DC Shipboard Microgrids
F D'Agostino, F Silvestro, F Sivori
2023 IEEE Electric Ship Technologies Symposium (ESTS)

High-voltage shore connection systems: Grounding resistance selection and short-circuit currents evaluation
F D’Agostino, S Grillo, R Infantino, E Pons
IEEE Transactions on Transportation Electrification
 

Ultimo aggiornamento 8 Luglio 2024