1. Attività formative:
1.1. Corsi di dottorato seguiti durante il triennio
o “Wind Aerodynamics” – Prof. Antonio Segalini (12ore);1.2. Altri corsi seguiti durante il triennio
o “Complementi Di Fluidodinamica e Turbolenza”, Prof.ssa Maria Vittoria Salvetti – Prof. Simone Camarri (cod 681II) 6 CFU;
1.3. Congressi e workshop
Congressi
o APS 2019, November, 2019, Seattle USA: Speaker - “Effect of corner rounding on the flow around a 5:1 rectangular cylinder. A paradox explained?”;
o FrontUQ19, September 2019, Seattle USA: Speaker - “Stochastic analysis of the effect of modeling, numerical and geometrical parameters in large-eddy simulations of the flow around a 5:1 rectangular cylinder”;
o DLES12, June 2019, Madrid Spain: Speaker – “Large Eddy Simulations of separated wakes with the actuator line model”;
o APS 2018, November 2018, Atlanta USA- “Stochastic calibration of the actuator line model parameters”;
o ATI 2018, September 12-14, 2018, Pisa (PI) Italy: Poster session - “Development of a BEM-CFD tool for Vertical Axis Turbines based on the Actuator Disk model”;
o EFMC 2018, September 10, 2018, Vienna Austria: Speaker – “Actuator Line Model predictions of turbulent wake: Stochastic sensitivity analysis to model parameters”; o iTi 2018, September 4, 2018, Bertinoro (FC) Italy: Speaker – “Actuator Line Model
predictions of turbulent wake”;
o APS 2017, November 18, 2017, Denver USA: Speaker - “Appraisal of ALM predictions of turbulent wake features”;
o AIDAA 2017, September 18-22, Palermo - Enna, Italy: Speaker – “Towards a general Dynamic Stall model”;
o DLES11, May 29-31, 2017, Pisa, Italy: Poster session - “Large Eddy Simulation of a wind farm experiment”.
Workshop
o UQiMS19, September 10, 2019, Pisa: Speaker - “Simulazioni numeriche di scie turbolente tramite modello di linea attuatrice”.
2. Pubblicazioni:
2.1. Riviste internazionali
o B. Rocchio, A. Mariotti, M. V. Salvetti: “Flow around a 5:1 rectangular cylinder: effects of upstream-edge rounding” – Journal of Wind Engineering & Industrial Aerodynamic - minor revision;
o B. Rocchio, U. Ciri, M. V. Salvetti, S. Leonardi: “Appraisal and calibration of the Actuator Line Model for the prediction of turbulent separated wakes” – WindEnergy. (2020); 23: 1231‐ 1248. https://doi.org/10.1002/we.2483
o B. Rocchio, C. Chicchiero, M. V. Salvetti, S. Zanforlin: “A simple model for deep dynamic stall conditions” – Wind Energy. (2020); 23: 915– 938. https://doi.org/10.1002/we.2463
2.2. Capitoli di libri
o A. Mariotti, B. Rocchio, E. Pasqualetto, C. Mannini, M.V. Salvetti: “Flow around a 5:1 rectangular cylinder: effects of the rounding of the upstream corners”. Direct and Large-Eddy Simulation XII ERCOFTAC Series (in press);
o B. Rocchio, U. Ciri, M. V. Salvetti, and S. Leonardi: Large Eddy Simulation of a wind farm experiment. Direct and Large-Eddy Simulation XI ERCOFTAC Series, Springer International Publishing Switzerland (2019);
2.3. Proceedings:
o S. Deluca, S. Zanforlin, B. Rocchio, P.J. Haley, C. Fourcat, C. Mirabito, F.J. Lermusiaux: “Scalable Coupled Ocean and Water Turbine Modeling for Assessing Ocean Energy Extraction”. OCEANS 2018 MTS/IEEE Charleston, OCEAN (2019) ;
o B. Rocchio, S. Deluca, M. V. Salvetti, S. Zanforlin: “Development of a BEM-CFD tool for Vertical Axis Wind Turbines based on the Actuator Disk model”. Energy Procedia (2018);
3. Tesi supervisionate
o “Introduction of the aerodynamic moment in the actuator line mode”, Sara Di Gennaro o “Sviluppo e validazione di un modello di stallo dinamico profondo”, Claudio Chicchiero o “Improvement of an Actuator Line Model for Vertical Axis Tidal Turbine and sensitivity to
variations of blade shape, solidity and operating conditions”. Marika Francesconi
o “Development and validation of a tool for vertical axis tidal turbine performance evaluation in marine environments”, Stefano Deluca
