| IEA wind TCP task 37: definition of the IEA 15-megawatt offshore reference wind turbine E Gaertner, J Rinker, L Sethuraman, F Zahle, B Anderson, GE Barter, ... National Renewable Energy Lab.(NREL), Golden, CO (United States), 2020 | 316* | 2020 |
| IEA Wind TCP Task 37: Systems engineering in wind energy-WP2. 1 Reference wind turbines P Bortolotti, HC Tarres, K Dykes, K Merz, L Sethuraman, D Verelst, ... National Renewable Energy Laboratory (NREL), 2019 | 131 | 2019 |
| Definition of the IEA wind 15-megawatt offshore reference wind turbine E Gaertner, J Rinker, L Sethuraman, F Zahle, B Anderson, G Barter, ... National Renewable Energy Laboratory, 2020 | 88 | 2020 |
| Combined preliminary–detailed design of wind turbines P Bortolotti, CL Bottasso, A Croce Wind Energy Science 1 (1), 71-88, 2016 | 88 | 2016 |
| Definition of the IEA 15 MW offshore reference wind turbine E Gaertner, J Rinker, L Sethuraman, F Zahle, B Anderson, G Barter, ... Golden, CO, 2020 | 70 | 2020 |
| Systems Engineering in Wind Energy–WP2. 1 Reference Wind Turbines P Bortolotti, HC Tarrés, K Dykes, K Merz, L Sethuraman, D Verelst, ... National Renewable Energy Laboratory: Oak Ridge, TN, USA, 2019 | 39 | 2019 |
| Integrated aero-structural optimization of wind turbines CL Bottasso, P Bortolotti, A Croce, F Gualdoni Multibody System Dynamics 38, 317-344, 2016 | 39 | 2016 |
| A detailed wind turbine blade cost model P Bortolotti, DS Berry, R Murray, E Gaertner, DS Jenne, RR Damiani, ... National Renewable Energy Lab.(NREL), Golden, CO (United States), 2019 | 38 | 2019 |
| Definition of the IEA 15-Megawatt Offshore Reference Wind. Golden, CO: National Renewable Energy Laboratory E Gaertner, J Rinker, L Sethuraman, F Zahle, B Anderson, G Barter, ... NREL/TP-5000-75698, 2020 | 25 | 2020 |
| Comparison between upwind and downwind designs of a 10 MW wind turbine rotor P Bortolotti, A Kapila, CL Bottasso Wind Energy Science 4 (1), 115-125, 2019 | 25 | 2019 |
| Carbon glass hybrid materials for wind turbine rotor blades P Bortolotti | 22 | 2012 |
| Land-based wind turbines with flexible rail transportable blades–Part I: Conceptual design and aeroservoelastic performance P Bortolotti, N Johnson, NJ Abbas, E Anderson, E Camarena, JA Paquette Wind Energy Science Discussions 2021, 1-22, 2021 | 21 | 2021 |
| On the scaling of wind turbine rotors H Canet, P Bortolotti, CL Bottasso Wind Energy Science 6 (3), 601-626, 2021 | 21 | 2021 |
| Lightweight rotor design by optimal spar cap offset A Croce, L Sartori, MS Lunghini, L Clozza, P Bortolotti, CL Bottasso Journal of Physics: Conference Series 753 (6), 062003, 2016 | 20 | 2016 |
| A cross-sectional aeroelastic analysis and structural optimization tool for slender composite structures R Feil, T Pflumm, P Bortolotti, M Morandini Composite structures 253, 112755, 2020 | 19 | 2020 |
| Integration of multiple passive load mitigation technologies by automated design optimization—The case study of a medium‐size onshore wind turbine P Bortolotti, CL Bottasso, A Croce, L Sartori Wind Energy 22 (1), 65-79, 2019 | 19 | 2019 |
| Integration of prebend optimization in a holistic wind turbine design tool L Sartori, P Bortolotti, A Croce, CL Bottasso Journal of Physics: Conference Series 753 (6), 062006, 2016 | 18 | 2016 |
| An open-source frequency-domain model for floating wind turbine design optimization M Hall, S Housner, D Zalkind, P Bortolotti, D Ogden, G Barter Journal of physics: conference series 2265 (4), 042020, 2022 | 17 | 2022 |
| IEA wind TCP task 37: Systems engineering in wind energy-WP2. 1 reference wind turbines Tech. rep P Bortolotti, HC Tarrés, K Dykes, K Merz, L Sethuraman, D Verelst, ... IEA Wind URL https://www. nrel. gov/docs/fy19osti/73492. pdf, 2019 | 16 | 2019 |
| Effectively using multifidelity optimization for wind turbine design J Jasa, P Bortolotti, D Zalkind, G Barter Wind Energy Science Discussions 2021, 1-22, 2021 | 15 | 2021 |
Garrett BarterNational Renewable Energy LaboratoryVerified email at nrel.gov
