The process of designing a sail can be a challenging task because of the difficulties in predicting the real aerodynamic performance. This is especially true in the case of downwind sails, where the evaluation of the real shapes and aerodynamic forces can be very complex because of turbulent and detached flows and the high-deformable behavior of structures. Of course, numerical methods are very useful and reliable tools to investigate sail performances, and their use, also as a result of the exponential growth of computational resources at a very low cost, is spreading more and more, even in not highly competitive fields. This paper presents a new methodology to support sail designers in evaluating and optimizing downwind sail performance and manufacturing. A new weakly coupled fluid–structure interaction (FSI) procedure has been developed to study downwind sails. The proposed method is parametric and automated and allows for investigating multiple kinds of sails under different sailing conditions. The study of a gennaker of a small sailing yacht is presented as a case study. Based on the numerical results obtained, an analytical formulation for calculating the sail corner loads has been also proposed. The novel proposed methodology could represent a promising approach to allow for the widespread and effective use of numerical methods in the design and manufacturing of yacht sails.

Cirello, A., Ingrassia, T., Mancuso, A., Nigrelli, V., Tumino, D. (2021). Improving the Downwind Sail Design Process by Means of a Novel FSI Approach. JOURNAL OF MARINE SCIENCE AND ENGINEERING, 9(6), 1-19 [10.3390/jmse9060624].

Improving the Downwind Sail Design Process by Means of a Novel FSI Approach

Cirello, Antonino;Ingrassia, Tommaso
;
Mancuso, Antonio;Nigrelli, Vincenzo;
2021-06-04

Abstract

The process of designing a sail can be a challenging task because of the difficulties in predicting the real aerodynamic performance. This is especially true in the case of downwind sails, where the evaluation of the real shapes and aerodynamic forces can be very complex because of turbulent and detached flows and the high-deformable behavior of structures. Of course, numerical methods are very useful and reliable tools to investigate sail performances, and their use, also as a result of the exponential growth of computational resources at a very low cost, is spreading more and more, even in not highly competitive fields. This paper presents a new methodology to support sail designers in evaluating and optimizing downwind sail performance and manufacturing. A new weakly coupled fluid–structure interaction (FSI) procedure has been developed to study downwind sails. The proposed method is parametric and automated and allows for investigating multiple kinds of sails under different sailing conditions. The study of a gennaker of a small sailing yacht is presented as a case study. Based on the numerical results obtained, an analytical formulation for calculating the sail corner loads has been also proposed. The novel proposed methodology could represent a promising approach to allow for the widespread and effective use of numerical methods in the design and manufacturing of yacht sails.
4-giu-2021
Cirello, A., Ingrassia, T., Mancuso, A., Nigrelli, V., Tumino, D. (2021). Improving the Downwind Sail Design Process by Means of a Novel FSI Approach. JOURNAL OF MARINE SCIENCE AND ENGINEERING, 9(6), 1-19 [10.3390/jmse9060624].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/522380
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