TY - GEN
T1 - Low-emissions of small crafts by minimizing hull drag
T2 - 17th International Conference on Ships and Shipping Research, NAV 2012
AU - Biancardi, C. G.
AU - Kutcher, J.
AU - Datla, R.
N1 - Publisher Copyright:
© Associazione Italiana di Tecnica Navale.
PY - 2012
Y1 - 2012
N2 - In recent years we have been seeing an increased awareness of the need for proposing "clean" passenger vessels in order to limit the negative environmental impact due to gas emissions and simultaneously satisfying an acceptable commercial speed to ensure daily and regular services to citizens, commuters and tourists. However, this has to cope with the competitive speed and flexibility performances of other modes of transport. This leaves ample scope for developing a variety of waterborne hybrid technology for passenger ferries. The scope of this research has been to concentrate the engineering and design innovations on the: • Development of an optimized hull: in order to obtain specific hydrodynamic capabilities (lower resistance, greater stability and improved propulsion characteristics). • Improvement of the passengers' comfort: with the reduction of noise, vibrations and exhaust gas. This paper will present the reasons behind the research strategy that has led to a new generation of trimaran hulls by minimising the hull's drag-design approach. Specifically, this research has been based on a critical analysis of the diversity of ama yaw and roll angles and outriggers positioning. Then the paper will be comparing the results of the test series of the angles of the Trimaran amas. Design and towing tank test of a scaled trimaran model will be illustrated and compared along with some key and relevant results.
AB - In recent years we have been seeing an increased awareness of the need for proposing "clean" passenger vessels in order to limit the negative environmental impact due to gas emissions and simultaneously satisfying an acceptable commercial speed to ensure daily and regular services to citizens, commuters and tourists. However, this has to cope with the competitive speed and flexibility performances of other modes of transport. This leaves ample scope for developing a variety of waterborne hybrid technology for passenger ferries. The scope of this research has been to concentrate the engineering and design innovations on the: • Development of an optimized hull: in order to obtain specific hydrodynamic capabilities (lower resistance, greater stability and improved propulsion characteristics). • Improvement of the passengers' comfort: with the reduction of noise, vibrations and exhaust gas. This paper will present the reasons behind the research strategy that has led to a new generation of trimaran hulls by minimising the hull's drag-design approach. Specifically, this research has been based on a critical analysis of the diversity of ama yaw and roll angles and outriggers positioning. Then the paper will be comparing the results of the test series of the angles of the Trimaran amas. Design and towing tank test of a scaled trimaran model will be illustrated and compared along with some key and relevant results.
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M3 - Conference contribution
AN - SCOPUS:85052539014
SN - 9781614998693
T3 - NAV International Conference on Ship and Shipping Research
BT - NAV International Conference on Ship and Shipping Research
A2 - Visconti, Ignazio Crivelli
A2 - Trieste, Mario
Y2 - 17 October 2017 through 19 October 2017
ER -