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Development of a Remotely Controlled Testing Platform with Low-drag Air-ventilated Hull 被引量:3
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作者 Konstantin I. Matveev Nicholaus I. Perry Alexander W. Mattson Christopher S. Chaney 《Journal of Marine Science and Application》 CSCD 2015年第1期25-29,共5页
This paper addresses the development and testing of a remotely controlled boat platform with an innovative air-ventilated hull. The application of air cavities on the underside of ship hulls is a promising means for r... This paper addresses the development and testing of a remotely controlled boat platform with an innovative air-ventilated hull. The application of air cavities on the underside of ship hulls is a promising means for reducing hydrodynamic drag and pollutant emissions and increasing marine transportation efficiency. Despite this concept's potential, design optimization and high-performance operation of novel air-cavity ships remain a challenging problem. Hull construction and sensor instrumentation of the model-scale air-cavity boat is described in the paper. The modular structure of the hull allows for easy modifications, and an electric propulsion unit enables self-propelled operation. The boat is controlled remotely via a radio transmission system. Results of initial tests are reported, including thrust, speed, and airflow rate in several loading conditions. The constructed platform can be used for optimizing air-cavity systems and testing other innovative hull designs. This system can be also developed into a high-performance unmanned boat. 展开更多
关键词 air-cavity ship air-ventilated hull remotely controlled testing platform drag reduction hull construction unmanned surface vehicle
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