Acknowledgement
본 연구는 방위사업청과 국방과학연구소가 지원한 특화연구실 사업 '미래 잠수함 추진기 소음 모형시험법 개발 및 D/B 구축연구' 과제(PGS4262)의 지원으로 수행되었으며 이에 감사 드립니다.
DOI QR Code
In order to study the self-propulsion test and analysis techniques for the submerged body with pumpjet propulsors in the Large Cavitation Tunnel (LCT), at the Korea Research Institute of Ships and Ocean Engineering, a set of test equipment was designed and manufactured. The pumpjet propulsor is composed of rotor, stator and duct which results in the strong interaction between the components. To measure the thrust and torque for duct and stator, a ring-shaped sensor was applied. The test equipment including pumpjet is installed on the stern of the submerged body. As the whole pumpjet including duct and stator was considered as the propulsor from pumpjet open-water test, the self-propulsion test was conducted in the same way. The total thrust, combined thrust of rotor, duct and stator was used for the pumpjet self-propulsion test analysis. Accordingly, the self-propulsion test and analysis were conducted in the same way as those of the conventional propeller. The full-scale performances of the pumpjet propulsor were compared with those of the reference propeller. On the basis of the present study, it is thought that the pumpjet propulsor would be designed optimally.
본 연구는 방위사업청과 국방과학연구소가 지원한 특화연구실 사업 '미래 잠수함 추진기 소음 모형시험법 개발 및 D/B 구축연구' 과제(PGS4262)의 지원으로 수행되었으며 이에 감사 드립니다.