When operating at high speed on a vessel, a high-speed planing hull occurs nonlinear movements such as stern trim and large sprays. This phenomenon results in the hindrance of stability, embarkation and mission performance. Excessive stern trim during the slides decreases propulsion efficiency and visibility of helmsman due to porpoising and changing the attack angle of the fluid flowing into the propeller. To improve these problems, an outboard floating plate is installed on the cavitation plate to greatly suppress or eliminate the porpoising phenomenon. In this study, to analyze the performance of the floating plate mounted on the outboard engine, numerical analysis was carried out to investigate the resistance applied to the floating plate and the lift generated according to the change of the angle of attack and the flow velocity. The reliability of the floating plate mounted on the outboard engine was verified by applying the floating plate according to the speed and the angle of attack.
Recently, the outboard engine system of internal combustion engine is widely used in the field of small ship propulsion. However, the internal combustion engine has serious problems of energy depletion and environmental problems, so electric propulsion methods are being studied. In this paper, we have developed important motors and controllers of electric propulsion system for small marine outboard motors. The motor design was performed through the motor characteristics analysis method, and the 30Kw system was developed through the BEMF processing circuit and the power conversion circuit by the embedded microprocessor. This study was carried out through government supported projects and achieved quantitative targets through accredited institutions.
The planing hull is characterized by a large change in the posture according to the speed, and the shape of the propeller varies, so that the hull resistance varies greatly depending on the propeller used. Especially, the Savitsky system, which is widely used for estimating the resistance of planing hull, does not consider the characteristics of these propeller and ship bottom spray rails. In this paper, in order to investigate the difference in resistance characteristics between the propeller and the bottom of the propeller of 6m and 12m class propeller using propeller such as outboard or stern drive, A comparative test was conducted on resistance and attitude posture changes in the Circulating Water Channel of Institute of Medium & Small Shipbuilding. As a result of comparison test, it was confirmed that there is a clear difference in the attitude change due to the presence of the bottom floor spray rail and the change in resistance characteristics due to the installation of the propeller. However, attitude change with the propeller was found to be insignificant.
In the era of mass leisure, tourism has become an important way for people to relax and pursue pleasure. But at the same time, tourists who leave their habitual residence and than unknown to the tourist destination,will generally have a sense of strangeness, insecurity. With fun and travel, tourism safety also exists in the journey. "Security" is the basic psychology of tourists traveling. Attach importance to the safety of tourism, especially the importance of the outbound tourism safety which is more strange, complex environment and culture,is increasingly important. Outbound tourism safety has many categories, the causes are different. But to strengthen the safety consciousness, forming national tourism safety climate initiative, strengthen prevention and supervision, both parties act calmly, and nip in the bud, these should be the lessons we learn from the disastrous events such as "Oriental Star" shipwreck event of the special major tourism safety. And we also summed up the pros and cons after advice, as a warning for the future.
현재 근해어업은 기피 산업으로 어민들의 고령화 및 감소로 인력을 구하기 어렵고 어로활동을 하기 위해서는 일반적으로 2명 이상이 1조로 작업이 진행된다. 따라서 숙련되지 못한 사람들이 조를 이루어 작업을 할 경우 의사전달에 시차가 생기고 한사람은 배의 조종에 매달리므로 작업의 능률이 떨어진다. 따라서 레저나 소형어선에서 1인이 선박을 조종하면서 작업이나 레저를 즐길 수 있는 선외기의 원격제어 시스템 연구의 필요성이 대두되었다. 본 연구에서는 작업의 효율을 높이고 인력을 절감 할 수 있는 선외기의 원격제어시스템에 관한 연구를 수행하였다. 선외기는 엔진, 조타기, 정 역전 및 중립 기어박스가 하나의 시스템으로 구성되어 있다. 소형 선외기에 이 세 가지의 제어를 직류전동기를 이용하여 위치제어와 속도제어를 하였고, 마이크로컨트롤러를 이용하여 조타기와 엔진회전수 제어를 프로그램화 하여 어민들이 작업을 하면서 동시에 원하는 조종을 할 수 있도록 시스템을 설계 제작하였다. 시운전결과 전속에서 좌 우현 조타 성능이 명령대로 잘 움직였다.