An experimental/numerical approach for evaluating skin friction on full-scale ships with surface roughness

For an accurate evaluation of the increase in skin friction due to various surface topographies on ships, i.e. plate roughness, coatings, or bio fouling, both experimental measurements and a numerical evaluation of those measurements are necessary. The measurements are necessary as no other practical method exists to evaluate the skin friction coefficient on most surface topographies, and numerical evaluation is required to compute the roughness effects of varying ship types and speeds. Therefore, a method for measuring the skin friction coefficient for bio-fouled and structured surfaces at full-scale friction velocity is presented, and a validation of the design and measuring procedures is given. For the ship frictional resistance calculations, the Computational Fluid Dynamics (CFD) code ShipFlow has been modified to take the added friction into account.     

刘老涧船闸应对超高船舶通航安全管理探索

船舶大型化给船闸通航安全管理带来了很大挑战。刘老涧船闸通过安装超高报警装置等来应对超高船舶对船闸安全通航的影响。阐述3种超高报警装置在船闸通航安全管理中的作用和意义,着重介绍红外线报警器的选型、安装、故障诊断及排除。     

浅谈航标船舶的消防安全

文章结合航标船舶特殊的工作条件，谈如何做好消防安全管理工作。     

Structural safety assessment of a pontoon-type VLFS considering damage to the breakwater

 A structural safety assessment of a pontoon-type very large floating structure (VLFS) surrounded by a gravity-type breakwater was carried out for extreme wave conditions by considering the damage to the breakwater. Bending and shear collapses are considered to be a failure mode of the floating structure, while overturning damages the breakwater. The probability of the breakwater overturning, and the transmitted wave height before and after damage to the breakwater, are evaluated using design formulae for port and harbor facilities in Japan. The ultimate bending and shear strengths of the floating structure are calculated by the idealized structural unit method (ISUM) and FEM, respectively. The calculated failure probability for the floating structure is compared with the specified target safety level. It was found that the floating structure under consideration is most likely to fail by bending in transverse waves, and that the corresponding failure probability satisfies the target level. Received: September 12, 2002 / Accepted: October 4, 2002 Acknowledgment. The authors are grateful to Dr. Shigeo Ohmatsu, National Maritime Research Institute, Japan, for allowing us to use the program of hydroelastic response analysis. Address correspondence to: M. Fujikubo (e-mail: fujikubo@naoe.hiroshima-u.ac.jp) Updated from the Japanese original, which won the 2002 SNAJ prize (J Soc Arthit Jpn 2002;190:337–345)     

Risk assessment for fire safety considering characteristic evacuees and smoke movement in marine fires

In the safety design of marine systems, the matter of human life in the event of a marine fire must be considered. It may be difficult to establish a safe evacuation system because a characteristic behavioral pattern based on human factors is elusive. This study consists of three analyses on (1) the state of smoke diffusion, calculated by the use of a two-layer zone model, (2) evacuation movements, simulated by a group behavioral model, and considering the occurrence of panic and the smoke spreading phase, and (3) the risk index for safety assessment using the results of smoke diffusion and escape movements. This risk index can be used for comparisons between various safety systems, and its validity is confirmed by an evacuation model of common spaces on a typical cruise ship.     

Towards safety improvement: implementation and assessment of new standards of competence for Electro-Technical Officers on ships

The paper deals with education of ship engineers as an integral part of maritime policy in global shipping. The central problem, how to reconcile technological advancement with training en route to improving safety, is defined. A complete conceptual model for solving a central question is formulated and described. At the beginning, a short analysis of technological advances and the need for training is presented. Next, the basic components of conceptual model, including implementation and assessment of new standards of competences for Electro-Technical Officers in the wake of Maritime Education and Training (MET) development are discussed. A key point of the assessment procedure is focused on the formulation of criterion defining the impact of new standards on the given processes characterizing a professional carrier development of seafarers. These processes, which mean certification process and recruitment of candidates to seafarer profession, are strongly linked with and influenced on MET development and improving the safety of shipping. Empirical application by pointing the Polish case study to the framework of conceptual model under consideration is shown and analysed. Finally, the future works as well as the concluding remarks are formulated and commented on.     

中国籍非国际航行船舶安全检查选船机制

长期以来,中国籍非国际航行船舶的安全检查没有系统的选船机制。为了填补这一项空白,提高上海港以及我国的船舶监督管理水平,文中研究了我国非国际航行船舶安全检查的选船因素,并建立评价指标体系,同时引入模糊综合评价的方法。建立我国非国际航行船舶安全检查的选船机制。最后,还将选船的数学模型转化为简单易用的选船软件,为日常的安检工作提供了有力支持。     

Long-term prediction method for the green water load and volume for an assessment of the load line

 To develop a practical prediction method for the green water load and volume on the bow deck in irregular waves, model tests were conducted using a tanker and a cargo ship on a domestic Japanese voyage. The relation between green water load and relative water height at the stem was considered. Based on the finding that the maximum value of the green water load is proportional to the square of the maximum value of the water elevation over the bow top, the probability density functions of the green water load and volume in short-term predictions were proposed. It was verified that the proposed functions show good agreement with the measured distributions, especially in the tails, and were better than conventional functions. Using these functions, long-term predictions of the green water load were carried out. It was confirmed that the present method is more rational than the conventional one for estimating the long-term probability of the green water load. An assessment of the bow height of a domestic Japanese ship from the viewpoint of deck wetness was carried out using these prediction methods. This research was used as the technical background for the revision of domestic rules on load lines, which was enforced in October 2001. Received: July 19, 2002 / Accepted: October 30, 2002 Acknowledgment. Some of the present study was carried out as part of a cooperation project (RR45) with the Shipbuilding Research Association of Japan, supported by the Nippon Foundation. Address correspondence to: Y. Ogawa (e-mail: ogawa@nmri.go.jp)