• 제목/요약/키워드: Naval ships

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함정 안전성 향상을 위한 품질관리체계 개선 방안 연구 (A Study for Improving Quality Management System of Naval Ships to Enhance Safety)

  • 황기철;김종하
    • 대한조선학회논문집
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    • 제59권6호
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    • pp.432-438
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    • 2022
  • This study focuses on improving quality management system of naval ships to enhance safety. Recently, there were problems caused by the lack of quality management system when building Korea naval ships. Foreign naval ships are designed and built through certification by professional organizations in the commercial sector to reduce budget and enhance ship safety. Merchant ships are designed, built, operated and maintained by the organizations in accordance with the Ship Safety Act. When naval ships are exported, the ordering country requires the certification from the international classification to ensure the safety and reliability of ships. Through this study, as a method of improving the quality management system of naval ships, design verification, equipment certification and construction survey using expertise of the organizations are proposed when designing and building the naval ships.

Performance analyses of naval ships based on engineering level of simulation at the initial design stage

  • Jeong, Dong-Hoon;Roh, Myung-Il;Ham, Seung-Ho;Lee, Chan-Young
    • International Journal of Naval Architecture and Ocean Engineering
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    • 제9권4호
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    • pp.446-459
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    • 2017
  • Naval ships are assigned many and varied missions. Their performance is critical for mission success, and depends on the specifications of the components. This is why performance analyses of naval ships are required at the initial design stage. Since the design and construction of naval ships take a very long time and incurs a huge cost, Modeling and Simulation (M & S) is an effective method for performance analyses. Thus in this study, a simulation core is proposed to analyze the performance of naval ships considering their specifications. This simulation core can perform the engineering level of simulations, considering the mathematical models for naval ships, such as maneuvering equations and passive sonar equations. Also, the simulation models of the simulation core follow Discrete EVent system Specification (DEVS) and Discrete Time System Specification (DTSS) formalisms, so that simulations can progress over discrete events and discrete times. In addition, applying DEVS and DTSS formalisms makes the structure of simulation models flexible and reusable. To verify the applicability of this simulation core, such a simulation core was applied to simulations for the performance analyses of a submarine in an Anti-SUrface Warfare (ASUW) mission. These simulations were composed of two scenarios. The first scenario of submarine diving carried out maneuvering performance analysis by analyzing the pitch angle variation and depth variation of the submarine over time. The second scenario of submarine detection carried out detection performance analysis by analyzing how well the sonar of the submarine resolves adjacent targets. The results of these simulations ensure that the simulation core of this study could be applied to the performance analyses of naval ships considering their specifications.

함정 재해의 신속 진압을 위한 경로 탐색에 관한 연구 (A Study on the Path Search for the Rapid Suppression of Naval Ships Casualties)

  • 박주헌;유원선;정정훈;김숙경
    • 대한조선학회논문집
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    • 제57권4호
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    • pp.221-229
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    • 2020
  • Naval ships could be seriously damaged by enemy attacks in battle. Moreover, this damage could be spread and deteriorated into a secondary accident. Secondary accidents that have adverse effects on naval ship's survivability, such as fire, flood, smoke extension, and patient occurrence, are defined as casualties. These casualties sharply degrade the survivability of naval ships. Furthermore, naval ships could be burned-out and sunk by casualties in isolated sea. Therefore, damage control and rapid suppression of the casualties in the naval ships is essential. This study was conducted in the establishment of suppression paths according to the characteristics of each casualty so that the developed system can support the rapid suppression in an emergency and even the training situation on a regular state. To establish the suppression paths, the two-dimensional numerical map is designed by converting the three-dimensional features of the naval ships, and the well known algorithms are compared to present the appropriate one for path finding problem on the naval ships. Finally, we devised a specific routing algorithm that fits the characteristics of each casualty in accordance with the Korean Navy's doctrines and handbooks of casualty suppression.

고망간강의 함정 선체 적용 가능성에 관한 연구 (A Study on the Applicability of High Manganese Steel to Naval Ship Hulls)

  • 신광호
    • 대한조선학회논문집
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    • 제61권1호
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    • pp.61-67
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    • 2024
  • A naval mine is an effective weapon system implemented for defending defends ports and seas. A mine is an underwater weapon that poses a great threat to ships sailing over the sea from shallow areas. Most of the influence-type naval mines detect magnetic field signals from ships and determine the final time of fire. Therefore, the level of underwater electro-magnetic signatures of ships is a key requirement for determining the survival of ships in wartime situations where mines are emplaced. The main reason why the high manganese steel is attracting attention for naval ship hulls is its nature as a non-magnetic steel. The non-magnetic hull does not generate electro-magnetic signatures; thus, it has the advantage improving the stealth of the ship. In this paper, I examine whether this material can be applied in the hulls material of naval ships that must be ableto reduce underwater electro-magnetic signatures by considering the non-magnetic characteristics of the first developed high manganese steel in the world.

함정 설계의 생존성 향상 방안에 관한 연구 I - Box Girder를 고려한 설계 방법 - (A Study of Survivability Improvement Method for Naval Ships′Design I - Design Method Considering Box Girder -)

  • 김재현;박명규
    • 한국항해항만학회지
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    • 제27권2호
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    • pp.199-207
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    • 2003
  • 함정은 적과이 전투 환경에서 충분한 전투력을 발휘하여야 하고 우수한 공격 능력뿐만 아니라 적의 위협 무기에 대한 적절한 방어능력을 반드시 갖추어야 한다. 함정이 방어 능력은 생존성으로 표현되고 있다. 함정의 생존성을 향상시키는데로 민감성의 감소대책이 가장 효과적이라고 할 수 있으나, 수상 전투 함정은 노출되기 쉽고 공격을 받을 수 있는 위협 무기가 매우 다양하기 때문에 취약성의 감소대책이 보다 강조되고 있다. 취약성의 감소대책으로는 이중선체, 상자형 거더(box girder), 이중 횡 격벽 및 방탄 강화 격벽의 설치, 파편 등의 방벽 설치 등의 다양한 방법이 있으나, 현실적으로 많은 비용과 중량 증가 등의 요인이 발생함으로 소요비용 대비 취약성 감소 효율 측면을 고려하여 주어진 설계 제한 범위 내에서 적용 가능한 보호 수준을 결정하여야 한다. 본 논문에서는 생존성 향상을 위한 선체 구조 설계기술의 평가 절차와 대책에 대한 방법론 등을 검토하고, 특히 상자형 거더 설치가 선체 구조의 생존성 향상에 미치는 영향을 살펴보고자 한다. 상자형 거어더의 효용성을 수치해석을 통하여 살펴보았고, 해석 결과 상자형 거어더의 설치는 생존성을 향상시킬 수 있는 유효한 설계 방법임을 알 수 있었다.

Application of Arbitrary Lagrangian-Eulerian Technique for Air Explosion Structural Analysis for Naval Ships Using LS-DYNA

  • Kim Jae-Hyun;Shin Hyung-Cheol;Park Myung-Kyu
    • Journal of Ship and Ocean Technology
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    • 제9권1호
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    • pp.38-46
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    • 2005
  • Survivability improvement method for naval ship design has been continually developed. In order to design naval ships considering survivability, it is demanded that designers should establish reasonable damage conditions by air explosion. Explosion may induce local damage as well as global collapse to the ship. Therefore possible damage conditions should be realistically estimated in the design stage. In this study the authors used ALE technique, one of the structure-fluid interaction techniques, to simulate air explosion and investigated survival capability of damaged naval ships. Lagrangian-Eulerian coupling algorithm, equation of the state for explosive and air, and simple calculation method for explosive loading were also reviewed. It is shown that air explosion analysis using ALE technique can evaluate structural damage after being attacked. This procedure can be applied to the real structural design quantitatively by calculating surviving time and probability.

Case study of detection and maneuvering performance of naval ships using engagement simulation of engineering level

  • Jeong, Dong-Hoon;Roh, Myung-Il;Ham, Seung-Ho
    • Ocean Systems Engineering
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    • 제7권3호
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    • pp.247-273
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    • 2017
  • Many different engagement situations require naval ships to achieve some level of effectiveness. The performance of the naval ships is very important for such effectiveness. There have been many studies that analyze the effectiveness and the performance. The former are largely related to engagement level simulations, while the latter are largely related to engineering level simulations. However, there have been few studies that consider both the engagement level and the engineering level at the same time. Therefore, this study presents three case studies using engagement simulation of the engineering level to check the performance of the related parameters. First, detection performance simulations are carried out by changing the specifications of the passive sonars of a submarine in different scenarios. Maneuvering performance simulations are carried out by changing the specification of the hydroplanes of a submarine in different scenarios. Lastly, in order to check whether or not our forces would succeed in attacking enemy forces, we perform an engagement simulation with various naval ship models that consist of several engineering level models, such as command systems, weapon systems, detection systems, and maneuver systems. As a result, the performance according to the specifications of the naval ships and weapons is evaluated.

함정 내부 공간별 기능 및 상호관계를 고려한 함정 공간배치 방법에 관한 연구 (Spatial Arrangement of Naval Ships Considering Functions and Relationships between Compartments)

  • 황인혁;신정학;김영민;신종계
    • 대한조선학회논문집
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    • 제51권5호
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    • pp.388-395
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    • 2014
  • This paper presents a method that generates alternatives of spatial arrangement for naval ships with limited information. To attain this end, GA (General Arrangement) methodology and GA reports of existing naval ships are analyzed. In order to improve the current naval ship spatial arrangement method that relies on the experience and know-hows of designers, we propose a systematic spatial arrangement process using SLP (Systematic Layout Planning), which determines relative positions of the components by analyzing relationships among them. The proposed method, along with the GA process, is applied to a virtual naval ship and layout alternatives are generated to verify usefulness of the method.

PLM 기반 함정획득을 위한 프레임워크 개발 방법론 (Framework for an Advanced Naval Ships Acquisition based on PLM)

  • 신종계;오대균
    • 대한조선학회논문집
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    • 제46권2호
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    • pp.189-202
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    • 2009
  • As naval ships become more complex with the reduced cost and time for their development, modeling and simulation are increasingly used. The US navy has being applied the concept of a simulation-based acquisition(SBA) to their acquisition process. However, there have been few studies on a simulation-based acquisition for naval ships (SBA-NS) in the Korean naval shipbuilding. In this paper, we discuss a framework to establish collaborative environment(CE) for an advanced naval ships acquisition based on PLM. For this, we propose architectures and a naval ship information model for design the framework of the SBA-NS. To design the framework, we develop the methodology that is composed of three major processes that are the requirement analysis process, the SBA-NS architectures design process and the design process of a reference model of a naval ship product information. Applying the methodology, the framework suitable for the Korean Navy context is developed.

폭발에 의해 손상된 함정의 생존시간 간이계산법 연구 (A Study on Simple Calculation Method of Survival Time for Damaged Naval Ship Due to the Explosion)

  • 김재현;박명규
    • 한국해양환경ㆍ에너지학회지
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    • 제10권4호
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    • pp.211-217
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    • 2007
  • 새로운 공격 무기들의 등장과 적과의 전투환경 변화로 현대의 함정설계에 있어 생존성의 향상은 가장 중요한 요소가 되었으며, 특히 적에게 쉽게 노출되는 수상함에 있어서는 생존성의 취약성에 대비한 감소대책이 보다 강조되고 있다. 생존성을 고려한 함정설계를 위하여 우선 적절한 공격 시나리오를 설정하고 이에 따라 폭발해석을 수행하여야 한다. 폭발은 함의 국부 손상 및 대변형 손상을 야기시키며 이 때 손상된 함정에 대한 적절한 생존성 평가가 중요하다. 본 연구에서는 구조-유체 연성기법 중 하나인 ALE기법을 적용하여 폭발해석을 수행하고 함정의 붕괴거동을 조사하였으며 이 손상된 함정에 대하여 정량적으로 생존시간을 계산할 수 있는 간략계산법을 제시하였다.

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