• 제목/요약/키워드: Calm water

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수소 에너지 생산, 수송 및 이용에 대한 통합시스템 해석 (Analysis of the total system for production, transportation and utilization of hydrogen energy)

  • 오병수;서석진
    • 한국수소및신에너지학회논문집
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    • 제9권1호
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    • pp.38-45
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    • 1998
  • An energy crisis is expected in near future. Fossil fuel such as oil and natural gas has been used and will be no longer supplied enough to demand in the beginning of coming century. The use of the fuel makes a lot of environmental pollution to threaten human being's health especially in big cities and produces a lot of $CO_2$ to make green house effect of the earth. It is the time to use clean fuel such as hydrogen to prevent the expected energy crisis and the pollution. A new engine such as fuel cell can be used instead of the conventional internal combustion engine with 2 to 3 times higher efficiency of the conventional engine. The fuel cell uses hydrogen and oxygen and produces electric energy and pure water, which is a calm engine without air pollution. In big cities the city buses and the taxies powered by hydrogen fuel cells are suggested to be operated for clean environment. A model of the total energy system for production, transportation and utilization of hydrogen is calculated.

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추파중에서 항행하는 선박의 복원성능에 관한 연구 (A Study on Transverse Stability of Ships in Following Seas)

  • 손경호;윤순동
    • 대한조선학회지
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    • 제26권1호
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    • pp.1-10
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    • 1989
  • 본 연구에서는 추파중에 항행하는 선박의 전복현상과 관련된 횡복원성 문제를 다루었다. 추파중에서 항행하는 선박의 복원력 변동량을 이론적으로 규명하기 위해서 Froude-Krylov 가설과 파랑중에서의 정적 평형조건 등을 이용한 이론계산법을 정식화하였다. 그리고 본 이론계산법에 따라서 고속화물선 선형과 어선 선형에 대해서 복원력 변동량을 계산하였으며, 동일한 파랑조건하에서 실시된 Hamamoto의 모형실험 결과와 비교하였다. 상기 이론계산 결과 및 모형실험 결과로부터 추파의 파정에서 선체중심이 위치하였을 때 복원력이 평수중에 비해서 절반이하로 감소되며, 이때 전복의 위험이 있다는 것을 확인할 수 있었다.

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Nonlinear effects on motions and loads using an iterative time-frequency solver

  • Bruzzone, Dario;Gironi, C.;Grasso, A.
    • International Journal of Naval Architecture and Ocean Engineering
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    • 제3권1호
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    • pp.20-26
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    • 2011
  • A weakly nonlinear seakeeping methodology for predicting motions and loads is presented in this paper. This methodology assumes linear radiation and diffraction forces, calculated in the frequency domain, and fully nonlinear Froude-Krylov and hydrostatic forces, evaluated in the time domain. The particular approach employed here allows to overcome numerical problems connected to the determination of the impulse response functions. The procedure is divided into three consecutive steps: evaluation of dynamic sinkage and trim in calm water that can significantly influence the final results, a linear seakeeping analysis in the frequency domain and a weakly nonlinear simulation. The first two steps are performed employing a three-dimensional Rankine panel method. Nonlinear Froude-Krylov and hydrostatic forces are computed in the time domain by pressure integration on the actual wetted surface at each time step. Although nonlinear forces are evaluated into the time domain, the equations of motion are solved in the frequency domain iteratively passing from the frequency to the time domain until convergence. The containership S175 is employed as a test case for evaluating the capability of this methodology to correctly predict the nonlinear behavior related to wave induced motions and loads in head seas; numerical results are compared with experimental data provided in literature.

Global hydroelastic analysis of ultra large container ships by improved beam structural model

  • Senjanovic, Ivo;Vladimir, Nikola;Tomic, Marko;Hadzic, Neven;Malenica, Sime
    • International Journal of Naval Architecture and Ocean Engineering
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    • 제6권4호
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    • pp.1041-1063
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    • 2014
  • Some results on the hydroelasticity of ultra large container ships related to the beam structural model and restoring stiffness achieved within EU FP7 Project TULCS are summarized. An advanced thin-walled girder theory based on the modified Timoshenko beam theory for flexural vibrations with analogical extension to the torsional problem, is used for formulation of the beam finite element for analysis of coupled horizontal and torsional ship hull vibrations. Special attention is paid to the contribution of transverse bulkheads to the open hull stiffness, as well as to the reduced stiffness of the relatively short engine room structure. In addition two definitions of the restoring stiffness are considered: consistent one, which includes hydrostatic and gravity properties, and unified one with geometric stiffness as structural contribution via calm water stress field. Both formulations are worked out by employing the finite element concept. Complete hydroelastic response of a ULCS is performed by coupling 1D structural model and 3D hydrodynamic model as well as for 3D structural and 3D hydrodynamic model. Also, fatigue of structural elements exposed to high stress concentration is considered.

활주선의 하중 및 무게 중심 위치 변화가 항주 자세에 미치는 영향에 대한 연구 (A Study on the Effects of Weight and Center of Gravity of a Planing Craft on Running Attitude)

  • 김동진;이기표;박한솔
    • 대한조선학회논문집
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    • 제46권3호
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    • pp.335-342
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    • 2009
  • Motion characteristics of a planing craft are sensitively changed according to its weight and longitudinal center of gravity. In this paper, planing craft model tests were performed in calm water for various test conditions and Froude numbers. Sinkage and trim were measured to analyze the relations between the attitudes of a planing craft and the weight and center of gravity of it. Theoretical formula for the prediction of the attitudes of a prismatic planing hull was modified so that it can be applied to the prediction of the attitudes of a non-prismatic planing hull, and the calculation results by the modified formula were in good agreements with the experimental data.

병렬계류된 선박의 감쇠력에 관한 실험연구 (Experimental Study on Damping of Side-by-Side Moored Vessels)

  • 김진하;홍사영;김영식;김덕수;김용수
    • 한국해양공학회:학술대회논문집
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    • 한국해양공학회 2004년도 학술대회지
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    • pp.160-165
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    • 2004
  • Low-frequency damping characteristics of side-by-side moored LNG-FPSO and LNGC arc investigated through a series of free decay model tests in calm water and under wind load condition. It is shown that low frequency damping of LNGC changes dramatically, sway damping increases more than six times for 4m distance condition while it decreases by $30\%$ for 20m distance compared with a single LNGC case. Simulation using the experimental data enhances the results, which demonstrates the necessity of experimental low-frequency damping coefficients for simulation of side-by-side vessels motion behavior.

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다방향 규칙파 중 선체, 타, 추진기에 작용하는 유체력 추정을 위한 실험적 연구

  • 서주원;응웬반민;응웬티당디엡;마이티로안;전명준;윤현규;김연규
    • 한국항해항만학회:학술대회논문집
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    • 한국항해항만학회 2018년도 추계학술대회
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    • pp.4-6
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    • 2018
  • Traditional methods of research on ship maneuvering performance were estimated in calm water. Ship maneuverability in waves is of vital importance for navigation safety of a ship (ITTC, 2008). The accurate estimation of force and moment acting on the ship and rudder behind propeller are necessary because the rudder, propeller and hull interaction is of key importance. In addition, course-keeping ability and maneuvering performance of a ship can be significantly affected by the presence of wave. In this study, the model test is performed in the regular wave in the square wave tank in Changwon National University and the hydrodynamic force acting on the ship hull and rudder behind the propeller in various wave directions is investigated. The effect of wavelength and wave direction on hydrodynamic force acting on ship and rudder behind propeller in regular waves is discussed.

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정면 규칙파 중 활주형 고속선의 운동 응답에 대한 실험적 연구 (An Experimental Study on the Motion Response of a High-Speed Planing Craft in Regular Head Waves)

  • 김동진;이기표;황승현;박한솔
    • 대한조선학회논문집
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    • 제46권4호
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    • pp.373-381
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    • 2009
  • The running attitude of a high-speed planing craft may change significantly depending on its speed in seaway. Other variables that may influence its running attitude are its weight, center of gravity, sea conditions, and so on. In this paper, planing craft model tests were carried out with respect to above variables in SNU towing tank, and vertical motion responses of a planing craft in regular head waves were analyzed. The experimental results in regular waves were compared with those in calm water, and compared with the theoretical estimations. Finally, the effects of running speeds of a planing craft on its motion amplitudes are confirmed.

고속 상륙돌격장갑차의 저항 및 추진 성능에 관한 수치 분석 (Numerical Analysis on the Resistance and Propulsion Performances of High-Speed Amphibious Assault Vehicles)

  • 김태형
    • 한국군사과학기술학회지
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    • 제24권1호
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    • pp.84-98
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    • 2021
  • The hydrodynamic characteristics of amphibious assault vehicles are investigated using commercial CFD code, STAR-CCM+. Resistance performances of a displacement-type vehicle and a semi-planing type vehicle are analyzed in calm water. The self-propelled model is also computed for the semi-planing type vehicle. All computations are performed using an overset mesh system and a RANS based flow-solver coupled with a two-degree of freedom equations of motion. A moving reference frame is applied to simulate revolutions of impeller blades for a waterjet propulsion system. Grid dependency tests are performed to evaluate discretization errors for the mesh systems. The numerical analysis results are compared with the experimental results obtained from model tests. It is shown that RANS is capable of investigating the resistance and self-propulsion characteristics of high-speed amphibious assault vehicles. It is also found that a fully covered side skirt, which is covering tracks, reduces resistance and stern trim, besides increasing propulsive efficiency.

Comparative study on the prediction of speed-power-rpm of the KVLCC2 in regular head waves using model tests

  • Yu, Jin-Won;Lee, Cheol-Min;Seo, Jin-Hyeok;Chun, Ho Hwan;Choi, Jung-Eun;Lee, Inwon
    • International Journal of Naval Architecture and Ocean Engineering
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    • 제13권1호
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    • pp.24-34
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    • 2021
  • This paper predicts the speed-power-rpm relationship in regular head waves using various indirect methods: load variation, direct powering, resistance and thrust identity, torque and revolution, thrust and revolution, and Taylor expansion methods. The subject ship is KVLCC2. The wave conditions are the regular head waves of λ/LPP = 0.6 and 1.0 with three wave steepness ratios at three ship speeds of 13.5, 14.5 and 15.5 knots (design speed). In the case of λ/LPP = 0.6 at design speed, two more wave steepness ratios have been taken into consideration. The indirect methods have been evaluated through comparing the speed-power-rpm relationships with those obtained from the resistance and self-propulsion tests in calm water and in waves. The load variation method has been applied to predict propulsive performances in waves, and to derive overload factors (ITTC, 2018). The overload factors have been applied to obtain propulsive efficiency and propeller revolution. The thrust and revolution method (ITTC, 2014) has been modified.