J. Ocean Eng. Technol. Search

CLOSE


Search

  • HOME
  • Search
   
Original Research Articles
Numerical Model Applicability Based on a Hydraulic Characteristic Analysis of an Eco-friendly Double-row Submerged Breakwater
Yeon-Myeong Jeong, Jaeheon Jeong, Taegun Park, Ho-Seong Jeon, Dong-Soo Hur
J. Ocean Eng. Technol. 2024;38(4):164-173.   Published online August 22, 2024
Full textFull text    PubreaderPubReader    ePubePub    PDFPDF    
Optimization Analysis of the Shape and Position of a Submerged Breakwater for Improving Floating Body Stability
Sanghwan Heo, Weoncheol Koo, MooHyun Kim
J. Ocean Eng. Technol. 2024;38(2):53-63.   Published online March 29, 2024
Full textFull text    PubreaderPubReader    ePubePub    PDFPDF    PDFPDF(Korean)    
Field Observation and Quasi-3D Numerical Modeling of Coastal Hydrodynamic Response to Submerged Structures
Yejin Hwang, Kideok Do, Inho Kim, Sungyeol Chang
J. Ocean Eng. Technol. 2023;37(2):68-79.   Published online April 27, 2023
Full textFull text    PubreaderPubReader    ePubePub    PDFPDF    
Analysis of Wave Transmission Characteristics on the TTP Submerged Breakwater using a Parabolic-Type Linear Wave Deformation Model
Jin-Hwan Jeong, Jin-Hoon Kim, Jung-Lyul Lee
J. Ocean Eng. Technol. 2021;35(1):82-90.   Published online February 3, 2021
Full textFull text    PubreaderPubReader    ePubePub    PDFPDF    
Wave Control by Tide-Adapting Submerged Breakwater
Woo-Dong Lee, Yeon-Myeong Jeong, Dong-Soo Hur
J. Ocean Eng. Technol. 2019;33(6):573-580.   Published online December 31, 2019
Full textFull text    PubreaderPubReader    ePubePub    PDFPDF    
Characteristics of Water Surface Variation around Double-Breaking Type Artificial Reef
Young-Seop Shin, Seong-Dae Lee
J. Ocean Eng. Technol. 2019;33(3):280-288.   Published online June 27, 2019
Full textFull text    PubreaderPubReader    ePubePub    PDFPDF    
Numerical Simulation of One-Dimensional Madsen-Sørensen Extended Boussinesq Equations Using Crowhurst-Zhenquan Scheme
Sangmuk Kang, Jinsoo Park, Taek Soo Jang
J. Ocean Eng. Technol. 2017;31(5):346-351.   Published online October 31, 2017
Full textFull text    PubreaderPubReader    ePubePub    PDFPDF    
Development of New Type of Submerged Breakwater for Reducing Mean Water Level behind Structure
Dong-Soo Hur, Woo-Dong Lee, Nam-Heon Goo, Ho-Seong Jeon, Yeon-Myeong Jeong
J. Ocean Eng. Technol. 2017;31(2):130-140.   Published online April 30, 2017
Full textFull text    PubreaderPubReader    ePubePub    PDFPDF    
Numerical Simulation of Local Scour in Front of Impermeable Submerged Breakwater Using 2-D Coupled Hydro-morphodynamic Model
Woo-Dong Lee, Jae-Cheol Lee, Dong-Hwan Jin, Dong-Soo Hur
J. Ocean Eng. Technol. 2016;30(6):484-497.   Published online December 31, 2016
Full textFull text    PubreaderPubReader    ePubePub    PDFPDF    
3D Characteristics of Dynamic Response of Seabed around Submerged Breakwater Due to Wave Loading
Dong-Soo Hur, Jong-Ryul Park, Woo-Dong Lee
J. Ocean Eng. Technol. 2014;28(4):331-337.   Published online August 30, 2014
Full textFull text    PubreaderPubReader    PDFPDF    
Articles
Application of 3-D Numerical Method (LES-WASS-3D) to Estimation of Nearshore Current at Songdo Beach with Submerged Breakwaters
Dong-Soo Hur, Woo-Dong Lee, Myoung-Kyu Kim, Jong-Sung Yoon
J. Ocean Eng. Technol. 2013;27(4):14-21.   Published online August 31, 2013
Full textFull text    PubreaderPubReader    PDFPDF    
Study of Wave Absorbing Effect of Submerged Breakwater
Lee Hyun-Jin,Shin Moon-Seup
J. Ocean Eng. Technol. 2011;25(6):29-34.
PDFPDF    
Wave Breaking Characteristics due to Shape and Plane Arrangement of the Submerged Breakwaters
Lee Woo-Dong,Hur Dong-Soo,Huh Jung-Won
J. Ocean Eng. Technol. 2010;24(1):116-122.
PDFPDF    


ABOUT
BROWSE ARTICLES
ARTICLE CATEGORY

Browse all articles >

PUBLICATION ETHICS
FOR CONTRIBUTORS
Editorial Office
President Office BD Rm. 1302, 13 Jungang-daero 180beon-gil, Dong-gu, Busan 48821, Republic of Korea
Tel: +82-51-759-0656    Fax: +82-51-759-0656    E-mail: ksoehj@ksoe.or.kr                

Copyright © 2024 by The Korean Society of Ocean Engineers.

Developed in M2PI

Close layer
prev next