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Editors-in-Chief
Prof. Moo-Hyun Kim

    Dept of Civil Eng, Texas A&M Univ

    Prof. Phill-Seung Lee
    Department of Mechanical Engineering
    Korea Adv. Inst. of Science & Technol.
    Daejeon 34141, Korea

Associate Editors
Prof. Abbas Khayyer

    Dept. of Civ. and Earth Resources Eng.
    Kyoto Univ., Katsura Campus
    Nishikyo-ku, Kyoto, 615-8540, Japan

    Prof. Min Luo

    Ocean College, Zhejiang University
    Zhoushan 316021, China

    Prof. Rajiv Sharma

    Department of Ocean Engineering
    Indian Inst of Tech Madras
    Chennai 600 036, India

Managing Editor
Prof. Chang-Koon Choi

Dept. of Civil & Environmental Eng, KAIST

ESCI

SCOPUS (CiteScore: 1.8)

ISSN: 2093-6702(Print)
ISSN: 2093-677X(Online)

Vol.15 (4 issues) for 2025, Quarterly

Hybrid Open Access journal: there is an Optional Open Access Fee of USD 295.

For correspondence: ose@techno-press.com

Aims and Scope

The OCEAN SYSTEMS ENGINEERING focuses on the new research and development efforts to advance the understanding of sciences and technologies in ocean systems engineering. The main subject of the journal is the multi-disciplinary engineering of ocean systems. Areas covered by the journal include; * Undersea technologies: AUVs, submersible robot, manned/unmanned submersibles, remotely operated underwater vehicle, sensors, instrumentation, measurement, and ocean observing systems; * Ocean systems technologies: ocean structures and structural systems, design and production, ocean process and plant, fatigue, fracture, reliability and risk analysis, dynamics of ocean structure system, probabilistic dynamics analysis, fluid-structure interaction, ship motion and mooring system, and port engineering; * Ocean hydrodynamics and ocean renewable energy, wave mechanics, buoyancy and stability, sloshing, slamming, and seakeeping; * Multi-physics based engineering analysis, design and testing: underwater explosions and their effects on ocean vehicle systems, equipments, and surface ships, survivability and vulnerability, shock, impact and vibration; * Modeling and simulations; * Underwater acoustics technologies.

Editorial Board
Prof. Felice Arena Dept. of Ocean Eng. Mediterranea' U Reggio Calabria Prof. Sakir Bal Dept. of Naval Arch. and Ocean Eng. Istanbul Technical Univ. Prof. Eng Soon Chan Dept. of Civil Eng. National Univ. of Singapore Prof. H. C. Chen Dept. of Civil Eng. Texas A&M University Dr. Guohai Dong Dept. of Civil Hydraulic Eng. Dalian Univ. of Technology Prof. Menglan Duan Dept. of Offshore Oil/Gas Res.Center China Univ. of Petroleum Prof. Isaac Elishakoff Dept. of Ocean and Mechanical Eng. Florida Atlantic Univ Prof. Jeff Falzarano Dept. of Civil Eng. Texas A&M University Prof. Ming-Chung Fang Dept. of System & Naval Mechtro. Eng. National Cheung Kung Univ. Prof. Federico Guarracino Dept. Of Structural Eng. Univ. of Naples "Federico II" Prof. Atilla Incecik Dept. of Naval Arch. and Marine Eng. Univ. of Strathclyde-Glassgow Prof. Chungkuk Jin Dept. of Ocean Eng. and Marine Sci. Florida Inst. of Technology Prof. Joe Watkins Dept. of Mechanical Eng. U.S. Naval Academy Prof. Dale. G. Karr Dept. of Naval Arch. and Marine Eng. University of Michigan Dr. Mohammad Javad Ketabdari Dept. Of Marine Tech. Amirkabir Univ. of Tech	Prof. Boo Cheong Khoo Dept. of Mechanical Eng. National Univ. of Singapore Prof. Byoung Wan Kim MOERI Korea Ocean Research & Dev. Inst. Prof. Young-bok Kim Dept. of Naval Arch. & Ocean Eng. Kyungnam Univ. Prof. Spyros Kinnas Dept. of Civil Eng. Univ. of Texas, Austin Prof. Evangelos Koutandos Dept. of Civil Eng. Technol. Educational Inst. of Crete Dr. Chi-Min Liu General Education Center Chienkuo Tech Univ. Prof. Haixiao Liu Port, Coastal and Offshore Eng. Tianjin University Prof. Prof. Yong Liu Dept. of Ocean Eng. Ocean Univ. of China Prof. Cheolho Ryu Dept. of Ship and Ocean Systm Inha Technical Collge Prof. Pijush Samui Dept. of Mitigation and Management VIT Univ. Prof. Clyde Scandrett Dept. of Applied Mathematics Naval Postgraduate School Prof. Lian Shen Dept. of Mechanical Eng. Univ. of Minnesota Prof. Carlos Guedes Soares Center for Marine Tech & Eng. Technical Univ. of Lisbon Prof. Kostas Spyrou Dept. of Naval Arch. And Marine Eng. National Tech. Univ. of Athens Prof. Chao Sun Dept. of Civil & Environmental Eng. Louisiana State University Dr. Yuming Liu Dept. of Mechanical Eng. MIT	Prof. Han Soo Lee Dept. of Civil Eng. Saitama University Prof. Seung-O Lee Dept. of Civil Eng. Hongik University Prof. Wang Chien Ming Engineering Science Prog. National Univ. of Singapore Prof. Dag Myrhaug Dept. of Marine Technology Norwegian Univ. of Sci. and Tech. Dr. S. Neelamani Environment & Urban Develop. Div. Kuwait Inst for Scientific Research Prof. Roger Ohayon Chair of Mechanics CNAM Prof. Muk Chen Ong Dept. of Mech. Struct. Eng. Mater. Sci. Univ. of Stavanger Prof. Fotis A. Papoulias Dept. of Mech. and Astronautical Eng. Naval Postgraduate School Dr. Jun Ren Dept. of Ocean Eng. Liverpool John Moores Univ. Prof. Jose Roesset Dep. of Civil Eng. Texas A&M University Prof. Myung Il Roh Dept. of Naval Arch. & Ocean Eng. Seoul National University Prof. Alexander N. Timokha Inst. of Mathematics Nat'l Academy of Sci.of Ukraine (NASU) Dr. R. Venkatesan Ocean Observation Systems Nat'l Inst. Ocean Technol. Ministry of Earth Sciences Prof. Eugen Victor Cristian Rusu Dept. of Applied Mechanics Dunarea de Jos Galati Univ. Prof. Xiaochan Yu School of Naval Arch. & Marine Eng. Univ. of New Orleans Dr. Jun Zou Houston Offshore Inc.

Guide to Authors (Last updated: Oct 25, 2023)

1. Submission of the paper

Authors are asked to submit manuscripts in PDF (or Latex) format electronically through the Techno-Press Manuscript Upload System (TeMUS) (http://www.techno-press.com/papers). Exceptionally, the special issue papers may be directly submitted to the Guest Editor. If you have difficulties in using TeMUS, please contact us at[ose@techno-press.com]. On receiving submitted papers, the system will issue the paper ID and Password to the corresponding author which may be conveniently used to check the status of submitted papers. Authors should carefully check if their paper satisfied all the requirements in the preliminary list before submission.

2. Preparation of the manuscript

General : The manuscripts should be in English and typed with single column and single line spacing on single side of A4 paper. Submitted papers will be published in regular technical paper only. The first page of an article should contain; (1) a title of paper which well reflects the contents of the paper (Arial, 16pt), (2) all the name(s) and affiliations(s) of authors(s) (Arial, 12pt), (3) an abstract of 100~250 words (Times New Roman, 11pt), (4) 5-10 keywords following the abstract, and (5) footnote (personal title and email address of the corresponding author (required) and other authors' (not mandatory)). The paper should be concluded by proper conclusions which reflect the findings in the paper. The normal length of the technical paper should be about 12-24 journal pages. Authors are advised to read the details in the Authors' Guide for guide and Template.
Tables and figures : Tables and figures should be consecutively numbered and have short titles. They should be referred to in the text as following examples (e.g., Fig. 1(a), Figs. 1 and 2, Figs. 1(a)-(d) / Table 1, Tables 1-2), etc. Tables should have borders (1/2pt plane line) with the captions right before the table. Figures should be properly located in the text as an editable image file (.jpg) with captions on the lower cell. All of the original figures and tables are required to be placed at the suitable locations in the text.
Units and mathematical expressions : It is desirable that units of measurements and abbreviations should follow the System Internationale (SI) except where the other unit system is more suitable. The numbers identifying the displayed mathematical expression should be placed in the parentheses and referred to in the text as following examples (e.g., Eq. (1), Eqs. (1)-(2)). Mathematical expressions must be inserted as an object (set as Microsoft Equations 3.0) for Microsoft Word 2007 and after versions. Image-copied text or equations are not acceptable unless they are editable. The raised and lowered fonts cannot be used for superscription and subscription.
References : A list of references which reflect the current state of technology in the field locates after conclusions of the paper. For details to prepare the list of references and cite them in the text, authors are advised to follow the introduction and the sample list in the Authors' Guide.

3. Review

All the submitted papers that have passed the preliminary check by the editors will undergo a rigorous peer-review process to judge their significance and originality. Those papers positively recommended by at least two expert reviewers will be finally accepted for publication in the Techno-Press Journals or after any required modifications are made.

4. Proofs

Proofs will be sent to the corresponding author to correct any typesetting errors. Alterations to the original manuscript will not be accepted at this stage. Proofs should be returned within 48 hours of receipt.

5. Copyright

Submission of an article to a Techno-Press Journal implies that it presents the original and unpublished work, and not under consideration for publication elsewhere. On acceptance of the submitted manuscript, it is implied that the copyright thereof is transferred to the Techno-Press. The Agreement of Authorship, Originality, and Copyright Transfer must be signed and submitted.

6. Ethics

General: Techno-Press applies research and publication ethics standards based on COPE's International Standards for Editors and Authors (https://publicationethics.org/node/11184). Violation of publication ethics will result in the activation of COPE flow chart. (https://publicationethics.org/guidance/Flowcharts)
Authorship: Authors are encouraged to check ICMJE's guideline for authorship. (http://www.icmje.org/icmje-recommendations.pdf). Authorship problems will be dealt with according to COPE flowcharts. (https://publicationethics.org/authorship)

7. Open Access

There is an option of publishing your paper as Open Access. When you receive a formal acceptance email, you will find a link that you may click on to pay the Article Processing Charge (APC) for Open Access publishing.

Sample issue

Volume 2, Number 1, March 2012

Multi-level structural modeling of an offshore wind turbine
Francesco Petrini, Konstantinos Gkoumas, Wensong Zhou and Hui Li
Abstract; Full Text (4054K)

Abstract
Offshore wind turbines are complex structural and mechanical systems located in a highly demanding environment. This paper proposes a multi-level system approach for studying the structural behavior of the support structure of an offshore wind turbine. In accordance with this approach, a proper numerical modeling requires the adoption of a suitable technique in order to organize the qualitative and quantitative assessment in various sub-problems, which can be solved by means of sub-models at different levels of detail, both for the structural behavior and for the simulation of loads. Consequently, in a first place, the effects on the structural response induced by the uncertainty of the parameters used to describe the environmental actions and the finite element model of the structure are inquired. After that, a mesolevel FEM model of the blade is adopted in order to obtain the detailed load stress on the blade/hub connection.

Key Words
probabilistic analysis; performance-based design; uncertainty propagation; rotating blades

Address
Francesco Petrini and Konstantinos Gkoumas : School of Engineering, Sapienza Universita di Roma, Via Eudossiana 18, Rome, Italy Wensong Zhou and Hui Li : School of Civil Engineering, Harbin Institute of Technology, 202 Haihe Road, Nan\'gang District, Harbin 150090, China

Modeling of non-isothermal CO2 particle leaked from pressurized source: I. Behavior of single bubble
Daejun Chang, Sang Heon Han and Kyung-won Yang
Abstract; Full Text (1430K)

Abstract
This study investigated the behavior of a non-isothermal CO2 bubble formed through a leak process from a high-pressure source in a deep sea. Isenthalpic interpretation was employed to predict the state of the bubble just after the leak. Three modes of mass loss from the rising bubble were demonstrated: dissolution induced by mass transfer, condensation by heat transfer and phase separation by pressure decrease. A graphical interpretation of the last mode was provided in the pressure-enthalpy diagram. A threshold pressure (17.12 bar) was identified below which the last mode was no longer present. The second mode was as effective as the first for a bubble formed in deep water, leading to faster mass loss. To the contrary, only the first mode was active for a bubble formed in a shallow region. The third mode was insignificant for all cases.

Key Words
CO2; bubble; depletion; dissolution; condensation; isenthalpic expansion

Address
Daejun Chang and Sang Heon Han : Division of Ocean Systems Engineering, Korea Advanced Institute of Science and Technology, Daejeon,Republic of Korea Kyung-won Yang : Det Norske Veritas Korea, Busan, Republic of Korea

Modeling of non-isothermal CO2 particle leaked from pressurized source: II. Behavior of single droplet
Daejun Chang, Sang Heon Han and Kyung-won Yang
Abstract; Full Text (1474K)

Abstract
This study revealed the behavior of droplets formed through leak process in deep water. There was a threshold depth named the universal attraction depth (UAD). Droplets rose upward in the zone below the UAD called the rising zone, and settled down in the zone above the UAD called the settling zone. Three mass loss modes were identified and formulated: dissolution induced by mass transfer, condensation by heat transfer and phase separation by pressure decrease. The first two were active for the settling zone, and all the three were effective for the rising zone. In consequence, the life time of the droplets in the rising zone was far shorter than that of the droplets in the settling zone.

Key Words
CO2; droplet; depletion; universal attraction depth (UAD); dissolution; condensation; isenthalpic expansion

Address
Daejun Chang and Sang Heon Han : Division of Ocean Systems Engineering, Korea Advanced Institute of Science and Technology, Daejeon,Republic of Korea Kyung-won Yang : Det Norske Veritas Korea, Busan, Republic of Korea

Integrated engineering environment for the process FEED of offshore oil and gas production plants
Ji-Hyun Hwang, Myung-Il Roh and Kyu-Yeul Lee
Abstract; Full Text (3546K)

Abstract
In this paper, an offshore process front end engineering design (FEED) method is systematically introduced and reviewed to enable efficient offshore oil and gas production plant engineering. An integrated process engineering environment is also presented for the topside systems of a liquefied natural gas floating production, storage, and offloading (LNG FPSO) unit, based on the concepts and procedures for the process FEED of general offshore production plants. Various activities of the general process FEED scheme are first summarized, and then the offshore process FEED method, which is applicable to all types of offshore oil and gas production plants, is presented. The integrated process engineering environment is presented according to the aforementioned FEED method. Finally, the offshore process FEED method is applied to the topside systems of an LNG FPSO in order to verify the validity and applicability of the FEED method.

Key Words
offshore process FEED; integrated process engineering environment; topside systems; offshore oil and gas production plants; LNG FPSO; offshore projects

Address
Ji-Hyun Hwang : Department of Naval Architecture and Ocean Engineering, Seoul National University, Shinlim-Dong, Seoul, 151-742, Korea Myung-Il Roh : School of Naval Architecture and Ocean Engineering, University of Ulsan, Mugeo-Dong, Nam-gu, Ulsan, 680-749, Korea Kyu-Yeul Lee: Department of Naval Architecture and Ocean Engineering, Research Institute of Marine Systems Engineering, Seoul National University, Shinlim-Dong, Seoul, 151-742, Korea,

Reducing hydroelastic response of very large floating structures by altering their plan shapes
Z.Y. Tay and C.M. Wang
Abstract; Full Text (3233K)

Abstract
Presented herein is a study on reducing the hydroelastic response of very large floating structures (VLFS) by altering their plan shapes. Two different categories of VLFS geometries are considered. The first category comprises longish VLFSs with different fore/aft end shapes but keeping their aspect ratios constant. The second category comprises various polygonal VLFS plan shapes that are confined within a square boundary or a circle. For the hydroelastic analysis, the water is modeled as an ideal fluid and its motion is assumed to be irrotational so that a velocity potential exists. The VLFS is modeled as a plate by adopting the Mindlin plate theory. The VLFS is assumed to be placed in a channel or river so that only the head sea condition is considered. The results show that the hydroleastic response of the VLFS could be significantly reduced by altering its plan shape.

Key Words
very large floating structure (VLFS); geometries; arbitrary shapes; mitigation methods; hydroelastic response

Address
Z.Y. Tay and C.M. Wang : Department of Civil and Environmental Engineering, National University of Singapore, Kent Ridge, Singapore, 119260

Table of Contents.


		2025 Volume 15 No. 1	No.2 No.3
		2024 Volume 14 No. 1	No.2 No.3 No.4
		2023 Volume 13 No. 1	No.2 No.3 No.4
		2022 Volume 12 No. 1	No.2 No.3 No.4
		2021 Volume 11 No. 1	No.2 No.3 No.4
		2020 Volume 10 No. 1	No.2 No.3 No.4
		2019 Volume 9 No. 1	No.2 No.3 No.4
		2018 Volume 8 No. 1	No.2 No.3 No.4
		2017 Volume 7 No. 1	No.2 No.3 No.4
		2016 Volume 6 No. 1	No.2 No.3 No.4
		2015 Volume 5 No. 1	No.2 No.3 No.4
		2014 Volume 4 No. 1	No.2 No.3 No.4
		2013 Volume 3 No. 1	No.2 No.3 No.4
		2012 Volume 2 No. 1	No.2 No.3 No.4
		2011 Volume 1 No. 1	No.2 No.3 No.4

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Research and Publication Ethics

All the editors, publishers, researchers, and peer reviewers of Techno-Press journals strongly encourage to carefully review and follow the Committee on Publication Ethics (COPE) guidelines: https://publicationethics.org/guidance/Guidelines.

1. Authorship

Authorship credit should be based on
    (1) Substantial contributors to the conception or design of the work or the acquisition, analysis
   or interpretation of data for the work,
    (2) Drafting the work or revising it critically for important intellectual content,
    (3) Final approval of the version to be published, and
    (4) Agreement to be accountable for all aspects of the work in ensuring that questions related
   to the accuracy or integrity of any part of the work are appropriately investigated and resolved.
Authors should meet these four conditions after the initial submission of a manuscript and any changes whatsoever in authorship (adding author(s), deleting author(s), or re-arranging the order of authors) must be explained by a letter to the editor from the authors concerned. This letter must be signed by all authors on the paper. Techno-Press does not correct authorship after the final acceptance unless a mistake has been made by the editorial staff. Authorship may be changed before the final acceptance when the authorship correction is requested by all of the authors involved with the manuscript. The corresponding author takes primary responsibility for communication with the journal during the manuscript submission, peer review, and publication process. The corresponding author should be available throughout the submission and peer review process to respond to editorial queries in a timely manner, and should be available to respond to critiques of the work and cooperate with any requests from the journal for data or additional information or questions about the paper even after publication.

2. Originality, plagiarism and duplicate publication

Submitted manuscripts must not have been previously published or be under consideration for publication elsewhere. No part of the accepted manuscript should be duplicated in any other journal without the permission of the Editorial Board. Submitted manuscripts are checked for possible plagiarism or duplicate publication upon the paper's arrival. If plagiarism or duplicate publication is detected, the manuscripts may be rejected, the authors will be announced in the journal, and their institutions will be informed. There will also be penalties for the authors. A letter of permission is required for any and all material that has been published previously. It is the responsibility of the author to request permission from the publisher for any material that is being reproduced. This requirement applies to text, figures, and tables.

3. Conflict of interest statement

The corresponding author must inform the editor of any potential conflicts of interest that could influence the authors' interpretation of the data. Examples of potential conflicts of interest are financial support from or connections to companies, political pressure from interest groups, and academically related issues. In particular, all sources of funding applicable to the study should be explicitly stated.

4. Process for managing research and publication misconduct

When the journal faces suspected cases of research and publication misconduct, such as redundant publication, plagiarism, fraudulent or fabricated data, changes in authorship, undisclosed conflict of interest, ethical problems with a submitted manuscript, appropriation by a reviewer of an author's idea or data, and complaints against editors, the resolution process will follow the flowchart provided by COPE, https://publicationethics.org/guidance/Flowcharts.
The discussion and decision on the suspected cases are carried out by the Editorial Board.

5. Editorial responsibilities

The Editorial Board will continuously work to monitor and safeguard publication ethics:
* Guidelines for retracting articles;
* Maintenance of the integrity of academic records;
* Preclusion of business needs from compromising intellectual and ethical standards;
* Publishing corrections, clarifications, retractions, and apologies when needed; and
* Excluding plagiarized and fraudulent data.
The editors maintain the following responsibilities:
* Responsibility and authority to reject and accept articles;
* Avoid any conflict of interest with respect to articles they reject or accept;
* Promote the publication of corrections or retractions when errors are found; and
* Preserve the anonymity of reviewers.

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