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Progress in Maritime Technology and Engineering
DOI link for Progress in Maritime Technology and Engineering
Progress in Maritime Technology and Engineering book
Proceedings of the 4th International Conference on Maritime Technology and Engineering (MARTECH 2018), May 7-9, 2018, Lisbon, Portugal
Progress in Maritime Technology and Engineering
DOI link for Progress in Maritime Technology and Engineering
Progress in Maritime Technology and Engineering book
Proceedings of the 4th International Conference on Maritime Technology and Engineering (MARTECH 2018), May 7-9, 2018, Lisbon, Portugal
Edited ByC. Guedes Soares, T.A. Santos
Edition 1st Edition
First Published 2018
eBook Published 16 April 2018
Pub. Location London
Imprint CRC Press
Pages 730
eBook ISBN 9780429505294
Subjects Engineering & Technology
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Soares, C.G., & Santos, T.A. (Eds.). (2018). Progress in Maritime Technology and Engineering: Proceedings of the 4th International Conference on Maritime Technology and Engineering (MARTECH 2018), May 7-9, 2018, Lisbon, Portugal (1st ed.). CRC Press. https://doi.org/10.1201/9780429505294
ABSTRACT
Progress in Maritime Technology and Engineering collects the papers presented at the 4th International Conference on Maritime Technology and Engineering (MARTECH 2018, Lisbon, Portugal, 7–9 May 2018). This conference has evolved from a series of biannual national conferences in Portugal, and has developed into an international event, reflecting the internationalization of the maritime sector and its activities. MARTECH 2018 is the fourth in this new series of biannual conferences.
Progress in Maritime Technology and Engineering contains about 80 contributions from authors from all parts of the world, which were reviewed by an International Scientific Committee. The book is divided into the subject areas below:
- Port performance
- Maritime transportation and economics
- Big data in shipping
- Intelligent ship navigation
- Ship performance
- Computational fluid dynamics
- Resistance and propulsion
- Ship propulsion
- Dynamics and control
- Marine pollution and sustainability
- Ship design
- Ship structures
- Structures in composite materials
- Shipyard technology
- Coating and corrosion
- Maintenance
- Risk analysis
- Offshore and subsea technology
- Ship motion
- Ships in transit
- Wave-structure interaction
- Wave and wind energy
- Waves
Progress in Maritime Technology and Engineering will be of interest to academics and professionals involved in the above mentioned areas.
TABLE OF CONTENTS
part 1|32 pages
Port performance I
chapter 1|8 pages
Comparative analysis of port performances between Italy and Brazil
ByA.N. Nascimento, A.M. Wahrhaftig, H.J.C. Ribeiro
chapter 2|7 pages
Port of Santos, Brazil: Essential factors to implement a green port system
ByD.A. Moura, R.C. Botter
chapter 3|6 pages
Evaluation of port performance: Research opportunities from the systemic analysis of international literature
ByG.C. Fermino, A. Dutra, L. Ensslin, S.R. Ensslin
chapter 4|8 pages
Performance evaluation of the infrastructure of ports from Santa Catarina State
ByJ.P. Meirelles, S.R. Ensslin, E.M. Luz, A. Dutra, L. Ensslin
part 2|28 pages
Port performance II
chapter 5|8 pages
Improving capacity of port shunting yard
ByA. Rusca, F. Rusca, E. Rosca, V. Dragu, M. Rosca
chapter 6|10 pages
Analysis of a new container terminal using a simulation approach
ByN.A.S. Mathias, T.A. Santos, C. Guedes Soares
chapter 7|8 pages
Operational and cost based analysis of ship to ship—transshipment in Brazil: An application to the iron ore in the port of Santos
ByP.C.M. Oliveira, R.C. Botter
part 3|26 pages
Maritime transportation and economics
chapter 8|6 pages
Evaluation of the Portuguese ocean economy using the Satellite Account for the Sea
ByA.S. Simoes, M.R. Salvador, C. Guedes Soares
chapter 10|10 pages
Characterizing the operation of a roll-on roll-off short sea shipping service
ByT.A. Santos, C. Guedes Soares, R.C. Botter
part 4|22 pages
Big data in shipping
chapter 11|4 pages
Fishing activity patterns for Portuguese seiners based on VMS data analysis
ByA. Campos, P. Fonseca, P. Lopes, J. Parente, N. Antunes, P. Lousa
chapter 12|8 pages
Characterizing container ship traffic along the Portuguese coast using big data
ByR.C. Botter, T.A. Santos, C. Guedes Soares
chapter 13|8 pages
Methodology for estimating technical characteristics of container ships from AIS data
ByT.A. Santos, C. Guedes Soares
part 5|35 pages
Intelligent ship navigation
chapter 14|9 pages
Challenges and developments of water transport safety under intelligent environment
ByH.B. Tian, B. Wu, X.P. Yan
chapter 15|11 pages
Collision avoidance, guidance and control system for autonomous surface vehicles in complex navigation conditions
ByM.A. Hinostroza, C. Guedes Soares
chapter 16|4 pages
A framework of network marine meteorological information processing and visualization for ship navigation
ByXin Peng, Yuanqiao Wen, Chunhui Zhou, Liang Huang
chapter 17|7 pages
Role assignment and conflict identification for the encounter of ships under COLREGs
ByY. Zeng, J.F. Zhang, A.P. Teixeira, C. Guedes Soares
part 6|27 pages
Ship performance
chapter 18|9 pages
Design related speed loss and fuel consumption of ships in seaways
ByM. Riesner, O. el Moctar, T.E. Schellin
chapter 19|7 pages
Influence of main engine control strategies on fuel consumption and emissions
ByR. Vettor, M. Tadros, M. Ventura, C. Guedes Soares
chapter 20|7 pages
Analysis of multipurpose ship performance accounting for SME shipyard building limitations
ByY. Denev, P. Georgiev, Y. Garbatov
part 7|31 pages
Computational fluid dynamics
chapter 21|10 pages
Wake of a catamaran navigating in restricted waters
ByG.T.P. McSullea, J.M. Rodrigues, C. Guedes Soares
chapter 22|8 pages
A CFD study of a ship moving with constant drift angle in calm water and waves
ByH. Islam, C. Guedes Soares
chapter 23|9 pages
Ship self-propulsion performance prediction by using OpenFOAM and different simplified propeller models
ByS. Gaggero, T. Gaggero, G. Tani, G. Vernengo, M. Viviani, D. Villa
part 8|25 pages
Resistance and propulsion
chapter 24|6 pages
Experimental study of frictional drag reduction on a hull model by air-bubbling
ByE. Ravina, S. Guidomei
chapter 25|7 pages
Procedure for production of scaled ship models for towing tank testing
ByK.D. Giannisi, D.E. Liarokapis, J.P. Trachanas, G.P. Milonas, G.D. Tzabiras
chapter 26|9 pages
A benchmark test of ship resistance in extremely shallow water
ByQ. Zeng, C. Thill, R. Hekkenberg
part 9|16 pages
Ship propulsion
chapter 27|7 pages
Optimization scheme for the selection of the propeller in ship concept design
ByM. Tadros, M. Ventura, C. Guedes Soares
chapter 28|6 pages
Marine propulsion shafting: A study of whirling vibrations
ByS. Busquier, S. Martinez, M.J. Legaz
part 10|26 pages
Dynamics and control
chapter 29|7 pages
Assessment of the electric propulsion motor controller for the Colombian offshore patrol vessel
ByC. Morales, E. Insignares, B. Verma, D. Fuentes, M. Ruiz
chapter 30|8 pages
Simulation of a marine dynamic positioning system equipped with cycloidal propellers
ByM. Altosole, S. Donnarumma, V. Spagnolo, S. Vignolo
chapter 31|8 pages
Reliability analysis of dynamic positioning systems
ByM.V. Clavijo, M.R. Martins, A.M. Schleder
part 11|26 pages
Marine pollution and sustainability
chapter 32|8 pages
Sustainability in Fishing Vessel Design Process 1988-2018
ByF.A. Veenstra, J.A.A.M. Stoop, J.J. Hopman
chapter 33|7 pages
Ballast Water Management: And Now, What to Do?
ByL. Guerrero, J. Pancorbo, J.A. Arias
chapter 34|8 pages
Persistent Organic Pollutants in Baltic Herring in the Gulf of Riga and Gulf of Finland (North-Eastern Baltic Sea)
ByL. Jarv, T. Raid, M. Simm, M. Radin, H. Kiviranta, P. Ruokojarvi
part 12|25 pages
Ship design
chapter 35|7 pages
Critical Wind Velocity for Harbor Container Stability
ByA. Balbi, M.P. Repetto, G. Solari, A. Freda, G. Riotto
chapter 36|7 pages
Tool for initial hull structure dimensioning at ship concept design
ByF. Sisci, M. Ventura
chapter 37|8 pages
Conceptual design of multipurpose ship and fleet accounting for SME shipyard building limitations
ByT. Damyanliev, P. Georgiev, I. Atanasova, Y. Garbatov
part 13|32 pages
Ship structures I
chapter 38|10 pages
Analysis of the ultimate strength of corroded ships involved in collision accidents and subjected to biaxial bending
ByJ.W. Ringsberg, Z Li, A Kuznecovs, E Johnson
chapter 39|8 pages
Residual strength assessment of a grounded container ship subjected to asymmetrical bending loads
ByM. Tekgoz, Y. Garbatov, C. Guedes Soares
chapter 40|12 pages
Strength assessment of an aged single hull tanker grounded in mud and used as port oil storage
ByN. Vladimir, I. Senjanovic, N. Alujevic, S. Tomasevic, D.S. Cho
part 14|28 pages
Ship structures II
chapter 41|9 pages
Failure assessment of transition piece of jacket offshore wind turbine
ByB. Yeter, Y. Garbatov, C. Guedes Soares
chapter 42|8 pages
Low-Cycle Fatigue of Damaged Stiffened Panel in Ship Structures
ByI. Gledic, J. Parunov
chapter 43|8 pages
Failure assessment of wash plates with different degree of openings
ByS. Saad-Eldeen, Y. Garbatov, C. Guedes Soares
part 15|26 pages
Structures in composite materials
chapter 44|7 pages
Experimental and numerical structural analysis of a windsurf fin
ByF. Nascimento, L.S. Sutherland, Y. Garbatov
chapter 45|7 pages
Uncertainty propagation and sensitivity analysis of a laminated composite beam
ByM. Calvario, A.P. Teixeira, C. Guedes Soares
chapter 46|8 pages
Experimental study of the residual strength of damaged hybrid steel-FRP balcony overhangs of ships
ByN. Kharghani, C. Guedes Soares
part 16|34 pages
Shipyard technology
chapter 47|8 pages
Model to forecast times and costs of cutting, assembling and welding stages of construction of ship blocks
ByA. Oliveira, J.M. Gordo
chapter 48|10 pages
Causal Analysis of Accidents at Work in a Shipyard Complemented with Bayesian Nets Modelling
ByB. Costa, C. Jacinto, A.P. Teixeira, C. Guedes Soares
chapter 49|8 pages
Analysis of SME Ship Repair Yard Capacity in Building New Ships
ByI. Atanasova, T. Damyanliev, P. Georgiev, Y. Garbatov
chapter 50|6 pages
Shipyards of the 21st century: Industrial internet of things on site
ByVicente Diaz-Casas, Alicia Munin Doce, Pedro Trueba Martinez, Sara Ferreno Gonzalez, M. Vilar
part 17|14 pages
Coating and corrosion
chapter 51|6 pages
Internal Corrosion Simulation of Long Distance Sandwich Pipe
ByCheng Hong, Yuxi Wang, Jiankun Yang, Segen F. Estefen, Marcelo Igor Lourengo
chapter 52|6 pages
Ceramic coating solution for offshore structures
ByS. Garcia, A. Trueba, L.M. Vega, E. Madariaga
part 18|22 pages
Maintenance
chapter 53|8 pages
Life cycle and cost performance analysis on ship structural maintenance strategy of a short route hybrid
ByH. Wang, E. Oguz, B. Jeong, P. Zhou
chapter 54|6 pages
An integrated operational system to reduce O&M cost of offshore wind farms
ByK. Wang, X. Jiang, R.R. Negenborn, X. Yan, Y. Yuan
chapter 55|6 pages
Ships on condition data driven maintenance management
ByS. Lampreia, V. Lobo, V. Vairinhos, J.G. Requeijo
part 19|26 pages
Risk analysis
chapter 56|7 pages
Risk analysis of ships & offshore wind turbines collision: Risk evaluation and case study
ByQing Yu, Xuri Xin, Kezhong Liu, Jinfen Zhang
chapter 57|8 pages
Risk analysis of innovative maritime transport solutions using the extended Failure Mode and Effects Analysis (FMEA) methodology
ByE. Chalkia, E. Sdoukopoulos, E. Bekiaris
chapter 58|10 pages
Sensitivity analysis of risk-based conceptual ship design
ByY. Garbatov, F. Sisci
part 20|35 pages
Offshore and subsea technology
chapter 59|14 pages
Risk assessment of subsea oil and gas production systems at the concept selection phase
ByM. Abdelmalek, C. Guedes Soares
chapter 60|12 pages
Availability Assessment of A Power Plant Working on The Allam Cycle
ByU. Bhardwaj, A.P. Teixeira, C. Guedes Soares
chapter 61|7 pages
Subsea Water Separation: A Promising Strategy for Offshore Field Development
ByY.X. Wang, C. Hong, J.K. Yang, S.F. Estefen, M.I. Lourenço
part 21|32 pages
Ship motions I
chapter 62|9 pages
Characterization of ship motions induced by wake waves
ByF.G.L. Pedro, L.V. Pinheiro, C.J.E.M. Fortes, J.A. Santos, M.A. Hinostroza
chapter 63|11 pages
Motions and mooring loads of a tanker moored at open jetty in long crested irregular waves including second order effects
ByH.S. Abdelwahab, C. Guedes Soares
chapter 64|8 pages
Numerical and experimental study of ship-generated waves
ByS.R.A. Rodrigues, C. Guedes Soares, J.A. Santos
part 22|32 pages
Ship motions II
chapter 65|8 pages
Hydrodynamic study of the influence of bow and stern appendages in the performance of the vessel OPV 93
ByB. Verma, D. Fuentes, L. Leal, F. Zarate
chapter 66|11 pages
Seakeeping optimization of a catamaran to operate as fast crew supplier at the Alentejo basin
ByF. Belga, M. Ventura, C. Guedes Soares
chapter 67|10 pages
Comparative study of various strip-theory seakeeping codes in predicting heave and pitch motions of fast displacement ships in head seas
ByF. Belga, S. Sutulo, C. Guedes Soares
part 23|21 pages
Ships in transit
chapter 68|10 pages
The transit state evaluation of a large floating dock by seakeeping criteria
ByE. Burlacu, L. Domnisoru
chapter 69|9 pages
Comparison of dynamic and quasi-static towline model for evaluation of wave-induced towed ship motions
ByI. Catipovic
part 24|24 pages
Wave-structure interaction
chapter 70|7 pages
Comparisons of CFD, experimental and analytical simulations of a heaving box-type floating structure
ByH. Islam, S.C. Mohapatra, C. Guedes Soares
chapter 72|8 pages
Wave interaction with a rectangular long floating structure over flat bottom
ByY. Guo, S.C. Mohapatra, C. Guedes Soares
part 25|30 pages
Wave and wind energy
chapter 73|9 pages
Optimization of wave energy converters in the OPWEC project
ByF. Taveira-Pinto, P. Rosa-Santos, C.A. Rodriguez, M. Lopez, V. Ramos, S. Xu, K. Rezanejad, S. Wang, C. Guedes Soares
chapter 74|10 pages
Experimental study of two mooring systems for wave energy converters
ByS. Xu, S. Wang, T.S. Hallak, K. Rezanejad, M.A. Hinostroza, C. Guedes Soares, C.A. Rodriguez, P. Rosa-Santos, F. Taveira-Pinto
chapter 75|8 pages
Experimental study on auto-parametrically excited heaving motion of a spar-buoy
ByT. Iseki
part 26|29 pages
Waves
chapter 76|5 pages
Numerical Analysis of Waves Attenuation by Vegetation in Enclosed Waters
ByG.O. Mattosinho, G.F. Maciel, A.S. Vieira, C.J.E.M. Fortes
chapter 77|6 pages
Peak period statistics associated with significant wave heights by conditional mean functions of the distributions
ByG. Muraleedharan, C. Lucas, C. Guedes Soares
chapter 78|6 pages
Analysis of Extreme Storms in the Black Sea
ByL. Rusu, M. Bernardino, C. Guedes Soares
chapter 79|9 pages
Robust estimation and representation of climatic wave spectrum
ByG. Rodriguez, G. Clarindo, C. Guedes Soares
