A hydrodynamic optimization design methodology for a ship bulbous bow under multiple operating conditions

Lu, Yu; Chang, Xin; Hu, Ankang

doi:10.1080/19942060.2016.1159987

Cited by 19 publications

(13 citation statements)

References 37 publications

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“…Hydrodynamic optimization is an effective and robust design method that has a key role in the optimization of hulls [173]. Reduction of hull resistance can be achieved via vessel design, such as optimum hull dimensions, reduced ballast operation, lightweight construction, low profile hull openings, interceptor trim plates, skeg shape-trailing edge and bulbous bow.…”

Section: Vessel Designmentioning

confidence: 99%

Decarbonization in Shipping Industry: A Review of Research, Technology Development, and Innovation Proposals

Mallouppas¹,

Yfantis²

2021

JMSE

170

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This review paper examines the possible pathways and possible technologies available that will help the shipping sector achieve the International Maritime Organization’s (IMO) deep decarbonization targets by 2050. There has been increased interest from important stakeholders regarding deep decarbonization, evidenced by market surveys conducted by Shell and Deloitte. However, deep decarbonization will require financial incentives and policies at an international and regional level given the maritime sector’s ~3% contribution to green house gas (GHG) emissions. The review paper, based on research articles and grey literature, discusses technoeconomic problems and/or benefits for technologies that will help the shipping sector achieve the IMO’s targets. The review presents a discussion on the recent literature regarding alternative fuels (nuclear, hydrogen, ammonia, methanol), renewable energy sources (biofuels, wind, solar), the maturity of technologies (fuel cells, internal combustion engines) as well as technical and operational strategies to reduce fuel consumption for new and existing ships (slow steaming, cleaning and coating, waste heat recovery, hull and propeller design). The IMO’s 2050 targets will be achieved via radical technology shift together with the aid of social pressure, financial incentives, regulatory and legislative reforms at the local, regional and international level.

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Section: Vessel Designmentioning

confidence: 99%

Decarbonization in Shipping Industry: A Review of Research, Technology Development, and Innovation Proposals

Mallouppas¹,

Yfantis²

2021

JMSE

170

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“…The Rankine sources method is based on the potential-flow without considering viscosity. Nevertheless, for a sophisticated shiphull optimization system, it is more simple and convenient and has been proved to be accurate, reliable, and efficient, so it has been investigated in various studies (Abt and Harries et al [23], Lu, Chang, and Hu [24], Lowe and Steel [25], Suzuki, Kai, and Kashiwabara [26], Zhang, Kun, and Ji [27], Zhang [28], Chi, Huang, and Noblesse [29], Choi, Park, and Choi [30], and Chi, Huang, and Kim [31]).…”

Section: Mathematical Problems In Engineeringmentioning

confidence: 99%

Hydrodynamic Design Study on Ship Bow and Stern Hull Form Synchronous Optimization Covering Whole Speeds Range

Chang

Yin

et al. 2019

Mathematical Problems in Engineering

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The main objective of this article is to describe an innovative methodology of synchronous local optimization which considers the whole ship speed range being presented for a KRISO Container Ship (KCS). Parametric form approaches are adopted by employing a fairing B-spline curve in order to generate variants of the bow and stern of forms using form design parameters modified, resulting in an optimization system based on NSGA-II. The total resistance is calculated by the Rankine source panel method and the empirical formula which agrees well with the corresponding experimental data and further acquires validation with the overall error of 2.0%. Accordingly, the ship forepart and stern form have been optimized under conditions of the single design speed and whole speeds range based on the considerations of generally distributed and variable operational speeds for the operating characteristics of modern container ships synchronously. The optimized result presents well-balanced drag reduction benefits which averagely remain above 4.0% of ship resistance decrease. Compared to the traditional optimization process which is based on a specific design speed, the newly developed method is more practical and effective in both automation and integration.

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“…The hydrodynamic performance of the ship can be enhanced by reducing friction and pressure resistance. Several recent techniques have been carried out to achieve reduced drag on ships, i.e., improvements to the hull structure (Ibrahim et al, 2018), micro bubble injection (Sindagi et al, 2018;Zhang et al, 2019), and optimization techniques (Park et al, 2015;Samuel et al, 2015;Choi 2015;Lu et al, 2016;Lu et al, 2019). The hull's geometric optimization is considered a relatively reliable and appropriate method of evaluating ship hydrodynamics.…”

Section: Introductionmentioning

confidence: 99%

Achieving Drag Reduction with Hullform Improvement in Different Optimizing Methods

Sulistyawati¹,

Suranto²

2020

IJTech

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A hydrodynamic optimization design methodology for a ship bulbous bow under multiple operating conditions

Cited by 19 publications

References 37 publications

Decarbonization in Shipping Industry: A Review of Research, Technology Development, and Innovation Proposals

Decarbonization in Shipping Industry: A Review of Research, Technology Development, and Innovation Proposals

Hydrodynamic Design Study on Ship Bow and Stern Hull Form Synchronous Optimization Covering Whole Speeds Range

Achieving Drag Reduction with Hullform Improvement in Different Optimizing Methods

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