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Ships and Offshore Structures Volume 15, 2020 - Issue 3
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Articles

Ship energy performance study of three wind-assisted ship propulsion technologies including a parametric study of the Flettner rotor technology

Ruihua LuDepartment of Mechanics and Maritime Sciences, Chalmers University of Technology, Gothenburg, SwedenView further author information
&
Jonas W. RingsbergDepartment of Mechanics and Maritime Sciences, Chalmers University of Technology, Gothenburg, SwedenCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-6950-1864View further author information
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Pages 249-258 | Received 02 Feb 2019, Accepted 23 Apr 2019, Published online: 06 May 2019

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Fabian Thies & Jonas W. Ringsberg. (2023) Wind-assisted, electric, and pure wind propulsion – the path towards zero-emission RoRo ships. Ships and Offshore Structures 18:8, pages 1229-1236.
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Heng Zhu, Hua-Dong Yao & Jonas W. Ringsberg. Unsteady RANS and IDDES studies on a telescopic crescent-shaped wingsail. Ships and Offshore Structures 0:0, pages 1-14.
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Heng Zhu, Hua-Dong Yao, Fabian Thies, Jonas W. Ringsberg & Bengt Ramne. (2023) Propulsive performance of a rigid wingsail with crescent-shaped profiles. Ocean Engineering 285, pages 115349.
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Chetan Parmar, Elmar Wings & Thomas Peetz. (2023) Near Real Time Prediction of Vibration in 3D Printed Flettner Rotor Demonstrator. Near Real Time Prediction of Vibration in 3D Printed Flettner Rotor Demonstrator.
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Abdullah NFNR Alkhaledi, Suresh Sampath & Pericles Pilidis. (2023) Techno environmental assessment of Flettner rotor as assistance propulsion system for LH2 tanker ship fuelled by hydrogen. Sustainable Energy Technologies and Assessments 55, pages 102935.
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Ioli Gypa, Marcus Jansson, Robert Gustafsson, Sofia Werner & Rickard Bensow. (2023) Controllable-pitch propeller design process for a wind-powered car-carrier optimising for total energy consumption. Ocean Engineering 269, pages 113426.
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Gianluca Angelini, Sara Muggiasca & Marco Belloli. (2023) A Techno-Economic Analysis of a Cargo Ship Using Flettner Rotors. Journal of Marine Science and Engineering 11:1, pages 229.
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Buğra AKYOL & Kenan YİĞİT. (2022) A Simulation Study for Optimum Location Selection in Wind Turbine Application on Ships: A Case Study for a Tanker Ship. European Journal of Science and Technology.
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Jingze Lv, Yiqun Lin, Rui Zhang, Boyang Li & Hualin Yang. (2022) Assisted Propulsion Device of a Semi-Submersible Ship Based on the Magnus Effect. Polish Maritime Research 29:3, pages 33-46.
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Callum Stark, Yunxin Xu, Ming Zhang, Zhiming Yuan, Longbin Tao & Weichao Shi. (2022) Study on Applicability of Energy-Saving Devices to Hydrogen Fuel Cell-Powered Ships. Journal of Marine Science and Engineering 10:3, pages 388.
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Omer Berkehan Inal, Jean-Frédéric Charpentier & Cengiz Deniz. (2022) Hybrid power and propulsion systems for ships: Current status and future challenges. Renewable and Sustainable Energy Reviews 156, pages 111965.
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Yunlong Wang, Xin Zhang, Shaochuan Lin, Zhaoxin Qiang, Jinfeng Hao & Yan Qiu. (2022) Analysis on the Development of Wind-assisted Ship Propulsion Technology and Contribution to Emission Reduction. IOP Conference Series: Earth and Environmental Science 966:1, pages 012012.
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Thomas Sauder & Sverre A. Alterskjær. (2022) Hydrodynamic testing of wind-assisted cargo ships using a cyber–physical method. Ocean Engineering 243, pages 110206.
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Elizabeth Lindstad, Tor Stokke, Anders Alteskjær, Henning Borgen & Inge Sandaas. (2022) Ship of the future – A slender dry-bulker with wind assisted propulsion. Maritime Transport Research 3, pages 100055.
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James Cairns, Marco Vezza, Richard Green & Donald MacVicar. (2021) Numerical optimisation of a ship wind-assisted propulsion system using blowing and suction over a range of wind conditions. Ocean Engineering 240, pages 109903.
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Mingyang Huang, Wei He, Atilla Incecik, Andrzej Cichon, Grzegorz Królczyk & Zhixiong Li. (2021) Renewable energy storage and sustainable design of hybrid energy powered ships: A case study. Journal of Energy Storage 43, pages 103266.
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Maro Jelic, Gojmir Radica, Nikola Racic & Vedran Mrzljak. (2021) Developments in Marine Hybrid Propulsion. Developments in Marine Hybrid Propulsion.
Md Daluar Hussain & Osman Md Amin. (2021) A Comprehensive Analysis of the Stability and Powering Performances of a Hard Sail–Assisted Bulk Carrier. Journal of Marine Science and Application 20:3, pages 426-445.
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Orestis Schinas & Niklas Bergmann. (2021) The Short-Term Cost of Greening the Global Fleet. Sustainability 13:16, pages 9439.
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Andrea Orlandi, Andrea Cappugi, Riccardo Mari, Francesco Pasi & Alberto Ortolani. (2021) Meteorological Navigation by Integrating Metocean Forecast Data and Ship Performance Models into an ECDIS-like e-Navigation Prototype Interface. Journal of Marine Science and Engineering 9:5, pages 502.
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Boyang Li, Rui Zhang, Yajing Li, Baoshou Zhang & Chao Guo. (2021) Study of a New Type of Flettner Rotor in Merchant Ships. Polish Maritime Research 28:1, pages 28-41.
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Todd Chou, Vasileios Kosmas, Michele Acciaro & Katharina Renken. (2021) A Comeback of Wind Power in Shipping: An Economic and Operational Review on the Wind-Assisted Ship Propulsion Technology. Sustainability 13:4, pages 1880.
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Ruoli Tang, Qing An, Fan Xu, Xiaodi Zhang, Xin Li, Jingang Lai & Zhengcheng Dong. (2020) Optimal operation of hybrid energy system for intelligent ship: An ultrahigh-dimensional model and control method. Energy 211, pages 119077.
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Enric Julià, Fabian Tillig & Jonas W. Ringsberg. (2020) Concept Design and Performance Evaluation of a Fossil-Free Operated Cargo Ship with Unlimited Range. Sustainability 12:16, pages 6609.
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