于弋翔 副教授 資訊技術服務中心114-02-01115-04-16<![CDATA[<style type="text/css">.ed_model11 .job-title {
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<div class="ed_txt">于弋翔 副教授</div>
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<div class="ed_title03">于弋翔 副教授</div>
<div class="ed_txt"><img alt="" src="/userfiles/editor/ic_phone.svg"> #5494</div>
<div class="ed_txt"><img alt="" src="/userfiles/editor/ic_mail.svg"> <a href="mailto:mcweng@nycu.edu.tw" id="1-2" title="mcweng@nycu.edu.tw">yyu@nycu.edu.tw</a></div>
<div class="ed_txt"><img alt="" src="/userfiles/editor/ic_school.svg"> 美國德州大學奧斯汀分校 土木、建築和環境工程學系 博士</div>
<div class="ed_txt"><img alt="" src="/userfiles/editor/ic_work.svg"> 研究領域:海洋工程,海洋再生能源,計算流體力學</div>
<div class="ed_txt"><img alt="" src="/userfiles/editor/ic_jobs.svg"> 經歷:</div>
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<li>2021/8~迄今 國立交通大學土木工程學系 副教授</li>
<li>2021/10 R&D 100 Award for WEC–Sim in Software/Services category</li>
<li>2020/6~2021/7 美國國家再生能源實驗室 資深研究員(Eng. V)</li>
<li>2020/07 OMAE 2020 Conference Appreciation Award</li>
<li>2020/3~2021/12 MDPI-energies特刊客座編輯</li>
<li>2015/3~2020/6 美國國家再生能源實驗室 資深研究員(Eng. IV)</li>
<li>2015/1~2021/6 Journal of Offshore Mechanics and Arctic Engineering 副編輯</li>
<li>2016 Renewable Energy Top Reviewer Award</li>
<li>2015 Renewable Energy Top Reviewer Award</li>
<li>2012/9~2015/3 美國國家再生能源實驗室 研究員</li>
<li>2012 美國國家再生能源實驗室 Director’s Award</li>
<li>2010/7~2012/9 美國國家再生能源實驗室 博士後研究員</li>
<li>2008/8~2010/7 美國德州大學奧斯丁分校 博士後研究員<br>
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<li>Wang, L., Robertson, A., Jonkman, J., Yu, Y.-H., Koop, A., Borràs Nadal, A., Li, H., Bachynski-Polić, E., Pinguet, R., Shi, W., Zeng, X., Zhou, Y., Xiao, Q., Kumar, R., Sarlak, H., Ransley, E., Brown, S., Hann, M., Netzband, S., … Méndez López, B. (2021). OC6 Phase Ib: Validation of the CFD predictions of difference-frequency wave excitation on a FOWT semisubmersible. Ocean Engineering, 241.</li>
<li>Karayaka, H. B., Yu, Y.-H., and Muljadi, E., 2021. “Investigations into Balancing Peak-to-Average Power Ratio and Mean Power Extraction for a Two-Body Point-Absorber Wave Energy Converter,” Energies, 14(12), p. 3489.</li>
<li>Bingham, H. B., Yu, Y.-H., Nielsen, K., Tran, T. T., Kim, K.-h., Park, S., Hong, K., Said, H. A., Kelly, T., Ringwood, J. V., Robert, W., Ransley, E., Brown, S., and Greaves, D., 2021. “Ocean Energy Systems Wave Energy Modeling Task 10.4: Numerical Modeling of a Fixed Oscillating Water Column,” Energies, 14(6), p. 1718.</li>
<li>Kelly, M., Tom, N., Yu, Y.-H., Wright, A., and Lawson, M., 2021. “Annual Performance of the Second-Generation Variable-Geometry Oscillating Surge Wave Energy Converter,” Renewable Energy, 177.</li>
<li>Wang, L., Robertson, A., Jonkman, J., and Yu, Y.-H., 2021. “Uncertainty Assessment of CFD Investigation of the Nonlinear Difference-Frequency Wave Loads on a Semisubmersible FOWT Platform,” Sustainability, 13(1), p. 64.</li>
<li>van Rij, J., Yu, Y.-H., and Tran, T. T., 2021. “Validation of simulated wave energy converter responses to focused waves,” Proceedings of the Institution of Civil Engineers - Engineering and Computational Mechanics, 174(1), pp. 32–45</li>
<li>Ransley, E. J., Brown, S. A., Hann, M., Greaves, D. M., Hughes, J., Williams, A., Masters, I., Windt, C., Ringwood, J., Lin, Z., Chen, H., Qian, L., Ma, Z., Davidson, J., Chen, Q., Ding, H., Zang, J., Schmitt, P., van Rij, J., Yu, Y.-H., Yan, S., Wang, J. X., Wang, J. H., and Ma, Q., 2021. “Focused wave interactions with floating structures: A blind comparative study,” Proceedings of the Institution of Civil Engineers - Engineering and Computational Mechanics, 174(1), pp. 46–61.</li>
<li>Kramer, M. B., Andersen, J., Thomas, S., Bendixen, F. B., Read, R., Holk, N., Ransley, E., Brown, S., Yu, Y.-H., Tran, T. T., Davidson, J., Horvath, C., Janson, C.-E., and Nielsen, K., 2021. “Highly Accurate Experimental Heave Decay Tests with a Floating Sphere: A Public Benchmark Dataset for Model Validation of Fluid-Structure Interaction,” Energies, 14(2), p. 269.</li>
<li>Rollano, F. T., Tran, T. T., Yu, Y.-H., and Garc, G., 2020. “Influence of Time and Frequency Domain Wave Forcing on the Power Estimation of a Wave Energy Converter Array,” Journal of Marine Science and Engineering, 8(3), p. 171.</li>
<li>Faraggiana, E., Whitlam, C., Chapman, J., Hillis, A., Roesner, J., Hann, M., Greaves, D., Yu, Y. H., Ruehl, K., Masters, I., Foster, G., and Stockman, G., 2020. “Computational modelling and experimental tank testing of the multi float WaveSub under regular wave forcing,” Renewable Energy, 152, pp. 892–909.</li>
<li>Ruehl, K., Forbush, D. D., Yu, Y.-H., and Tom, N., 2020. “Experimental and numerical comparisons of a dual-flap floating oscillating surge wave energy converter in regular waves,” Ocean Engineering, 196.</li>
<li>Wendt, F., Nielsen, K., Yu, Y.-H., Bingham, H., Eskilsson, C., Kramer, B., Babarit, A., Bunnik, T., Costello, R., Crowley, S., Giorgi, G., Giorgi, S., Girardin, S., and et al., 2019. “Ocean Energy Systems Wave Energy Modeling Task: Modeling, Verification, and Validation of Wave Energy Converters,” Journal of Marine Science and Engineering, 7(11), p. 379.</li>
<li>van Rij, J., Yu, Y.-H., Guo, Y., and Coe, R., 2019. “A Wave Energy Converter Design Load Case Study,” Journal of Marine Science and Engineering, 7(8), p. 250.</li>
<li>Xu, Q., Li, Y., Yu, Y.-H., Ding, B., Jiang, Z., Lin, Z., and Cazzolato, B., 2019. “Experimental and numerical investigations of a two-body floating-point absorber wave energy converter in regular waves,” Journal of Fluids and Structures, 91.</li>
<li>Coe, R., Rosenberg, B., Quon, E., Chartrand, C., Yu, Y.-H., van Rij, J., and Mundon, T., 2019. “CFD design load analysis of a two-body wave energy converter,” Journal of Ocean Engineering and Marine Energy, 5, p. 99–117.</li>
<li>Yu, Y.-H., and Jenne, D., 2018. “Numerical Modeling and Dynamic Analysis of a Wave-Powered Reverse-Osmosis System,” Journal of Marine Science and Engineering, 6(4), p. 132.</li>
<li>Coe, R., Yu, Y.-H., and van Rij, J., 2017. “A Survey of WEC Reliability, Survival and Design Practices,” Energies, 11(4).</li>
<li>Tom, N., Yu, Y.-H., Wright, A., and Lawson, M., 2017. “Balancing Power Absorption Against Structural Loads with Viscous Drag and Power-Take-Off Efficiency Considerations,” IEEE Journal of Oceanic Engineering, 43(4), pp. 1048–1067.</li>
<li>van Rij, J., Yu, Y.-H., Edwards, K., and Mekhiche, M., 2017. “Ocean power technology design optimization,” International Journal of Marine Energy, 20, pp. 97–108.Babarit, </li>
<li>Sang, Y., Karayaka, H. B., Yan, Y., Zhang, J. Z., Bogucki, D., and Yu, Y.-H., 2017. “A Rule-Based Phase Control Methodology for a Slider-Crank Wave Energy Converter Power Take-Off System,” International Journal of Marine Energy, 19, pp. 124–144.</li>
<li>Tom, N. M., Yu, Y.-H., Wright, A. D., and Lawson, M. J., 2017. “Pseudo-spectral control of a novel oscillating surge wave energy converter in regular waves for power optimization including load reduction,” Ocean Engineering, 137, pp. 352–366.</li>
<li>Babarit, A., Wendt, F., Yu, Y.-H., and Weber, J., 2017. “Investigation on the energy absorption performance of a fixed-bottom pressure-differential wave energy converter,” Applied Ocean Research, 65, pp. 90–101.</li>
<li>Tom, N., Lawson, M., Yu, Y.-H., and Wright, A., 2016. “Spectral modeling of an oscillating surge wave energy converter with control surfaces,” Applied Ocean Research, 56, pp. 143–156.</li>
<li>Tom, N., Lawson, M., Yu, Y.-H., and Wright, A., 2016. “Development of a nearshore oscillating surge wave energy converter with variable geometry,” Renewable Energy, 96, oct, pp. 410–424.</li>
<li>Muljadi, E., and Yu, Y.-H., 2015. “Review of Marine Hydrokinetic Power Generation and Power Plant,” Electric Power Components and Systems, 43(12), pp. 1422–1433. </li>
<li>Yu, Y.-H., and Li, Y., 2013. “RANS Simulation of the Heave Performance of a Two-Body Floating-Point Absorber Wave Energy System,” Computers & Fluids, 73, pp. 104–114.</li>
<li>Li, Y., and Yu, Y.-H., 2012. “A Synthesis of Numerical Methods for Modeling Wave Energy Converter-Point Absorbers,” Renewable and Sustainable Energy Reviews, 16(6), pp. 4352–4364.</li>
<li>Kinnas, S. A., Xu, W., Yu, Y.-H., and He, L., 2012. “Computational Methods for the Design and Prediction of Performance of Tidal Turbines,” Journal of Offshore Mechanics and Arctic Engineering, 134(1).</li>
<li>Chu, C.-C., Yu, Y.-H., Chen, B.-F., and Hung, T.-K., 2010. “A time-independent finite difference analysis of viscous flow across a translating circular cylinder,” Journal of Marine Science and Technology Taiwan, 18(4).</li>
<li>Yu, Y.-H., and Kinnas, S. A., 2009. “Roll Response of Various Hull Sectional Shapes Using a Navier-Stokes Solver,” International Journal of Offshore and Polar Engineering, 19(1), pp. 46–51.</li>
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<li>Yu, Y.-H., Lawson, M., Li, Y., Previsic, M., Epler, J., and Lou, J., 2015. Experimental Wave Tank Test for Reference Model 3 Floating- Point Absorber Wave Energy Converter Project, National Renewable Energy Laboratory (NREL), Golden, CO.</li>
<li>Yu, Y.-H., Jenne, D. S., Thresher, R., Copping, A., Geerlofs, S., and Hanna, L., 2015. Reference Model 5: Oscillating Surge Wave Energy Converter, National Renewable Energy Laboratory (NREL), Golden, CO.</li>
<li>Coe, R. G., Neary, V. S., Lawson, M. J., Yu, Y.-H., and Weber, J., 2014. Extreme Conditions Modeling Workshop Report, National Renewable Energy Laboratory (NREL), Golden, CO.</li>
<li>Neary, V. S., Previsic, M., Jepsen, R. A., Lawson, M. J., Yu, Y.-H., Copping, A. E., Fontaine, A. A., Hallett, K. C., and Murray, D. K., 2014. Methodology for Design and Economic Analysis of Marine Energy Conversion (MEC) Technologies, Sandia National Laboratories, Albuquerque, NM</li>
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<div class="ed-model18-title-text">研討會論文</div>
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<li>Katsidoniotaki, E., Yu, Y.-H., & Oteman, G. ¨. (2021). Midfidelity model verification for a point-absorbing wave energy converter with linear power take-off. 14th European Wave and Tidal Energy Conference.</li>
<li>Ogden, D., Ruehl, K., Yu, Y.-H., Keester, A., Forbush, D., Leon, J., & Tom, N. (2021). Review of WEC-Sim development and applications. 14th European Wave and Tidal Energy Conference.</li>
<li>Hall, M., Sirnivas, S., & Yu, Y.-H. (2021). Implementation and Verification of Cable Bending Stiffness in MoorDyn. ASME 2021 3rd International Offshore Wind Technical Conference.</li>
<li>Wang, L., Robertson, A., Jonkman, J., Yu, Y.-H., Koop, A., Nadal, A. B., Li, H., Shi, W., Pinguet, R., Zhou, Y., & Kumar, R. (2021). Investigation of Nonlinear Differency-frequency Wave Excitation on a Semisubmersible Offshore-Wind Platform With Bichromatic-Wave. ASME 2021 3rd International Offshore Wind Technical Conference.</li>
<li>Ballard, B., Yu, Y.-H., Rij, J. V., and Driscoll, F., 2020. “Umbilical Fatigue Analysis for a Wave Energy Converter Preprint Umbilical Fatigue Analysis for a Wave Energy Converter Preprint,” In 39th International Conference on Ocean, Offshore and Arctic Engineering, Virtual Conference.</li>
<li>Karayaka, H. B., Yu, Y.-H., Tom, N., and Muljadi, E., 2020. “Investigating the Impact of Power-Take-Off System Parameters and Control Law on a Rotational Wave Energy Converter’s Peak-to-Average Power Ratio Reduction,” In 39th International Conference on Ocean, Offshore and Arctic Engineering, Virtual Conference.</li>
<li>van Rij, J., Yu, Y.-H., and Tom, N., 2019. “Validation of simulated wave energy converter responses to focused waves for CCP-WSI Blind Test Series 2,” In 13th European Wave and Tidal Energy Conference, Napoli, Italy.</li>
<li>Mankle, H., Yu, Y.-H., and Dupont, B., 2019. “WEC-Sim Array Development and Experimental Comparison Study,” In 13th European Wave and Tidal Energy Conference, Napoli, Italy.</li>
<li>Tom, N., Yu, Y.-H., and Wright, A., 2019. “Submerged pressure differential plate wave energy converter with variable geometry,” In 13th European Wave and Tidal Energy Conference, Napoli, Italy.</li>
<li>van Rij, J., Yu, Y.-H., Mccall, A., and Coe, R. G., 2019. “Extreme Load Computational Fluid Dynamics Analysis and Verification for a Multibody Wave Energy Converter,” In 38th International Conference on Ocean, Offshore and Arctic Engineering, Glasgow, Scotland.</li>
<li>Stefek, J., Bain, D., Yu, Y.-H., Jenne, D., and Stark, G., 2019. “Analysis on the Influence of and Energy Storage System and its Impact to the Grid for a Wave Energy Converter,” In 38th International Conference on Ocean, Offshore and Arctic Engineering, Glasgow, Scotland.</li>
<li>Wendt, F., Yu, Y.-H., and Delos-reyes, M., 2018. “Numerical Analysis and Validation of a Pressure-Differential Wave Energy Converter,” In 4th Asian Wave and Tidal Energy Conference, Taipei, Taiwan.</li>
<li>Nielsen, K., Wendt, F., Yu, Y.-H., Ruehl, K., Touzon, I., Crowley, S., Ogden, D., Girardin, S., Costello, R., Giorgi, S., Roy, A., Bingham, H., Read, R., Kramer, M. M., and Thomas, S., 2018. “OES Task 10 WEC heaving sphere performance modelling verification,” In 3rd International Conference on Renewable Energies Offshore, Lisbon, Portugal.</li>
<li>Yu, Y.-H., Tom, N., and Jenne, D., 2018. “Numerical Analysis on Hydraulic Power Take-Off for Wave Energy Converter and Power Smoothing Methods,” In 37th International Conference on Ocean, Offshore and Arctic Engineering, Madrid, Span.</li>
<li>van Rij, J., Yu, Y.-H., and Coe, R. G., 2018. “Design Load Analysis for Wave Energy Converters,” In 37th International Conference on Ocean, Offshore and Arctic Engineering, Madrid, Span.</li>
<li>Guo, Y., Yu, Y.-H., van Rij, J., and Tom, N., 2017. “Inclusion of Structural Flexibility in Design Load Analysis for Wave Energy Converters,” In 12th European Wave and Tidal Energy Conference, Cork, Ireland.</li>
<li>Wendt, F., Yu, Y.-H., Nielsen, K., Ruehl, K., Bunnik, T., Touzon, I., Nam, B. W., Kim, J. S., Kim, K.-H., Janson, C. E., Jakobsen, K.-r., Crowley, S., Vega, L., Rajagopalan, K., Mathai, T., Greaves, D., Ransley, E., Lamont-kane, P., Sheng, W., Costello, R., Kennedy, B., Thomas, S., Heras, P., Bingham, H., Kurniawan, A., Kramer, M. M., Ogden, D., Girardin, S., Wuillaume, P.-y., Steinke, D., Beatty, S., and Schofield, P., 2017. “IEA OES Task 10 WEC Modelling Verification and Validation,” In 12th European Wave and Tidal Energy Conference, Cork, Ireland.</li>
<li>van Rij, J., Yu, Y.-H., and Guo, Y., 2017. “Structural Loads analysis for wave energy converters,” In 36th International Conference on Ocean, Offshore and Arctic Engineering, Trondheim, Norway. Yu, Y.-H., and Jenne, D., 2017. “Analysis of a wave-powered reverse-osmosis system and its economic availability in the United States,” In 36th International Conference on Ocean, Offshore and Arctic Engineering, Trondheim, Norway.</li>
<li>van Rij, J., Yu, Y.-H., Edwards, K., and Mekhiche, M., 2016. “Ocean power technology design optimization,” In 4th Marine Energy Technology Symposium, Washington, DC, USA.</li>
<li>Sirnivas, S., Yu, Y.-H., Hall, M., and Bosma, B., 2016. “Coupled Mooring Analyses for the WEC-Sim Wave Energy Converter Design Tool,” In 35th International Conference on Ocean, Offshore and Arctic Engineering, Busan, South Korea.</li>
<li>Quon, E., Platt, A., Yu, Y.-H., and Lawson, M., 2016. “Application of the Most Likely Extreme Response Method for Wave Energy Converters,” In 35th International Conference on Ocean, Offshore and Arctic Engineering, Busan, South Korea.</li>
<li>Tom, N. M., Yu, Y.-H., Wright, A. D., and Lawson, M., 2016. “Balancing Power Absorption and Fatigue Loads in Irregular Waves,” In 35th International Conference on Ocean, Offshore and Arctic Engineering, Busan, South Korea.</li>
<li>Tom, N., Lawson, M., Yu, Y.-H., and Wright, A., 2015. “Preliminary Analysis of an Oscillating Surge Wave Energy Converter with Controlled Geometry,” In 11th European Wave and Tidal Energy Conference, Nantes, France.</li>
<li>Tom, N., Lawson, M., and Yu, Y.-H., 2015. “Recent Additions in the Modeling Capabilities of an Open-Source Wave Energy Converter Design Tool,” In 25th International Ocean and Polar Engineering Conference, Kona, Hawaii, USA.</li>
<li>Yu, Y.-H., van Rij, J., Coe, R., and Lawson, M., 2015. “Preliminary Wave Energy Converters Extreme Load Analysis,” In 34th International Conference on Ocean, Offshore and Arctic Engineering, St. John’s, Newfoundland, Canada.</li>
<li>Tom, N., Lawson, M., and Yu, Y.-H., 2015. “Demonstration of the Recent Additions in Modeling Capabilities for the WEC-Sim Wave Energy Converter Design Tool,” In 34th International Conference on Ocean, Offshore and Arctic Engineering, St. John’s, Newfoundland, Canada.</li>
<li>Lawson, M., Yu, Y.-H., Barahona Garzon, B., Wendt, F., and Michelen, C., 2015. “COER Hydrodynamic Modeling Competition: Modeling the Dynamic Response of a Floating Body Using the WEC-Sim and FAST Simulation Tools,” In 34th International Conference on Ocean, Offshore and Arctic Engineering, St. John’s, Newfoundland, Canada.</li>
<li>Jenne, D. S., Yu, Y.-H., and Neary, V., 2015. “Levelized Cost of Energy Analysis of Marine and Hydrodynamic Reference Models,” In 3rd Marine Energy Technology Symposium, Washington, DC, United States.</li>
<li>Yu, Y.-H., Li, Y., Hallett, K., and Hotimsky, C., 2014. “Design and Analysis for a Floating Oscillating Surge Wave Energy Converter,” In 33rd International Conference on Ocean, Offshore and Arctic Engineering, San Francisco, CA, United States.</li>
<li>Lawson, M., Yu, Y.-H., Nelessen, A., Ruehl, K., and Michelen, C., 2014. “Implementing Nonlinear Buoyancy and Excitation Forces in the WEC-SIM Wave Energy Converter Modeling Tool,” In 33rd International Conference on Ocean, Offshore and Arctic Engineering, San Francisco, CA, United States.</li>
<li>Ruehl, K., Michelen, C., Kanner, S., Lawson, M., and Yu, Y.-H., 2014. “Preliminary Verification and Validation of WEC-Sim, an Open Source Wave Energy Converter Design Tool,” In 33rd International Conference on Ocean, Offshore and Arctic Engineering, San Francisco, CA, United States.</li>
<li>Yu, Y.-H., Lawson, M., Ruehl, K., and Michelen, C., 2014. “Development and Demonstration of the WEC-Sim Wave Energy Converter Simulation Tool,” In 2nd Marine Energy Technology Symposium, Seattle, WA.</li>
<li>Mccomb, C., Lawson, M., and Yu, Y.-H., 2013. “Development and Verification of a Wave Energy Converter Simulation Tool,” In 1st Marine Energy Technology Symposium, Washington, DC. Yu, Y.-H., and Li, Y., 2011. “A RANS Simulation for the Heave Response of a Two-Body Floating Point Wave Absorber,” In 21st International Offshore (Ocean) and Polar Engineering Conference, Maui, HI, United States.</li>
<li>Yu, Y.-H., and Kinnas, S. A., 2010. “Roll and Heave Response of Hull Sections of Variable Shapes in Waves,” In 29th International Conference on Ocean, Offshore and Arctic Engineering, Shanghai, China.</li>
<li>Kinnas, S. A., Xu, W., and Yu, Y.-H., 2010. “Computational Models for Prediction of Performance and Design of Tidal Turbines,” In 29th International Conference on Ocean, Offshore and Arctic Engineering, Shanghai, China.</li>
<li>Kinnas, S. A., Chang, S.-H., and Yu, Y.-H., 2010. “Prediction of Wetted and Cavitating Performance of Waterjets,” In 28th Symposium on Naval Hydrodynamics, Pasadena, CA.</li>
<li>Kinnas, S. A., Chang, S.-H., Yu, Y.-H., and He, L., 2009. “A Hybrid Viscous/Potential Flow Method for the Prediction of the Performance of Podded and Ducted Propellers,” In Society of Naval Architects and Marine Engineers Propeller/Shafting ’09 Symposium, Williamsburg, VA.</li>
<li>Yu, Y.-H., and Kinnas, S. A., 2009. “Roll Response of Ship-Shaped Hulls in Waves,” In 28th International Conference on Ocean, Offshore and Arctic Engineering, Honolulu, HI, United States.</li>
<li>Yu, Y.-H., and Kinnas, S. A., 2008. “Prediction of Hydrodynamic Performance for Various Ship-Shaped Hulls under Excessive Roll Motions Using an Unsteady Navier-Stokes Solver,” In 18th International Offshore and Polar Engineering Conference, Vol. 3, pp. 386–393, Vancouver, BC, Canada.</li>
<li>Kinnas, S. A., Yu, Y.-H., and Vinayan, V., 2006. “Prediction of flows around FPSO hull sections in roll using an unsteady Navier-Stokes solver,” In 16th International Offshore and Polar Engineering Conference, Vol. 3, pp. 384– 393, San Francisco, CA, United States.</li>
<li>Yu, Y.-H., Kinnas, S. A., Vinayan, V., and Kacham, B. K., 2005. “Modeling of flow around FPSO hull sections subject to roll motions: Effect of the separated flow around bilge keels,” In 15th International Offshore and Polar Engineering Conference, Vol. 1, pp. 163–170, Seoul, South Korea.</li>
<li>Vinayan, V., Kinnas, S. A., and Yu, Y.-H., 2005. “Modeling of flow around FPSO hull sections subject to roll motions: Effects of nonlinear boundary conditions,” In 24th International Conference on Offshore Mechanics and Arctic Engineering, Vol. 3, pp. 805–816, Halkidiki, Greece.</li>
<li>Chen, B.-F., Yu, Y.-H., and Hung, T.-K., 2004. “Large Reynolds Number flow across a translating circular cylinder with high oscillating frequencies,” In Advances in Engineering Mechanics - Reflections and Outlooks: In Honor of T. Y.-T. Wu., Vancouver, BC, Canada.</li>
<li>Kinnas, S. A., Yu, Y.-H., Lee, H., and Kakar, K., 2003. “Modeling of Oscillating Flow Past a Vertical Plate,” In 13th International Offshore and Polar Engineering Conference, Vol. 3, pp. 218–226, Honolulu, HI, United States.</li>
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