{"id":50,"date":"2016-09-10T17:10:44","date_gmt":"2016-09-10T16:10:44","guid":{"rendered":"https:\/\/www.staff.ncl.ac.uk\/narakorn.srinil\/?page_id=50"},"modified":"2026-05-03T16:43:19","modified_gmt":"2026-05-03T15:43:19","slug":"publications","status":"publish","type":"page","link":"https:\/\/www.staff.ncl.ac.uk\/narakorn.srinil\/publications\/","title":{"rendered":"Research Publications"},"content":{"rendered":"
\n

Book Chapter: <\/strong><\/span>Srinil N<\/strong> (2016) \u201cCabling to Connect Offshore Wind Turbines to Onshore Facilities\u201d<\/span> in Offshore Wind Farms: Technologies, Design & Operation<\/em>, Woodhead Publishing, 419-440.<\/p>\n

International Journals
<\/em><\/strong><\/span><\/p>\n

    \n
  1. Badhurshah R, Srinil N<\/strong> (2026) \u201cStochastic wake oscillators for multi-degree-of-freedom vortex-induced vibrations of rigid and long flexible cylinders under free-stream turbulence<\/span>\u201d, <\/em>Journal of Fluids and Structures<\/em> 145, 104588.<\/li>\n
  2. Xiao S, Srinil N<\/strong>, Wan C, Zhu H, Zhou D, Bao Y (2026) \u201cTriFusionSR: A graph neural network with three-level fusion for 3D super-resolution of turbulent solid-liquid two-phase pipe flow<\/span>\u201d, submitted<\/em>.<\/li>\n
  3. Chen W, Yan Y, Ji C, Alam MM, Srinil N<\/strong>, Noack B, Deng N (2026) \u201cRevisiting the flip-flopping flow behind side-by-side circular cylinders<\/span>\u201d, submitted<\/em>.<\/li>\n
  4. Charoenlerkthawin W, Sattabongkot T, Srinil N<\/strong>, Burnett WC, Takaki H, Otarawanna S, Bidorn B (2026) \u201cA community-enabled bioinspired innovation to mitigate severe erosion in a subsiding mega-delta: Lessons from the Chao Phraya Delta, Thailand<\/span>\u201d, submitted<\/em>.<\/li>\n
  5. Charoenlerkthawin W, Burnett WC, Sattabongkot T, Srinil N<\/strong>, Aye YN, Pujianiki N, Bidorn B (2026) \u201cA bioinspired hybrid nature-based solution using artificial mangrove roots to enhance coastal resilience and mangrove rehabilitation<\/span>\u201d, Journal of Environmental Management<\/em> 397, 128299.<\/li>\n
  6. Charoenlerkthawin W, Sattabongkot T, Srinil N<\/strong>, Aye YN, Pujianiki NN, Bidorn B (2025) \u201cField evidence of artificial mangrove roots as a nature-inspired solution to counteract hard coastal structure impacts<\/span>\u201d, Ocean-Land-Atmosphere Research<\/em> 4, 0107.<\/li>\n
  7. Gao Y, Srinil N<\/strong>, Zhu H, Lui W (2025) \u201cVortex-induced vibration of S-shaped riser with intermediate buoyancy module and conveying gas-liquid slug flow<\/span>\u201d, Physics of Fluids <\/em>37, 037144.<\/li>\n
  8. Rashki M, Lotfollahi-Yaghin MA, Tamimi V, Dadashzadeh M, Santos PR, Bernitsas MM, Srinil N<\/strong> (2025) “A review of two-degree-of-freedom vortex-induced vibrations with hydrokinetic energy harvesting applications<\/span>\u201d, Ocean Engineering<\/em> 321, 120376.<\/li>\n
  9. Aye YN, Srinil N<\/strong> (2024) \u201cNumerical prediction of two-dimensional coupled galloping and vortex-induced vibration of square cylinders under symmetric\/asymmetric flow orientations<\/span>\u201d, Journal of Fluids and Structures<\/em> 131, 104215.<\/li>\n
  10. Liu X, Zhu H, Bao Y, Srinil N<\/strong>, Zhou D, Han Z (2024) \u201cTime-delayed characteristics of turbulence in pulsatile pipe flow<\/span>\u201d, Journal of Fluid Mechanics<\/em> 979, A24.<\/li>\n
  11. Padrino J, Srinil N<\/strong>, Kurushina V, Swailes D (2023) \u201cPrediction of unsteady slug flow in a long curved inclined riser with a slug tracking model<\/span>\u201d, International Journal of Multiphase Flow<\/em> 162, 104410.<\/li>\n
  12. Zhang L, Zhang Z, Chen W, Srinil N<\/strong>, Zhu H, Bao Y, Ji C (2023) \u201cFlow-induced vibrations of ten tandem cylinders at low Reynolds number<\/span>\u201d, Physics of Fluids<\/em> 35, 127130.<\/li>\n
  13. Ma B, Srinil N<\/strong> (2023) \u201cPrediction model for multidirectional vortex-induced vibrations of catenary riser in convex\/concave and perpendicular flows<\/span>\u201d, Journal of Fluids and Structures<\/em> 117, 103826.<\/li>\n
  14. Yan Y, Chen W, Zhang Z, Ji C, Srinil N<\/strong> (2023) \u201cFeatures and mechanisms of asymmetric wake evolution downstream two parallel circular cylinders<\/span>\u201d, Physics of Fluids<\/em> 35, 107132.<\/li>\n
  15. Bao Y, Shi X, Wang Z, Zhu H, Srinil N<\/strong>, Li A, Zhou D, Fan D (2023) \u201cDeep reinforcement learning for propulsive performance of a flapping foil<\/span>\u201d, Physics of Fluids <\/em>35, 103610.<\/li>\n
  16. Kakanda K, Srinil N<\/strong>, Han Z, Bao Y, Dibu M, Ren H, Zhou D (2022) \u201cA power series method for static and dynamic analysis of offshore mooring lines<\/span>\u201d, Ocean Engineering<\/em> 266, 112589.<\/li>\n
  17. Lekkala MK, Mohamed L, Jung J, Coraddu A, Zhu H, Srinil N<\/strong>, Lee BH, Kim DK (2022) \u201cRecent advances in understanding the flow over bluff bodies with different geometries at moderate Reynolds numbers<\/span>\u201d, Ocean Engineering<\/em> 257, 111611.<\/li>\n
  18. Heaney CE, Wolffs Z, T\u00f3masson JA, Kahouadji L, Salinas P, Nicolle A, Navon IM, Matar OK, Srinil N<\/strong>, Pain CC (2022) \u201cAn AI-based non-intrusive reduced-order model for extended domains applied to multiphase flow in pipes<\/span>\u201d, Physics of Fluids <\/em>34, 055111.<\/li>\n
  19. Chen W, Ji C, Srinil N<\/strong>, Yan Y, Zhang Z (2022) \u201cVortex-induced vibrations and wake patterns of side-by-side circular cylinders in the wake of stationary circular cylinder<\/span>\u201d, Marine Structures<\/em> 84, 103223.<\/li>\n
  20. Lim H, Manuel L, Low YM, Srinil N <\/strong>(2022) \u201cA surrogate model for estimating uncertainty in marine riser fatigue damage resulting from vortex-induced vibration<\/span>\u201d, Engineering Structures<\/em> 254, 113796.<\/li>\n
  21. Yan Y, Ji C, Srinil N<\/strong> (2021) \u201cOn wake modulation and interaction features of a pair of dual-step circular cylinders in side-by-side arrangements<\/span>\u201d,\u00a0Physics of Fluids<\/em> 33, 093604, Editor’s Pick<\/em><\/span>.<\/li>\n
  22. Chen W, Zhao Y, Ji C, Srinil N<\/strong>, Song L (2021) \u201cExperimental observation of flow-induced vibrations of a transversely oscillating D-section prism<\/span>\u201d, Physics of Fluids<\/em> 33, 091701.<\/li>\n
  23. Zhu H, Zhao H, Srinil N<\/strong> (2021) \u201cExperimental investigation on vortex-induced vibration and solid-structure impact of a near-bottom horizontal flexible pipeline in oblique shear flow<\/span>\u201d, Journal of Fluids and Structures<\/em> 106, 103356.<\/li>\n
  24. Soares B, Srinil N<\/strong> (2021) \u201cModelling of wake-induced vibrations of tandem cylinders with a nonlinear wake-deficit oscillator<\/span>\u201d, Journal of Fluids and Structures <\/em>105, 103340.<\/li>\n
  25. Obeysekara A, Salinas P, Heaney C, Kahouadji L, Via-Estrem L, Xiang J, Srinil N<\/strong>, Nicolle A, Matar O, Pain C (2021) \u201cPrediction of multiphase flows with sharp interfaces using anisotropic mesh optimisation<\/span>\u201d, Advances in Engineering Software <\/em>160, 103044.<\/li>\n
  26. Ma B, Srinil N<\/strong>, Zhu H, Gao Y (2021) \u201cExperimental measurement of large-amplitude intermittent vibrations of an inclined bendable riser transporting unsteady multiphase flows<\/span>\u201d, Applied Ocean Research<\/em> 113, 102731.<\/li>\n
  27. Zhang Z, Ji C, Chen W, Hua Y, Srinil N<\/strong> (2021) \u201cInfluence of boundary layer thickness and gap ratios on three-dimensional flow characteristics around a circular cylinder in proximity to a bottom plane<\/span>\u201d, Ocean Engineering <\/em>226, 108858.<\/li>\n
  28. Zhu H, Gao Y, Srinil N<\/strong>, Bao Y (2021) \u201cMode switching and standing-travelling waves in slug flow-induced vibration of catenary riser<\/span>\u201d Journal of Petroleum Science and Engineering <\/em>203, 108310.<\/li>\n
  29. Yan Y, Ji C, Srinil N<\/strong> (2020) \u201cThree-dimensional flip-flopping flow around a pair of dual-stepped circular cylinders in a side-by-side arrangement<\/span>\u201d Physics of Fluids<\/em> 32, 123608.<\/li>\n
  30. Lee S, Paik K-J, Srinil N<\/strong> (2020) \u201cWake dynamics of a 3D curved cylinder in oblique flows\u201d International Journal of Naval Architecture and Ocean Engineering<\/em><\/span><\/span> 12, 501-517.<\/li>\n
  31. Vijay K, Srinil N<\/strong>, Zhu H, Zhou D, Bao Y, Han Z (2020) \u201cFlow-induced transverse vibration of an elliptical cylinder with different aspect ratios<\/span>\u201d Ocean Engineering<\/em> 214, 107831.<\/li>\n
  32. Opinel P-A, Srinil N<\/strong> (2020) \u201cApplication of wake oscillators to two-dimensional vortex-induced vibrations of circular cylinders in oscillatory flows<\/span>\u201d Journal of Fluids and Structures<\/em> 96, 103040.<\/li>\n
  33. Ding C, Srinil N<\/strong>, Bao Y, Zhou D, Han Z (2020) \u201cVortex-induced vibrations of two mechanically coupled circular cylinders with asymmetrical stiffness in side-by-side arrangements<\/span>\u201d Journal of Fluids and Structures<\/em> 95, 102995.<\/li>\n
  34. Ji C, Zhang Z, Xu D, Srinil N<\/strong> (2020) \u201cDirect numerical simulations of horizontally oblique flows past three-dimensional circular cylinder near a plane boundary<\/span>\u201d Journal of Offshore Mechanics and Arctic Engineering<\/em> 142, 051903.<\/li>\n
  35. Ma B, Srinil N<\/strong> (2020) \u201cPlanar dynamics of inclined curved flexible riser carrying slug liquid-gas flows<\/span>\u201d Journal of Fluids and Structures<\/em> 94, 102911.<\/li>\n
  36. Ji C, Yang X, Yu Y, Cui Y, Srinil N<\/strong> (2020) \u201cNumerical simulations of flows around a dual step cylinder with different diameter ratios at low Reynolds number<\/span>\u201d European Journal of Mechanics \u2013 B\/Fluids <\/em>79, 332-344.<\/li>\n
  37. Chen W, Ji C, Xu D, Srinil N<\/strong> (2019) \u201cWake patterns of freely vibrating side-by-side circular cylinders in laminar flows<\/span>\u201d Journal of Fluids and Structures<\/em> 89, 82-95.<\/li>\n
  38. Ji C, Cui Y, Xu D, Yang X, Srinil N<\/strong> (2019) \u201cVortex-induced vibrations of dual-step cylinders with different diameter ratios in laminar flows<\/span>\u201d Physics of Fluids<\/em> 31, 073602.<\/li>\n
  39. Srinil N<\/strong>, Opinel P-A, Tagliaferri F (2018) \u201cEmpirical sensitivity of two-dimensional nonlinear wake-cylinder oscillators in cross-flow\/in-line vortex-induced vibrations<\/span>\u201d, Journal of Fluids and Structures<\/em> 83, 310-338.<\/li>\n
  40. Srinil N<\/strong>, Ma B, Zhang L (2018) \u201cExperimental investigation on in-plane\/out-of-plane vortex-induced vibrations of curved cylinder in parallel and perpendicular flows<\/span>\u201d, Journal of Sound and Vibration<\/em> 421, 275-299.<\/li>\n
  41. Ma B, Srinil N<\/strong> (2017) \u201cTwo-dimensional vortex-induced vibration suppression through the cylinder transverse linear\/nonlinear velocity feedback<\/span>\u201d Acta Mechanica<\/em> 228, 4369-4389.<\/li>\n
  42. Zanganeh H, Srinil N<\/strong> (2016) \u201cThree-dimensional VIV prediction model for a long flexible cylinder with axial dynamics & mean drag magnifications<\/span>\u201d Journal of Fluids and Structures<\/em> 66, 127-146.<\/li>\n
  43. Low YM, Srinil N<\/strong> (2016) \u201cVIV fatigue reliability analysis of marine risers with uncertainties in the wake oscillator model<\/span>\u201d Engineering Structures<\/em> 106, 96-108.<\/li>\n
  44. McQueen H, Srinil N<\/strong> (2016) \u201cA modified Matlock-Duffing model for two-dimensional ice-induced vibrations of offshore structures with geometric nonlinearities<\/span>\u201d Journal of Offshore Mechanics and Arctic Engineering<\/em> 138, 011501.<\/li>\n
  45. Bodai T, Srinil N<\/strong> (2015) \u201cPerformance analysis and optimization of a box-hull wave energy converter concept<\/span>\u201d Renewable Energy<\/em> 81, 551-565.<\/li>\n
  46. Zanganeh H, Srinil N<\/strong> (2014) \u201cCharacterization of variable hydrodynamic coefficients and maximum responses in two-dimensional vortex-induced vibrations with dual resonances<\/span>\u201d Journal of Vibration and Acoustics<\/em> 136, 051010.<\/li>\n
  47. Assi GRS, Srinil N<\/strong>, Freire CM, Korkischko I (2014) \u201cExperimental investigation of flow-induced vibration of curved cylinder in convex and concave configurations<\/span>\u201d Journal of Fluids and Structures<\/em> 44, 52-66.<\/li>\n
  48. Srinil N<\/strong>, Zanganeh H, Day A (2013) \u201cTwo-degree-of-freedom VIV of circular cylinder with variable natural frequency ratio: experimental and numerical Investigations<\/span>\u201d Ocean Engineering<\/em> 73, 179-194.<\/li>\n
  49. Srinil N<\/strong>, Zanganeh H (2012) \u201cModelling of coupled cross-flow\/in-line vortex-induced vibrations using double Duffing and van der Pol oscillators<\/span>\u201d Ocean Engineering<\/em> 53, 83-97.<\/li>\n
  50. Srinil N<\/strong> (2011) \u201cAnalysis and prediction of vortex-induced vibrations of variable-tension vertical risers in linearly sheared currents<\/span>\u201d Applied Ocean Research<\/em> 33, 41-53.<\/li>\n
  51. Srinil N<\/strong> (2010) \u201cMulti-mode interactions in vortex-induced vibrations of flexible curved\/straight structures with geometric nonlinearities<\/span>\u201d Journal of Fluids and Structures<\/em> 26, 1098-1122.<\/li>\n
  52. Srinil N<\/strong>, Wiercigroch M, O’Brien P (2009) \u201cReduced-order modelling of vortex-induced vibration of catenary riser<\/span>\u201d Ocean Engineering<\/em> 36, 1404-1414.<\/li>\n
  53. Srinil N<\/strong>, Rega G (2008) \u201cSpace-time numerical simulation and validation of analytical predictions for nonlinear forced dynamics of suspended cables<\/span>\u201d Journal of Sound and Vibration<\/em> 315, 394-413.<\/li>\n
  54. Srinil N<\/strong>, Rega G (2008) \u201cNonlinear longitudinal\/transversal modal interactions in highly extensible suspended cables<\/span>\u201d Journal of Sound and Vibration<\/em> 310, 230-242.<\/li>\n
  55. Rega G, Srinil N, <\/strong>Alaggio R (2008) \u201c<\/strong>Experimental and numerical studies of inclined cables: free and parametrically-forced vibrations<\/span>\u201d Journal of Theoretical and Applied Mechanics<\/em> 46, 621-640.<\/li>\n
  56. Rega G, Srinil N <\/strong>(2007) \u201cNonlinear hybrid-mode resonant forced oscillations of sagged inclined cables at avoidances<\/span>\u201d Journal of Computational and Nonlinear Dynamics<\/em> 2, 324-336.<\/li>\n
  57. Srinil N<\/strong>, Rega G, (2007) \u201cThe effects of kinematic condensation on internally resonant forced vibrations of shallow horizontal cables<\/span>\u201d International Journal of Non-Linear Mechanics<\/em> 42, 180-195.<\/li>\n
  58. Srinil N<\/strong>, Rega G, Chucheepsakul S (2007) \u201cTwo-to-one resonant multi-modal dynamics of horizontal\/inclined cables. Part I: theoretical formulation and model validation<\/span>\u201d Nonlinear Dynamics<\/em> 48, 231-252.<\/li>\n
  59. Srinil N<\/strong>, Rega G (2007) \u201cTwo-to-one resonant multi-modal dynamics of horizontal\/inclined cables. Part II: internal resonance activation, reduced-order models & nonlinear normal modes<\/span>\u201d Nonlinear Dynamics<\/em> 48, 253-274.<\/li>\n
  60. Srinil N<\/strong>, Rega G, Chucheepsakul S (2004) \u201cThree-dimensional nonlinear coupling and dynamic tension in large amplitude free vibrations of arbitrarily sagged cables<\/span>\u201d Journal of Sound and Vibration<\/em> 269, 823-852.<\/li>\n
  61. Srinil N<\/strong>, Rega G, Chucheepsakul S (2003) \u201cLarge amplitude three-dimensional free vibrations of inclined sagged elastic cables<\/span>\u201d Nonlinear Dynamics<\/em> 33, 129-154.<\/li>\n
  62. Chucheepsakul S, Srinil N<\/strong>, Petchpeart P (2003) \u201cA variational approach for three-dimensional model of marine cables with specified top tension<\/span>\u201d Applied Mathematical Modelling<\/em> 27, 781-803.<\/li>\n
  63. Chucheepsakul S, Srinil N<\/strong> (2002) \u201cFree vibrations of 3-D extensible marine cables with specified top tension via a variational method<\/span>\u201d Ocean Engineering<\/em> 29, 1067-1097.<\/li>\n<\/ol>\n
    International Conferences<\/strong><\/span><\/div>\n

    <\/em><\/strong><\/span>\n
      \n
    1. Aye YN, Srinil N<\/strong>, Norman R \u201cExperimental investigation of hydrokinetic energy harvesting from vortex-induced vibration under free-stream turbulent flow<\/span>\u201d The ASME 44th<\/sup> Conference on Ocean, Offshore & Arctic Engineering, OMAE2025-156192.<\/li>\n
    2. Aye YN, Srinil N<\/strong>, Bidorn B, Sattabongkot T, Charoenlerkthawin W \u201cNumerical investigation of wave-induced damping and dynamic response of artificial mangrove roots<\/span>\u201d The ASME 44th<\/sup> Conference on Ocean, Offshore & Arctic Engineering, OMAE2025-156186.<\/li>\n
    3. Badhurshah R, Srinil N<\/strong> \u201cVortex-induced vibrations of lazy-wave cables by using multiple wake oscillators<\/span>\u201d The ASME 44th<\/sup> Conference on Ocean, Offshore & Arctic Engineering, OMAE2025-156165.<\/li>\n
    4. Khalid F, Thies PR, Moideen R, Venugopal V, Badhurshah R, Srinil N<\/strong> \u201cSensitivity analysis of the response of a scaled power cable for application in offshore renewable energy<\/span>\u201d The 6th<\/sup> International Conference on Renewable Energies Offshore (RENEW 2024).<\/li>\n
    5. Badhurshah R, Srinil N<\/strong> \u201cVortex-induced vibration of an underwater flexible cylinder using stochastic wake oscillator model<\/span>\u201d The 26th<\/sup> Conference of Theoretical and Applied Mechanics (ICTAM 2024).<\/li>\n
    6. Aye YN, Srinil N<\/strong> \u201cExperimental investigation on flow-induced vibration of square cylinder under free-stream turbulent flow<\/span>\u201d The 26th<\/sup> Conference of Theoretical and Applied Mechanics (ICTAM 2024).<\/li>\n
    7. Ma B, Srinil N<\/strong> \u201cThree-dimensional vortex-induced vibrations of catenary risers under sheared flows at different incidence angles<\/span>\u201d The ASME 43rd<\/sup> Conference on Ocean, Offshore & Arctic Engineering, OMAE2024-125508.<\/li>\n
    8. Aye YN, Srinil N<\/strong> \u201cExperimental observation on chaotic vortex-induced vibration of circular cylinder in turbulent flow<\/span>\u201d The ASME 42nd<\/sup> Conference on Ocean, Offshore & Arctic Engineering, OMAE2023-101301.<\/li>\n
    9. Badhurshah R, Srinil N<\/strong>, Chaplin JR, Thies P, Johanning L, Borthwick AGL, Venugopal V \u201cStochastic vortex-induced vibration in free-stream turbulence using a phenomenological model<\/span>\u201d The ASME 42nd<\/sup> Conference on Ocean, Offshore & Arctic Engineering, OMAE2023-105249.<\/li>\n
    10. Ma B, Srinil N<\/strong> \u201cInfluence of internal slug flow on vortex-induced vibration of flexible riser with variable curvature<\/span>\u201d The ASME 41st<\/sup> Conference on Ocean, Offshore & Arctic Engineering, OMAE2022-78236.<\/li>\n
    11. Ma B, Srinil N<\/strong> \u201cNumerical prediction of 3-D vortex-induced vibration of catenary riser in planar and non-planar flows<\/span>\u201d The ASME 40th Int. Conference on Ocean, Offshore & Arctic Engineering, OMAE2021-61830.<\/li>\n
    12. Opinel P-A, Srinil N<\/strong> \u201cExperimental investigation of vortex-induced vibrations of a flexibly mounted circular cylinder in combined current and wave flows<\/span>\u201d The ASME 40th Int. Conference on Ocean, Offshore & Arctic Engineering, OMAE2021-62931.<\/li>\n
    13. Kakanda K, Han Z, Yan B, Srinil N<\/strong>, Zhou D \u201cA novel power series method for the analysis of an offshore mooring line<\/span>\u201d The ASME 40th Int. Conference on Ocean, Offshore & Arctic Engineering, OMAE2021-63219.<\/li>\n
    14. Kurushina V, Srinil N<\/strong>, Padrino J, Swailes D (2021) \u201cPhenomenological multimode models for flexible pipelines transporting slug flows and undergoing vortex-induced vibrations<\/span>\u201d The 2nd<\/sup> Int. Nonlinear Dynamics Conference, Rome, Online.<\/li>\n
    15. Zanganeh H, Kurushina V, Srinil N<\/strong>, Matar OK \u201cInfluence of combined empirical functions on slug flow predictions of pipelines with variable inclinations<\/span>\u201d The ASME 39th Int. Conference on Ocean, Offshore & Arctic Engineering, OMAE2020-18027.<\/li>\n
    16. Ma B, Srinil N<\/strong>, Zhu H, Gao Y \u201cExperiment on the effect of superficial gas-liquid velocities on slug flow-induced vibration in an inclined sagged riser<\/span>\u201d The ASME 39th Int. Conference on Ocean, Offshore & Arctic Engineering, OMAE2020-18034.<\/li>\n
    17. Opinel P-A, Srinil N<\/strong> \u201cLaboratory experiment of two-degree-of-freedom vortex-induced vibrations of circular cylinder in regular waves<\/span>\u201d The ASME 39th Int. Conference on Ocean, Offshore & Arctic Engineering, OMAE2020-18161.<\/li>\n
    18. Soares B, Srinil N<\/strong> \u201cCapturing wake stiffness in wake-induced vibration of tandem cylinders<\/span>\u201d The ASME 39th Int. Conference on Ocean, Offshore & Arctic Engineering, OMAE2020-18423<\/li>\n
    19. Ruinan L, Wang K, Li Q, Srinil N<\/strong>, Shi F \u201cExperimental investigation of flow-induced vibration in gas\/shear-thinning liquid flows in vertical pipe<\/span>\u201d The ASME 39th Int. Conference on Ocean, Offshore & Arctic Engineering, OMAE2020-18162.<\/li>\n
    20. Bakis K, Srinil N<\/strong> \u201cInternal flow-induced instability analysis of catenary risers<\/span>\u201d, MARINE2019, Gothenburg.<\/li>\n
    21. Ma B, Srinil N<\/strong>, Zhu H (2019) \u201cOn slug flow-induced vibration in long bendable curved pipe<\/span>\u201d, 10th International Conference in Multiphase Flow, Rio.<\/li>\n
    22. Moon YW, Srinil N<\/strong>, Park JC \u201cThree-dimensional numerical simulations of severe gas-liquid slugging flows in S-shaped riser<\/span>\u201d, The ASME 38th Int. Conference on Ocean, Offshore & Arctic Engineering, OMAE2019-95459.<\/li>\n
    23. Ji C, Zhang Z, Xu D, Srinil N<\/strong> \u201cThree-dimensional direct numerical simulations of flows past an inclined cylinder near a plane boundary<\/span>\u201d, The ASME 38th Int. Conference on Ocean, Offshore & Arctic Engineering, OMAE2019-95466.<\/li>\n
    24. Srinil N<\/strong>, Safrenydo S (2018) \u201cModelling of combined vortex- and wake-induced vibrations of tandem cylinders<\/span>\u201d. The 7th Conf. on Bluff Body Wakes & Vortex-Induced Vibrations <\/em>(BBVIV7).<\/li>\n
    25. Ma B, Srinil N<\/strong> \u201cDynamic characteristics of deep-water risers carrying multiphase flows<\/span>\u201d The ASME 37th Int. Conference on Ocean, Offshore & Arctic Engineering, OMAE2018-77381.<\/li>\n
    26. Safrenydo S, Srinil N <\/strong>\u201cSlug flow-induced oscillation in subsea catenary riser experiencing VIV<\/span>\u201d The ASME 37th Int. Conference on Ocean, Offshore & Arctic Engineering, OMAE2018-77298.<\/li>\n
    27. Kim J, Srinil N<\/strong> \u201c3-D numerical simulations of subsea jumpers transporting intermittent slug flows<\/span>\u201d The ASME 37th Int. Conf. on Ocean, Offshore & Arctic Engineering. OMAE2018-77299.<\/li>\n
    28. Opinel P-A, Srinil N<\/strong> \u201cPhenomenological modelling of cylinder VIV with contributions from oscillatory flows<\/span>\u201d The ASME 37th Int. Conference on Ocean, Offshore & Arctic Engineering, OMAE2018-77689.<\/li>\n
    29. Tagliaferri F, Srinil N <\/strong>(2017) \u201cQuantifying uncertainties in phenomenological model of two-dimensional VIV using multivariate Monte Carlo simulations<\/span>\u201d The ASME 36th Int. Conference on Ocean, Offshore & Arctic Engineering, Trondheim, OMAE2017-62143.<\/li>\n
    30. Lim H, Manuel L, Low YM, Srinil N<\/strong> (2017) \u201cUncertainty quantification of riser fatigue damage due to VIV using a distributed wake oscillator model<\/span>\u201d The ASME 36th Int. Conference on Ocean, Offshore & Arctic Engineering, Trondheim, OMAE2017-61058.<\/li>\n
    31. Srinil N<\/strong>, Ma B, Zhang L (2016) \u201cVortex-induced vibration of J-shaped cylinder by towing experiments<\/span>\u201d The 11th Int. Conference on Flow-Induced Vibration. 2016, The Hague.<\/li>\n
    32. Ma B, Srinil N<\/strong> (2016) \u201cSuppression of two-dimensional vortex-induced vibration with active velocity feedback controller<\/span>\u201d The 13th Int. Conference on Motion and Vibration Control and the 12th Int. Conference on Recent Advances in Structural Dynamics, Southampton.<\/li>\n
    33. McQueen H, Srinil N<\/strong> (2015) \u201cModelling two-dimensional ice-induced vibrations of offshore structures with geometric nonlinearities<\/span>\u201d The ASME 34th Int. Conference on Ocean, Offshore & Arctic Engineering, St John\u2019s, OMAE2015-41075.<\/li>\n
    34. Nguyen HD, Srinil N<\/strong>, Zanganeh H (2015) \u201cOn-bottom stability of inter-array subsea cables for offshore wind farms<\/span>\u201d The 8th Int. Conf. on Sustainable Energy & Environmental Protection, Glasgow.<\/li>\n
    35. Zanganeh H, Srinil N<\/strong>, Nguyen HD (2015) \u201cNonlinear model for on-seabed dynamic stability of wind farm cables<\/span>\u201d The 8th Int. Conf. on Sustainable Energy & Environmental Protection, Glasgow.<\/li>\n
    36. Birdas M, Srinil N<\/strong>, van den Abeele P (2015) \u201cAssessment of pipeline walking with coupled triggering mechanisms by finite element approach<\/span>\u201d The ASME 34th Int. Conference on Ocean, Offshore & Arctic Engineering, St John\u2019s, OMAE2015-42101.<\/li>\n
    37. Zanganeh H, Srinil N <\/strong>(2015) \u201cCoupled axial\/lateral VIV of marine risers in sheared currents<\/span>\u201d, The ASME 34th Int. Conference on Ocean, Offshore & Arctic Engineering, St John\u2019s, OMAE2015-41606.<\/li>\n
    38. Low YM, Srinil N<\/strong> (2015) \u201cSensitivity study of wake oscillator parameters influencing the fatigue damage of a riser undergoing VIV<\/span>\u201d The ASME 34th Int. Conference on Ocean, Offshore & Arctic Engineering, St John\u2019s, OMAE2015-41034.<\/li>\n
    39. Meng S, Kajiwara H, Srinil N<\/strong> (2015) \u201cCombined FIV and VIV effects on a cantilevered pipe discharging fluid in deep waters<\/span>\u201d The ASME 34th Int. Conference on Ocean, Offshore & Arctic Engineering, St John\u2019s, OMAE2015-41118.<\/li>\n
    40. Xu X, Srinil N<\/strong> (2015) \u201cDynamic response analysis of spar-type floating wind turbines and mooring lines with uncoupled vs coupled models<\/span>\u201d The ASME 34th Int. Conference on Ocean, Offshore & Arctic Engineering, St John\u2019s, OMAE2015-41512.<\/li>\n
    41. Ma B, Srinil N<\/strong>, Zanganeh H, Day A (2014) \u201cTowing tank experiment on flow-induced vibration of piggyback circular cylinders<\/span>\u201d, Int. Conference on Maritime Technology, Glasgow.<\/li>\n
    42. Srinil <\/strong>N<\/strong>, Zanganeh H, Day A (2013) \u201cExperimental investigation of 2-DOF VIV of circular cylinder with low equivalent mass & variable natural frequency ratio<\/span>\u201d The ASME 32nd Int. Conference on Ocean, Offshore & Arctic Engineering, Nantes, OMAE2013-10239.<\/li>\n
    43. Armin M, Srinil <\/strong>N<\/strong> (2013) \u201cWake-induced transverse vibration of two interfering cylinders in tandem arrangement: modelling and analysis<\/span>\u201d The ASME 32nd Int. Conference on Ocean, Offshore & Arctic Engineering, Nantes, OMAE2013-10896.<\/li>\n
    44. Zanganeh H, Srinil N<\/strong> (2013) \u201cTwo-dimensional coupled vortex-induced vibration of circular cylinder: prediction and extraction of hydrodynamics properties<\/span>\u201d The ASME 32nd Int. Conference on Ocean, Offshore & Arctic Engineering, Nantes, OMAE2013-10240.<\/li>\n
    45. Wang E, Xiao Q, Srinil N<\/strong>, Zanganeh H (2013) \u201cVortex-induced vibration of circular cylinder with two degrees of freedom: CFD vs. reduced-order models<\/span>\u201d The ASME 32nd Int. Conference on Ocean, Offshore & Arctic Engineering, Nantes, OMAE2013-10456.<\/li>\n
    46. Zanganeh H, Srinil N<\/strong> (2012) \u201cInteraction of wake and structure in two-dimensional VIV<\/span>\u201d, Int. Conference on Advances & Challenges in Marine Noise & Vibration, Glasgow, 177-188.<\/li>\n
    47. Velayudhan AKD, Srinil N<\/strong>, Baltrop N (2012) \u201cA new ship recovery concept using adaptively controlled buoyancy systems<\/span>\u201d The 11th Int. Marine Design Conference, Glasgow, 133-150.<\/li>\n
    48. Assi GRS, Srinil N<\/strong>, Freire CM, Korkischko I (2012) \u201cExperimental investigation of the vortex-induced vibration of a curved cylinder<\/span>\u201d, The ASME 31st Int. Conference on Ocean, Offshore & Arctic Engineering, Rio, OMAE2012-20192.<\/li>\n
    49. Assi GRS, Freire CM, Korkischko I, Srinil N<\/strong> (2012) \u201cExperimental investigation of the flow-induced vibration of a curved circular cylinder<\/span>\u201d, The 10th Int. Conference on Flow-Induced Vibration (& Flow-Induced Noise), Dublin, 543-554.<\/li>\n
    50. Velayudhan AKD, Srinil N<\/strong>, Baltrop N (2011) \u201cSliding mode controller for salvaging of sunken vessels<\/span>\u201d The RINA Int. Conference on Computer Applications in Shipbuilding, Trieste, 173-180.<\/li>\n
    51. Srinil N<\/strong>, O’Brien P, Wiercigroch M (2010) \u201cNumerical and experimental comparisons of vortex-induced vibrations of marine risers in uniform\/sheared currents<\/span>\u201d The ASME 29th Int. Conference on Ocean, Offshore & Arctic Engineering44T, Shanghai, OMAE2010-20192.<\/li>\n
    52. Srinil N<\/strong>, Wiercigroch M, O’Brien P, Younger R (2009) \u201cVIV of catenary riser: reduced-order modeling and lock-in analysis using wake oscillator<\/span>\u201d The ASME 28th Int. Conference on Ocean, Offshore & Arctic Engineering, <\/strong>Honolulu, OMAE2009-79166.<\/li>\n
    53. Srinil <\/strong>N<\/strong>, Wiercigroch M, O’Brien P (2009) \u201cNonlinear multi-mode interactions in subsea risers undergoing vortex-induced vibrations<\/span>\u201d The 19th Int. Offshore and Polar Engineering, ISOPE2009-TPC-149, Osaka, 1329-1336.<\/li>\n
    54. Srinil N<\/strong>, Wiercigroch M, O’Brien P, Lane M (2008) \u201cNew model for vortex-induced vibration of catenary riser<\/span>\u201d The 8th ISOPE Pacific\/Asia Offshore Mechanics Symposium, Bangkok, 129-136.<\/li>\n
    55. Srinil N<\/strong>, Alaggio R, Rega G (2007) \u201cExperimental linear\/nonlinear dynamics of an extensible sagged inclined cable<\/span>\u201d The 7th Int. Symposium on Cable Dynamics, Vienna, Austria, 209-216.<\/li>\n
    56. Srinil N<\/strong>, Rega G (2006) \u201cResonant non-Linear dynamic responses of horizontal cables via kinematically non-condensed\/condensed modeling<\/span>\u201d The 3rd European Conference on Computational Mechanics Solids, Structures and Coupled Problems in Engineering, Lisbon, Paper No.1627, 1-20.<\/li>\n
    57. Rega G, Srinil N<\/strong>, Chucheepsakul S (2005) \u201cInternally resonant nonlinear free vibrations of horizontal\/inclined sagged cables<\/span>\u201d, The 5th Conference on Multibody Systems, Nonlinear Dynamics & Control, California, DETC2005-84752, 1-9.<\/li>\n
    58. Srinil N<\/strong>, Rega G, Chucheepsakul S (2003) \u201cNonlinear interactions in the 3D free vibrations of horizontal and inclined sagged cables<\/span>\u201d The 5th Int. Sym. on Cable Dynamics, Italy, 77-84.<\/li>\n
    59. Srinil N<\/strong>, Chucheepsakul S, Rega G (2002) \u201cOn large amplitude free vibrations of an inclined cable in a 3-D space<\/span>\u201d The 2nd Int. Conference on Structural Stability & Dynamics, Singapore, 237-242.<\/li>\n<\/ol>\n<\/div>\n\n\n

      <\/p>\n","protected":false},"excerpt":{"rendered":"

      Book Chapter: Srinil N (2016) \u201cCabling to Connect Offshore Wind Turbines to Onshore Facilities\u201d in Offshore Wind Farms: Technologies, Design & Operation, Woodhead Publishing, 419-440. International Journals Badhurshah R, Srinil N (2026) \u201cStochastic wake oscillators for multi-degree-of-freedom vortex-induced vibrations of … Continue reading →<\/span><\/a><\/p>\n","protected":false},"author":1154,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-50","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/www.staff.ncl.ac.uk\/narakorn.srinil\/wp-json\/wp\/v2\/pages\/50","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.staff.ncl.ac.uk\/narakorn.srinil\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.staff.ncl.ac.uk\/narakorn.srinil\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.staff.ncl.ac.uk\/narakorn.srinil\/wp-json\/wp\/v2\/users\/1154"}],"replies":[{"embeddable":true,"href":"https:\/\/www.staff.ncl.ac.uk\/narakorn.srinil\/wp-json\/wp\/v2\/comments?post=50"}],"version-history":[{"count":380,"href":"https:\/\/www.staff.ncl.ac.uk\/narakorn.srinil\/wp-json\/wp\/v2\/pages\/50\/revisions"}],"predecessor-version":[{"id":1504,"href":"https:\/\/www.staff.ncl.ac.uk\/narakorn.srinil\/wp-json\/wp\/v2\/pages\/50\/revisions\/1504"}],"wp:attachment":[{"href":"https:\/\/www.staff.ncl.ac.uk\/narakorn.srinil\/wp-json\/wp\/v2\/media?parent=50"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}