缅北禁地

Dr Srinil's academic-industry background and current research interest are related to offshore energy including offshore wind and marine renewables, vortex energy harvesting technologies, energy transition for oil and gas operations, subsea flow transportation, clean maritime decarbonisation, and nature-inspired engineering innovation, to contribute to the global net-zero emission ambition and environmental sustainability. Dr Srinil's fundamental and applied research focus is on understanding flow-induced vibration phenomena and fluid-structure interaction effects in maritime engineering infrastructures under ocean environment by developing phenomenological and physics-informed models, advancing computationally efficient predictive tools, and performing in-house experimental tests in a hydrodynamic flume capable of generating wind, wave and current conditions.

Research Themes

Dr Srinil and his (Fluid-flexible structure iNterAction ReseArch) team have been carrying out theoretical, analytical, computational and experimental works with a recent focus on following research areas:

1. Nature-inspired mechanical fluid-structure interactions,
2. Ocean, coastal & subsea engineering technologies,
3. Offshore renewables, decarbonisation & energy transition.

Role & Responsibility

Dr Srinil is currently responsible for the following key roles within the School of Engineering.

• Head of Marine, Offshore & Subsea Technology (MOST) Group (Jan. 2026 - present),
• Postgraduate Research Lead for Mechanical Engineering & Marine Technology discipline,
• Marine lead for 缅北禁地 in Singapore's Overseas Immersion Programme (OIP),
• Member of the Personal Extenuating Circumstances (PEC) committee,
• Member of the Health & Safety committee.

Areas of expertise & interest

• Vortex-induced vibration
• Nature-inspired engineering
• Fluid-structure interaction
• Phenomenological modelling
• Offshore wind & marine renewables
• Energy harvesting technologies

Google Scholar:

SCOPUS:

More information on Dr Srinil's research:

, , , &

Recent Projects

(1) British Council - International Science Partnership Fund [ID: 1203407805 | 2024-2026]

‘Eco-Creative Nature-Inspired Innovation for Coastal Erosion Mitigation (Eco-NICE)’ Team: N Srinil (PI); B Bidorn (Co-I). University Partners: 缅北禁地 & Chulalongkorn (Bangkok, Thailand).

(2) EPSRC [EP/W015102/1 | 2022-2026]

‘CableDyn: Subsea Power Cable Dynamics Under Complex Ocean Environment’ Team: V Venugopal (Lead PI); L Johanning & N Srinil (Co-PI); A Borthwick, P Thies & J Chaplin (Co-I). University Partners: Edinburgh, 缅北禁地, Exeter & Southampton.

(3) EPSRC [EP/T517914/1 | DTP-funded Project no.2595608 | 2021-2025]

‘Renewable Energy from Natural Flow Phenomena‘ Team: Y Aye (PhD student) & N Srinil (Supervisor).

(4) EPSRC [EP/P033148/1; EP/P033180/1; EP/P033105/1 | 2018-2022]

‘MUltiphase Flow-induced Fluid-flexible structure InteractioN in Subsea applications ‘ Team: N Srinil (Lead PI); O Matar & G Falcone (Co-PI); C Pain, D Swailes & A Cammanaro (Co-I). University Partners: 缅北禁地, Imperial College & Glasgow. 

(5) Royal Society & NSFC [IEC/NSFC/181370 | 2019-2022]

‘High-Fidelity Modelling & Experiment of Combined Internal/External Flow-Induced Vibrations of Complex Structural Geometries‘ Team: N Srinil & Y Bao (Shanghai Jiao Tong University).

Past Projects

• PI: ‘Advanced Analysis & Design Tools for Vortex-Induced Vibration of Offshore Structures’, partnered with the National University of Singapore & University of Sao Paulo, funded by the Scottish Funding Council.
• PI: ‘On-Bottom Stability Analysis of Subsea Cables for Offshore Wind Applications’, funded by SSE, SPR & Technip.
• PI: ‘Analysis Tool for Offshore Jackets Supporting Wind Turbines in Deep Waters’, funded by SSE, SPR & Technip.
• PI: ‘Connecting Jackets with Piles for Offshore Wind Turbines’, funded by SSE, SPR & Technip.
• PI: ‘Subsea Cables & Vortex-Induced Vibration’, funded by Scottish Power Renewable (SPR).
• PI: ‘SuSy – Surfacing System for Ship Recovery’, funded by EU-FP7:Transport.
• Co-I: ‘Performance of Vortex-Induced Vibration Suppression Strakes’, funded by Balmoral Offshore Ltd.

 

Dr Srinil contributes to and leads (*) the following modules.

MSc in Subsea, Pipeline, Naval & Renewable Energy Engineering

• - Dynamics of Subsea Installations*
• - Design of Pipelines, Risers & Umbilicals
• - Material, Corrosion & Flow Assurance Aspects*
• - Advanced Naval Architecture
•   - Renewable Energy: Marine Structures & Devices*
• - Fundamentals of Pipeline Engineering*
• MAR8011 - Dynamics of Offshore Installations*
  
• - Design & Construction*
• - Asset Management*
• - Corrosion & Corrosion Control

BEng/MEng in Marine Technology

• MAR1012 - Naval Architecture
• MAR3043 - Project & Report in Marine Engineering*
• MAR3044 - Project & Report in Naval Architecture*
• MAR3045 - Project & Report in Offshore Engineering*
• MAR3046 - Project & Report in Small Craft Technology*
  

Former Modules @ Strathclyde (2010-2015)

• NM210 - Analysis & Design of Marine Structures I
• NM312 - Analysis & Design of Marine Structures II
• NM404 - Ship Structural Dynamics
• NM958 - Risers & Mooring Lines
• MSc Group Projects in Offshore Floating Systems, Subsea Eng., Ship & Offshore Structures
• Pipelines, Moorings, Umbilicals & Risers (MTEC: Marine Technology Education Consortium)

MSc Theses under my supervision

2018/2019

• Wake dynamics of 3-D curved cylinder in oblique flows [S. Lee]
• 3-D numerical simulations of slug flow in asymmetric jumper [K. Lim]
• Slug FIV in deepwater lazy-wave flexible riser [M. Othman]
• Slug FIV in multi-span pipelines undergoing VIV [F. Findasari]
• Pipe-in-pipe modelling for subsea flow assurance [A. Ibrahim]
• Vibration analysis of an oil tanker [Y. Gao]
  

2017/2018

• 3-D CFD of gas-liquid severe slugging in lazy wave riser [Y. Moon]
  
• CFD of oil-water flows in horizontal & vertical pipelines [K. Kwon]

2016/2017

• Non-uniform slug flow & VIV effects on steel catenary riser [S. Safrendyo]
  
• CFD analysis of subsea valve actuator hydraulic flows [N. Tait]
• CFD for FSI analysis of subsea jumper transporting multiphase flows [J. Kim]
  
• Severe slugging of deepwater M-shaped rigid jumpers [K. Smart]
  
• VIV of drilling riser subject to space-time varying currents [R. Toledo]
• Mitigation technique of severe slugging in riser-pipeline [K. Kim]
  
• Deep sea mining with novel S-shaped risers [A. Indhama]
  

2015/2016

• Severe slugging in a pipeline-riser system [C. Kwan]
  
• XXL monopiles for offshore wind farm turbines [D. Akpan]
• Analysis of jetting functions on subsea ploughs [D. Potter]
  
• Passive VIV control for multiple-span pipelines [A. Karunakaran]
  
• VIV experiments of a curved cylinder pipe in multi orientations to flows [A. Zapris]
• Optimum design of sea-water uptake reel during deployment/recovery [R. Wade]
  
• Internal-flow pulsation & vibration of free-spanning subsea pipelines [S. Mathew]
  
• CFD-based risk assessment of piping vibration due to multiphase flow [C. Jung]
  
• Partially-filled rectangular & trapezoidal LNG tanks to alleviate sloshing [H. Jeong]
• Modelling and analysis of fatigue failure in flexible risers [R. Torres]
• Slug flow-induced vibration of flexible risers and pipelines [G. Nikas]
• CFD-based VIV analysis of two parallel cylinders with 2DOF [S. Zaidi]
  

2014/2015

• Multiphase internal flow-induced vibration of subsea jumpers [S. Laprabang]
• Current-induced vibrations of multi free-spanning pipelines [L. Ramadhan]
• Dynamic performance of LWSCR, OSCR, TSCR vs SCR [A. Venetsanos]
• Arctic rigid riser-mooring systems under ice impact [A. Varghese]
• Enhanced oil recovery using CO2 injection risers [S. Okpokparoro]
• Dynamics of risers & pipelines with damage and leakage [Y. Xu]
• Analysis of HPHT pipe-in-pipe structures [S. Phromnomai]
• Fatigue damage analysis due to pipeline-soil-fluid interactions [S. Arogundade]
• Analysis & design of offshore systems using Orcaflex vs Flexcom [A. Oliyide]
• Towing tank experiment on VIV of a J-lay pipe [L. Zhang]
• Fatigue analysis of deepwater riser VIV [E. Normann]

  2013/2014

• Pipeline walking and mitigation approach [M. Birdas]
• On-bottom stability of inter-array subsea cables [A. Richard]
• Optimized 3-leg jacket for offshore wind turbines [N. S. Conde]
• Deepwater gravity base for offshore wind turbines [R. Kuruniyan]
• CFD study on flow past piggyback cylinders [K. Pratumwun]
• Parametrically-excited deepwater drilling riser [F. Poretti]
• Novel deepwater mooring systems with buoys [O. Akinyode]
• Interference analysis of TLP/SPAR risers in array [A Etim]
• Ice-structure interaction using FEM [A. Steinert]

  2012/2013

• Springing of FPSOs due to waves [M. Arriaga]
• Modelling iced-induced structural vibration [B. Lhabitant]
• Mooring of offshore floating wind turbines [R. Quail]
• Modelling VIV of circular cylinder near seabed [A. Kusnadi]
• Experimental study on 2-DOF VIV of inclined cylinder [C. Sevak]
• VIV of arbitrarily inclined free-spanning pipelines [P. Sirilatthaporn]
• Sensitivity analysis of a conceptual design for subsea deployment [A. Matheson]
• Fluid mechanics of forced figure-eight trajectories of circular cylinders [J. Chen]

  2011/2012

• Impact of combined VIV & wave interaction on offshore structures [Y. Aye]
• Interactions of seabed and SCRs with trench profile effects [E. Seim]
• Numerical time-domain analysis of ice-SPAR platform interaction [J. Uche]
• Clashing analysis of hybrid riser systems due to wake interference [M. Aursand]
• A novel hybrid riser-tether system for deepwater applications [B. Umobi]
• Clashing modelling of in-tandem structures undergoing VIV [M. Armin]

  2010/2011

• Impact analysis of the liquid sloshing within the FPSO tanks using CFD [J. Lee]
• Dynamic analysis of coupled mooring lines & floating wave energy devices [M. Ramli]
• Time-domain analysis of seabed-riser interactions in deepwater applications [B. Peroz]
• CFD with visualization of vortex modes behind forced cylinders [P. Reagan]
• Accurate deformation of flexible structures using strain gauges vs. optical camera [A. Ikeaguzi]
• Oil & gas exploration and production in the Bay of Bengal [N.K. Chandru]

  2009/2010

• Analysis of ice-structure interaction using a simplified modeling and approach [S. Maley]
• Feasibility of composite risers in offshore deepwater applications [O. Ugbehe]
• Riser VIV analysis using a time-domain approach [N. O. Amaraibi]
• CFD studies on flows past stationary/harmonically-forced transverse oscillating cylinders [Il Y. Lee]

• Articles

  • Charoenlerkthawin W, Burnett WC, Sattabongkot T, Srinil N, Aye YN, Pujianiki NN, Bidorn B. . Journal of Environmental Management 2026, 397, 128299.
  • Gao Y, Srinil N, Zhu H, Lui W. . Physics of Fluids 2025, 37, 037144.
  • Charoenlerkthawin W, Sattabongkot T, Srinil N, Aye YN, Pujianiki NN, Bidorn B. . Ocean-Land-Atmosphere Research 2025, 4, 0107.
  • Liu X, Zhu H, Bao Y, Srinil N, Zhou D, Han Z. . Journal of Fluid Mechanics 2024, 979, A24.
  • Aye YN, Srinil N. . Journal of Fluids and Structures 2024, 131, 104215.
  • Padrino JC, Srinil N, Kurushina V, Swailes D. . International Journal of Multiphase Flow 2023, 162, 104410.
  • Ma B, Srinil N. . Journal of Fluids and Structures 2023, 117, 103826.
  • Zhang L, Zhang Z, Chen W, Srinil N, Zhu H, Bao Y, Ji C. . Physics of Fluids 2023, 35(12), 127130.
  • Yan Y, Chen W, Zhang Z, Ji C, Srinil N. . Physics of Fluids 2023, 35(10), 107132.
  • Bao Y, Shi X, Wang Z, Zhu H, Srinil N, Li A, Zhou D, Fan D. . Physics of Fluids 2023, 35, 103610.
  • Lekkala MK, Latheef M, Jung J, Coraddu A, Zhu H, Srinil N, Lee BH, Kim DK. . Ocean Engineering 2022, 261, 111611.
  • Chen W, Ji C, Srinil N, Yan Y, Zhang Z. . Marine Structures 2022, 84, 103223.
  • Heaney CE, Wolffs Z, Tomasson JA, Kahouadji L, Salinas P, Nicolle A, Navon IM, Matar OK, Srinil N, Pain CP. . Physics of Fluids 2022, 34, 055111.
  • Lim H, Manuel L, Low YM, Srinil N. . Engineering Structures 2022, 254, 113796.
  • Kakanda K, Srinil N, Han Z, Bao Y, Dibu M, Ren H, Zhou D. . Ocean Engineering 2022, 266(1), 112589.
  • Obeysekara AIB, Salinas P, Heaney C, Kahouadji L, Via-Estrem L, Xiang J, Srinil N, Nicolle A, Matar OK, Pain CC. . Advances in Engineering Software 2021, 160, 103044.
  • Yan Y, Ji C, Srinil C. . Physics of Fluids 2021, 33(09), 093604.
  • Soares B, Srinil N. . Journal of Fluids and Structures 2021, 105, 103340.
  • Zhu H, Gao Y, Srinil N, Bao Y. . Journal of Petroleum Science and Engineering 2021, 203, 108310.
  • Zhang Z, Ji C, Chen W, Hua Y, Srinil N. . Ocean Engineering 2021, 226, 108858.
  • Chen W, Zhao Y, Ji C, Srinil N, Song L. . Physics of Fluids 2021, 33(9), 091701.
  • Ma B, Srinil N, Zhu H, Gao Y. . Applied Ocean Research 2021, 113, 102731.
  • Zhu H, Zhao H, Srinil N. . Journal of Fluids and Structures 2021, 106, 103356.
  • Lee S, Paik K-J, Srinil N. . International Journal of Naval Architecture and Ocean Engineering 2020, 12, 501-517.
  • Ding C, Srinil N, Bao Y, Zhou D, Han Z. . Journal of Fluids and Structures 2020, 95, 102995.
  • Yan Y, Ji C, Srinil N. . Physics of Fluids 2020, 32, 123608.
  • Ma B, Srinil N. . Journal of Fluids and Structures 2020, 94, 102911.
  • Ji C, Yang X, Yu Y, Cui Y, Srinil N. . European Journal of Mechanics - B/Fluids 2020, 79, 332-344.
  • Vijay K, Srinil N, Zhu H, Bao Y, Zhou D, Han Z. . Ocean Engineering 2020, 214, 107831.
  • Ji C, Zhang Z, Xu D, Srinil N. . Journal of Offshore Mechanics and Arctic Engineering 2020, 142(5), 051903.
  • Opinel P-A, Srinil N. . Journal of Fluids and Structures 2020, 96, 103040.
  • Chen W, Ji C, Xu D, Srinil N. . Journal of Fluids and Structures 2019, 89, 82-95.
  • Ji C, Cui Y, Xu D, Yang X, Srinil N. . Physics of Fluids 2019, 31(7), 073602.
  • Srinil N, Ma B, Zhang L. . Journal of Sound and Vibration 2018, 421, 275-299.
  • Srinil N, Opinel P-A, Tagliaferri F. . Journal of Fluids and Structures 2018, 83, 310-338.
  • Ma B, Srinil N. . Acta Mechanica 2017, 228(12), 4369-4389.
  • Low YM, Srinil N. . Engineering Structures 2016, 106, 96-108.
  • Zanganeh H, Srinil N. . Journal of Fluids and Structures 2016, 66, 127-146.
  • McQueen H, Srinil N. . Journal of Offshore Mechanics and Arctic Engineering 2016, 138(1), 011501.
  • Bodai T, Srinil N. . Renewable Energy 2015, 81, 551-565.
  • Assi GRS, Srinil N, Freire CM, Korkischko I. . Journal of Fluids and Structures 2014, 44, 52-66.
  • Zanganeh H, Srinil N. . Journal of Vibration and Acoustics 2014, 136(5), 051010.
  • Srinil N, Zanganeh H, Day A. . Ocean Engineering 2013, 73, 179-194.
  • Srinil N, Zanganeh H. Modelling of coupled cross-flow/in-line VIV using double Duffing & van der Pol oscillators. Ocean Engineering 2012, 53, 83-97.
  • Srinil N. Analysis & prediction of VIV of variable-tension vertical risers in linearly sheared currents. Applied Ocean Research 2011, 33, 41-53.
  • Srinil N. Multi-mode interactions in VIV of flexible curved/straight structures with geometric nonlinearities. Journal of Fluids & Structures 2010, 26, 1098-1122.
  • Srinil N, Wiercigroch M, O'Brien P. Reduced-order modelling of VIV of catenary riser. Ocean Engineering 2009, 36, 1404-1414.
  • Srinil N, Rega G. Space-time numerical simulation & validation of analytical predictions for nonlinear forced dynamics of suspended cables. Journal of Sound & Vibration 2008, 315, 394-413.
  • Srinil N, Rega G. Nonlinear longitudinal/transversal modal interactions in highly extensible suspended cables. Journal of Sound & Vibration 2008, 310, 230-242.
  • Rega G, Srinil N, Alaggio R. Experimental & numerical studies of inclined cables: free & parametrically-forced vibrations. Journal of Theoretical & Applied Mechanics 2008, 46, 621-640.
  • Srinil N, Rega G. The effects of kinematic condensation on internally resonant forced vibrations of shallow horizontal cables. International Journal of Non-Linear Mechanics 2007, 42, 180-195.
  • Srinil N, Rega G. Resonant multi-modal dynamics of horizontal/inclined cables. Part II: Internal resonances, reduced-order models & nonlinear modes. Nonlinear Dynamics 2007, 48, 253-274.
  • Srinil N, Rega G, Chucheepsakul S. Resonant multi-modal dynamics of horizontal/inclined cables. Part I: Theoretical formulation & model validation. Nonlinear Dynamics 2007, 48, 231-252.
  • Rega G, Srinil N. . Journal of Computational & Nonlinear Dynamics 2007, 2(4), 324-336.
  • Srinil N, Rega G, Chucheepsakul S. 3-D nonlinear coupling & dynamic tension in the large amplitude free vibrations of arbitrarily sagged cables. Journal of Sound & Vibration 2004, 269, 823-852.
  • Srinil N, Rega G, Chucheepsakul S. Large amplitude 3-D free vibrations of inclined sagged elastic cables. Nonlinear Dynamics 2003, 33, 129-154.
  • Chucheepsakul S, Srinil N, Petchpeart P. A variational approach for 3-D model of marine cables with specified top tension. Applied Mathematical Modelling 2003, 27, 781-803.
  • Chucheepsakul S, Srinil N. Free vibrations of 3-D extensible marine cables with specified top tension via a variational method. 2002.

• Book Chapter

  • Srinil N. . In: Ng C; Ran, L, ed. Offshore Wind Farms: Technologies, Design and Operation. Cambridge: Elsevier, 2016, pp.419-440.

• Conference Proceedings (inc. Abstracts)

  • Aye YN, Srinil N, Norman R. . In: 4th International Conference on Ocean, Offshore and Arctic Engineering. 2025, Vancouver, British Columbia, Canada: ASME.
  • Soares B, Srinil N. . In: ASME 2021 International Mechanical Engineering Congress and Exposition. 2022, Virtual: ASME.
  • Ma B, Srinil N. . In: ASME 2021 40th International Conference on Ocean, Offshore and Arctic Engineering. 2021, Online: ASME.
  • Padrino J, Srinil N, Kurushina V, Swailes D, Pain CP, Matar OK. . In: ASME 2021 International Mechanical Engineering Congress and Exposition. 2021, Online: ASME.
  • Zanganeh H, Kurushina V, Srinil N, Matar OK. . In: ASME 2020 39th International Conference on Ocean, Offshore and Arctic Engineering. 2020, Virtual, online: ASME.
  • Ma B, Srinil N, Zhu H, Gao Y. . In: ASME 2020 39th International Conference on Ocean, Offshore and Arctic Engineering. 2020, Virtual, online: ASME.
  • Moon Y-W, Srinil N, Park J-C. . In: ASME 2019 38th International Conference on Ocean, Offshore and Arctic Engineering. 2019, Glasgow, UK: ASME.
  • Ji C, Zhang Z, Xu D, Srinil N. . In: ASME 2019 38th International Conference on Ocean, Offshore and Arctic Engineering. 2019, Glasgow, UK: ASME.
  • Ma B, Srinil N, Zhu H. . In: The 10th International Conference on Multiphase Flow (ICMF2019). 2019, Rio de Janeiro, Brazil: ICMF.
  • Bakis K, Srinil N. . In: The 8th Conference on Computational Methods in Marine Engineering (Marine 2019). 2019, Gothenburg, Sweden: International Center for Numerical Methods in Engineering (CIMNE).
  • Safrenydo S, Srinil N. . In: 37th International Conference on Ocean, Offshore & Arctic Engineering (OMAE 2018). 2018, Madrid: ASME.
  • Opinel P-A, Srinil N. . In: 37th International Conference on Ocean, Offshore & Arctic Engineering (OMAE 2018). 2018, Madrid, Spain: ASME.
  • Srinil N, Safrenydo S. . In: 7th Conference on Bluff Body Wakes & Vortex-Induced Vibrations (BBVIV7). 2018, Marseille, France.
  • Ma B, Srinil N. . In: ASME 2018 37th International Conference on Ocean, Offshore & Arctic Engineering (OMAE2018). 2018, Madrid, Spain: ASME.
  • Kim J, Srinil N. . In: ASME 2018 37th International Conference on Ocean, Offshore & Arctic Engineering (OMAE2018). 2018, Madrid, Spain: ASME.
  • Lim H, Manuel L, Low YM, Srinil N. . In: ASME 2017 36th International Conference on Ocean, Offshore & Arctic Engineering (OMAE2017). 2017, Trondheim, Norway: American Society of Mechanical Engineers (ASME).
  • Tagliaferri F, Srinil N. . In: ASME 2017 36th International Conference on Ocean, Offshore and Arctic Engineering. 2017, Trondheim, Norway: ASME.
  • Srinil N, Ma B, Zhang L. . In: 11th International Conference on Flow-Induced Vibration. 2016, The Hague, The Netherlands.
  • Ma B, Srinil N. . In: The 13th International Conference on Motion & Vibration Control and 12th International Conference on Recent Advances in Structural Dynamics. 2016, Southampton.
  • Ma B, Srinil N. . In: 13th International Conference on Motion and Vibration Control (MOVIC 2016) and the 12th International Conference on Recent Advances in Structural Dynamics (RASD 2016). 2016, Institute of Physics Publishing.
  • Low YM, Srinil N. . In: ASME 2015 34th International Conference on Ocean, Offshore & Arctic Engineering (OMAE2015). 2015, St John's, NL, Canada.
  • Nguyen HD, Srinil N, Zanganeh H. . In: The 8th International Conference on Sustainable Energy & Environmental Protection. 2015, Glasgow.
  • Zanganeh H, Srinil N, Nguyen HD. . In: The 8th International Conference on Sustainable Energy & Environmental Protection. 2015, Glasgow.
  • McQueen H, Srinil N. . In: ASME 2015 34th International Conference on Ocean, Offshore & Arctic Engineering (OMAE2015). 2015, St John's, NL, Canada.
  • Xu X, Srinil N. . In: ASME 2015 34th International Conference on Ocean, Offshore & Arctic Engineering (OMAE2015). 2015, St John's, NL, Canada.
  • Zanganeh H, Srinil N. . In: ASME 2015 34th International Conference on Ocean, Offshore & Arctic Engineering (OMAE2015). 2015, St John's, NL, Canada.
  • Meng S, Kajiwara H, Srinil N. . In: ASME 2015 34th International Conference on Ocean, Offshore & Arctic Engineering (OMAE2015). 2015, St John's, NL, Canada.
  • Birdas M, Srinil N, Abeele P. . In: ASME 2015 34th International Conference on Ocean, Offshore & Arctic Engineering (OMAE2015). 2015, St John's, NL, Canada.
  • Ma B, Srinil N, Zanganeh H, Day A. . In: International Conference on Maritime Technology. 2014, Glasgow, UK.
  • Armin M, Srinil N. . In: 32nd International Conference on Ocean, Offshore & Arctic Engineering (OMAE2013). 2013, Nantes, France.
  • Zanganeh H, Srinil N. . In: 32nd International Conference on Ocean, Offshore & Arctic Engineering (OMAE2013). 2013, Nantes, France.
  • Srinil N, Zanganeh H, Day A. Experimental investigation of 2-DOF VIV of circular cylinder with low equivalent mass & variable natural frequency ratio. In: The 32nd International Conference on Ocean, Offshore & Arctic Engineering (OMAE2013). 2013, Nantes.
  • Assi GRS, Srinil N, Freire CM, Korkischko I. Experimental investigation of the VIV of a curved cylinder. In: The 31st International Conference on Ocean, Offshore & Arctic Engineering (OMAE2012). 2012, Rio.
  • Assi GRS, Freire CM, Korkischko I, Srinil N. Experimental investigation of the flow-induced vibration of a curved circular cylinder. In: The 10th International Conference on Flow-Induced Vibration (& Flow-Induced Noise). 2012.
  • Velayudhan AKD, Srinil N, Baltrop N. A new ship recovery concept & design using adaptively controlled buoyancy systems. In: The 11th International Marine Design Conference. 2012, Glasgow.
  • Velayudhan AKD, Srinil N, Baltrop N. Sliding mode controller for salvaging of sunken vessels. In: The RINA International Conference on Computer Applications in Shipbuilding. 2011, Trieste.

• Review

  • Rashki M, Mojtahedi A, Lotfollahi-Yaghin MA, Tamimi V, Dadashzadeh M, Santos PR, Bernitsas MM, Srinil N. . Ocean Engineering 2025, 321, 120376.