Publication

Journal Publications

85.   

Chandrasekaran S, Bharat Shah and Yogesh Chauhan  2022.  Fatigue Assessment of Offshore Triceratops Restraining System under Hurricane-driven Metocean Conditions,  International Journal of steel structures, (in Press), Q2 category, Impact factor 0.43. 

84.   

S. Pachaippan, S. Chandrasekaran  2022.  Numerical analysis of offshore topside with FGM under impact loads,  J. Innovative Infrastructure Solutions, 7:195, Q2 category, Impact factor 0.51. 

83.   

Srinivasan Chandrasekaran, S. Hari Murugaiyan Amirthalingam  2022.  Functionally graded materials for marine risers by additive manufacturing for high-temperature applications: Experimental investigations,  Structures, 35:931-938, Q1 category, Impact factor 0.84. 

82.   

Chandrasekaran S, Bharat Shah Yogesh Chouhan  2022.  Dynamic analyses of Triceratops under Hurricane-drive Metocean conditions in Gulf of Mexico,  Ocean Engineering, 256:111511, Q1 category, Impact factor 1.38. 

81.   

Srinivasan Chandrasekaran, Sri Charan and VVS  2021.  Time-domain analysis of a bean-shaped multi-body floating wave energy converter with a hydraulic power take-off using WEC-Sim,  Energy, 223: 119985, Q1 category, Impact factor 2.04. 

80.   

Chandrasekaran S, Sricharan V.V.S  2021.  Numerical study of bean-float wave energy converter with float number parametrization using WEC-Sim in regular waves with the Levelized Cost of Electricity assessment for Indian sea states,  Ocean Engineering, 237:109591, Q1 category, Impact factor 1.38. 

79.   

Srinivasan Chandrasekaran, and Syed Azeem Uddin  2021.  Dynamic analysis of semi-submerisble under postulated failure of restraining system with buoy, Intl. J. of Steel Structures,  21(1):118-31, Q2 category, Impact factor 0.43. 

78.   

Srinivasan Chandrasekaran, and Pachaiappan  2020.  Numerical Analysis and Preliminary Design of Topside of an Offshore Platform using FGM and X52 Steel under Special Loads, J. Innovative Infrastructure Solutions,  5:86, DOI: 10.1007/s41062-020-00337-4, Q2 category, Impact factor 0.51. 

77.   

Srinivasan Chandrasekaran, and VVS Sricharan  2020.  Numerical analysis of a new multi-body mechanical wave energy converter with a linear power-take off system, Renewable Energy,  Elsevier, 159:250-271, Q1 category, Impact factor 1.88. 

76.   

Chandrasekaran, S, and Uddin, A.A  2020.  Postulated failure analyses of a spread-moored semi-submersible. Innovative Infrastructure Solutions,,  5:36, https://doi.org/10.1007/s41062-020-0284-2, Q2 category, Impact factor 0.51. 

75.   

Srinivasan Chandrasekaran, & Nagavinothini, R  2020.  Behaviour of stiffened deck plates under hydrocarbon fire, J. Marine Systems & Ocean Technology,  15:95-109, Q2 category, Impact factor 0.42. 

74.   

Chandrasekaran, S, & Nagavinothini, R  2020.  Dynamic response of offshore Triceratops with elliptical buoyant legs, Int. J of Innovative Infrastructure Solutions,  5(47):1-14, Q2 category, Impact factor 0.51. 

73.   

Srinivasan Chandrasekaran, Hari, S & Murugaiyan, A  2020.  Wire arc additive manufacturing of functionally graded material for marine risers,  J. Mat. Sc., & Engg. A, 792-139530, Q3 category, Impact factor 0.222. 

72.   

Srinivasan Chandrasekaran, & Nagavinothini R  2020.  Offshore triceratops under impact forces in ultra-deep arctic waters, International J. of Steel structures,  20(2):464-479, Q2 category, Impact factor 0.43. 

71.   

Srinivasan Chandrasekaran, & Nagavinothini R  2020.  Parametric studies on the impact response of offshore triceratops in ultra-deep waters, Structure and Infrastructure Engineering,  16(7):1002-1018, Q1 category, Impact factor 0.95. 

70.   

Chandrasekaran, S, and Venkata Kiran, G  2019.  Reliability, Availability and Maintenance Assessment of a process plant, J. Adv. Res. in Dynamical and Control Systems,  11(10):167-179. 

69.   

Srinivasan Chandrasekaran, and Manda Hari Venkata Ramachandra Rao  2019.  Numerical Analysis on Triceratops Restraining System: Failure Conditions of Tethers, Int. J. of Env. & Ecological Engg., World Academy of Sc, Engg & Tech,  13(9): 588-592. 

68.   

Srinivasan Chandrasekaran, and R. Nagavinothini  2019.  Response of Triceratops to impact forces: Numerical investigations, Ocean Systems Engineering Journal,  Techno Press, 9(4):349-368, Q2 category, Impact factor 0.33. 

67.   

Srinivasan Chandrasekaran, and Ajesh Kumar, P.T  2019.  Damage detection in Reinforced concrete berthing jetty using a plasticity model approach, J. Marine Sc. & Appl,  18:482-491, Q2 category, Impact factor 0.49. 

66.   

Srinivasan Chandrasekaran, and Nagavinothini.R  2019.  Dynamic analyses of offshore triceratops in ultra-deep waters under wind, wave and current, Structures,  20:279-289, Q1 category, Impact factor 0.84. 

65.   

Srinivasan Chandrasekaran, and R. Nagavinothini  2019.  Ice-induced response of offshore triceratops, Ocean Engineering,  180:71-96, Q1 category, Impact factor 1.38. 

64.   

Srinivasan Chandrasekaran, and R. Nagavinothini  2019.  Tether analyses of offshore triceratops under ice loads due to continuous crushing, Intl. J. of Innovative Infrastructure Solutions,  4:25, DOI: 10.1007/s41062-019-0212-5, Q2 category, Impact factor 0.51. 

63.   

Chandrasekaran, S, and V.V.S. Sricharan  2019.  Improved efficiency of a floating wave energy converter under different wave-approach angles: numerical and experimental investigations, J of Ocean Engg and Marine Energy,  5(1):41-50, doi.org/10.1007/s40722-019-00128-9, Q2 category, Impact factor 0.63. 

62.   

Chandrasekaran, S, and Kiran, P.A  2018.  Mathieu stability of Buoyant Leg Storage and Regasification Platform, J Ocean Systems Engineering,  8(3):345-360, DOI:10.12989/ose.2018.8.3.345, Q2 category, Impact factor 0.33. 

61.   

Srinivasan Chandrasekaran, and R. Nagavinothini  2018.  Tether analyses of offshore triceratops under wind, wave and current, J. Marine Systems and Ocean Technology,  13:34-42, DOI:10.1007/s40868-018-0043-9, Q2 category, Impact factor 0.42. 

60.   

Srinivasan Chandrasekaran, and R. Nagavinothini  2018.  Dynamic analyses and preliminary design of offshore triceratops in ultra-deep waters, Intl. J. of Innovative Infrastructure Solutions,  3:16, DOI: 10.1007/s41062-017-0124-1, Q2 category, Impact factor 0.51. 

59.   

Srinivasan Chandrasekaran, and Thailammai, C.T  2018.  Health Monitoring of Tension Leg Platform using wireless sensor networking: Experimental investigations, J. Marine Science and Technology,  24:60-72, DOI:10.1007/s00773-018-0531-9, Q1 category, Impact factor 0.77. 

58.   

Chandrasekaran S, and Kiran, P.A  2018.  Mathieu stability of offshore triceratops under postulated failure, Ships and Offshore structures,  13(2):143-148, Q1 category, Impact factor 0.79. 

57.   

Chandrasekaran S, and Thailammai C  2018.  Structural Health monitoring of offshore Buoyant Leg Storage and Re-gasification platform: Experimental investigations, J. Marine Science and Application,  17:87-100, Q2 category, Impact factor 0.49. 

56.   

Srinivasan Chandrasekaran, and R. Nagavinotihini  2017.  Analysis and Design of Offshore Triceratops under Ultra-Deep Waters, Int. J. Struc. & Const. Engg., World Academy of Sc., Engg. and Tech,  11(11):1505-1513, Q1 category, Impact factor 0.38​. 

55.   

Chandrasekaran S, and Jamshed Nassery  2017.  Nonlinear response of stiffened triceratops under impact and non-impact waves, International Journal of Ocean Systems Engineering,  7(3):179-193, DOI: 10.12989/ose.2017.7.3.179, Q2 category, Impact factor 0.33. 

54.   

Chandrasekaran S, and Jamshed Nassery  2017.  Ringing response of offshore triceratops, J. Innovative Infrastructure Solutions, Springer,  2(23):1-6, Q2 category, Impact factor 0.51. 

53.   

Chandrasekaran S, and RS Lognath  2017.  Dynamic analyses of Buoyant Leg Storage and Re-gasification platforms: Numerical studies, J. Marine Systems and Ocean Tech,  12(2):39-48, Q2 category, Impact factor 0.42. 

52.   

Srinivasan Chandrasekaran, and Senger Mayank  2017.  Dynamic analyses of stiffened triceratops under regular waves: experimental investigations, Ships and Offshore structures,  12(5):697-705, Q1 category, Impact factor 0.79. 

51.   

Chandrasekaran Srinivasan, Thaillammai, C and Shihas A. Khader  2016.  Structural health monitoring of offshore structures using wireless sensor networking under operational and environmental variability, Int. J. Env, Chemical and Ecological Engg,  10(1):33-39. 

50.   

Chandrasekaran S, and Shihas A. Khader  2016.  Hydrodynamic performance of a moored barge in irregular wave, Int. J. Env, Chemical and Ecological Engg,  10(1):47-54. 

49.   

Chandrasekaran Srinivasan, and Merin Thomas  2016.  Suppression system for offshore cylinders under vortex induced vibration, Vibroengineering Procedia,  7:01-06. 

48.   

Srinivasan Chandrasekaran, and N. Madhavi  2016.  Numerical study on geometrical configurations of perforated cylindrical structures, Journal of Performance of Constructional Facilities, American Soc of Civil Engineers,  30(1):04014185, doi: 10.1061/(ASCE)CF.1943-5509.0000687, Q2 category, Impact factor 0.70. 

47.   

Srinivasan Chandrasekaran, and Raghavi, B  2015.  Design, development and experimentation of deep ocean wave energy converter system, Energy Procedia,  Elsevier 79:634-640, Q1 category, Impact factor 0.53. 

46.   

Srinivasan Chandrasekaran, Ranjani, R Deepak Kumar  2015.  Response control of Tension leg Platform with Passive Damper: Experimental investigations, Ships and Offshore Structures,  12(2):171-181, Q1 category, Impact factor 0.79. 

45.   

Srinivasan Chandrasekaran, Lognath, R.S  2015.  Dynamic analyses of Buoyant Leg Storage Regasification Platform (BLSRP) under regular waves: Experimental investigations, Ships and Offshore Structures,  12(2):227-232, Q1 category, Impact factor 0.79. 

44.   

Srinivasan Chandrasekaran, and S. Madhuri  2015.  Dynamic response of offshore triceratops: Numerical and Experimental investigations, Ocean Engineering,  109(15):401-409, Q1 category, Impact factor 1.38. 

43.   

Srinivasan Chandrasekaran, and A. Kiran  2015.  Quantified Risk Assessment of LPG Filling station, Professional Safety, J. of American Soc. of Safety Engineers (ASSE),  September 2105, pp. 44-51. 

42.   

Srinivasan Chandrasekaran, and N. Madhavi  2015.  Design aids for offshore structures with perforated members, Ship and Offshore structures,  10(2):183-203, Q1 category, Impact factor 0.79. 

41.   

Srinivasan Chandrasekaran, and N. Madhavi  2015.  Retrofitting of offshore cylindrical structures with different geometrical configuration of perforated outer cover, International Journal of Shipbuilding Progress,  62(1-2):43-56, doi: 3233/ISP-150115. 

40.   

Srinivasan Chandrasekaran, and N. Madhavi  2015.  Flow field around a outer perforated circular cylinder under regular waves: Numerical study, Int. J. Marine System and Ocean Technology,  10:91-100, DOI: 10.1007/s40868-015-0008-1, Q2 category, Impact factor 0.42. 

39.   

Srinivasan Chandrasekaran, and N. Madhavi  2015.  Variation of flow field around twin cylinders with and without outer perforated cylinder: Numerical studies, China Ocean Engineering,  30(5):763-771, Q1 category, Impact factor 1.38. 

38.   

Srinivasan Chandrasekaran, and N. Madavi  2014.  Retrofitting of offshore structural member using perforated cylinders,  SFA Newsletter, 13:10-11. 

37.   

Srinivasan Chandrasekaran, and Harinder  2014.  Failure mode and effects analysis of Mechanical wave energy converters, Intl J of Intelligent Engineering informatics,  Vol. 3, No. 1, pp. 57-65. 

36.   

Srinivasan Chandrasekaran, and N. Madhavi  2014.  Hydrodynamic performance of retrofitted structural member under regular waves, Intl. J. of Forensic Engineering,  Inder Science, 2(2):100-121. 

35.   

Srinivasan Chandrasekaran, Deepak C. Raphel and Saishri, P  2014.  Deep ocean wave energy systems: Experimental investigations. J. Naval Arch and Marine Engg,  11:139-147, Q3 category, Impact factor 0.24. 

34.   

Srinivasan Chandrasekaran, and Yuvraj Koshti  2013.  Dynamic analysis of a Tension Leg Platform under extreme waves, J. of Naval Arch and Marine Engg,  10:59-68, DOI: 10.3329/jname.v10i1.14518, Q3 category, Impact factor 0.24. 

33.   

Srinivasan Chandrasekaran, and Madhuri Nannaware  2013.  Response analyses of offshore triceratops to seismic activities, Ship and offshore structures,  9(6):633-642, Q1 category, Impact factor 0.79. 

32.   

Srinivasan Chandrasekaran, A.K.Jain and Seeram Madhuri  2013.  Aerodynamic response of offshore triceratops. Ship and Offshore structures,  8(2):123-140, Q1 category, Impact factor 0.79. 

31.   

Srinivasan Chandrasekaran, Arunachalam Amarkathik Karuppan Sivakumar Dhanasekaran Selvamuthukumaran and Shaji Sidney  2013.  Experimental investigation and ANN modeling on improved performance of an innovative method of using heave response of a non-floating object for ocean wave energy conversion, Frontiers in Energy,  7(3):279-287, DOI: 10.1007/s11708-013-0268-4, Q2 category, Impact factor 0.53. 

30.   

Srinivasan Chandrasekaran, Madhavi Natarajan and Saravanakumar  2013.  Hydrodynamic response of offshore Tension Leg Platforms with perforated members, International J. Ocean and climate systems,  Vol. 4, No. 3, pp. 182-196. 

29.   

Srinivasan Chandrasekaran, Deepak Kumar and Ranjani Ramanathan  2013.  Dynamic response of tension leg platform with tuned mass dampers, Journal of Naval Architecture and Marine Engineering,  10(2):149-156, Q3 category, Impact factor 0.24. 

28.   

Srinivasan Chandrasekaran, and Madhuri Seeram  2012.  Stability studies on offshore triceratops, Intl J of Research & Development,  Vol. 1, No. 10, pp. 398-404. 

27.   

Srinivasan Chandrasekaran, and Harinder  2012.  Power generation using Mechanical Wave Energy Converter. International J. Ocean and climate systems,  3(1):57-70. 

26.   

Srinivasan Chandrasekaran, Arunachalam Amarkarthik Karuppan Sivakumar Harender Sinhmar  2012.  Laboratory experiments using non-floating body to generate electrical energy from water waves, Frontiers in Energy,  6(4):361-365, DOI: 10.1007/s11708-012-0210-1, Q2 category, Impact factor 0.53. 

25.   

Chandrasekaran Srinivasan, Luciano Nunziante Giorgio Serino Federico Carannante  2011.  Curvature ductility of RC sections based on Euro Code: Analytical procedure. Journal of Civil Engineering, Korean Society of Civil Engineers,  Springer, 15(1):131-144, Q2 category, Impact factor 0.51. 

24.   

Srinivasan Chandrasekaran, Gaurav Giorgio Serino and Salvatore Miranda  2011.  Springing and Ringing response of Triangular TLPs, International Shipbuilding Progress,  58(2-3):141-163, Q3 category, Impact factor 0.19. 

23.   

Srinivasan Chandrasekaran, S.K.Gupta Federico Carnanannte  2010.  Design aids for fixed support reinforced concrete cylindrical shells under uniformly distributed loads. International Journal of Eng, Science and Technology,  1(1):148-171, Q1 category, Impact factor 0.98. 

22.   

Srinivasan Chandrasekaran, and Harinder  2010.  Proposed Mechanism for Mechanical Wave Energy Converter,  Ship and Offshore Newsletter, 4:101. 

21.   

Srinivasan Chandrasekaran, and Abhishek Sharma  2010.  Potential flow based numerical study for the response of floating offshore structures with perforated columns,  Ships and offshore structures, 5(4):327-336, Q1 category, Impact factor 0.79. 

20.   

Srinivasan Chandrasekaran, Gaurav and Jain,A.K  2010.  Ringing response of offshore compliant structures, International J. Ocean and climate systems,  1(3-4):133-144. 

19.   

Chandrasekaran,S, L. Nunziante G.Serino and F.Carannante  2010.  Axial force-Bending moment limit domain and Flow Rule for reinforced concrete elements using Euro Code. International Journal of Damage Mechanics,  19:523-558, Q1 category, Impact factor 1.17. 

18.   

Chandrasekaran,S, Fraldi, M Nunziante,L Carannante,F Pernice,MC  2009.  Mechanics of distributed fibre optic sensors for strain measurements on rods,  Structural Engineering, 35(5):323-333, Q4 category, Impact factor 0.142. 

17.   

Chandrasekaran,S, Luciano Nunziante Giorgio Serino & Federico Carannante  2008.  Axial force-Bending moment failure interaction and deformation of reinforced concrete beams using Euro Code,  Structural Engineering, 35(1):181-190, Q4 category, Impact factor 0.14. 

16.   

Chandrasekaran Srinivasan, Luciano Nunziante Varun Gupta and Federico Carannante  2008.  Nonlinear seismic analyses of high rise reinforced concrete buildings. ICFAI Journal of Structural Design,  ICFAI Press, 1(1):7-24. 

15.   

Chandrasekaran,S, Gaurav & Shivam Srivastava  2008.  Structural response of Offshore TLPs under seismic excitations. International Engineering and Technology Journal of Civil & Structures,  1(1):07-12. 

14.   

Chandrasekaran,S, and Gaurav  2008.  Offshore Triangular TLP earthquake motion analysis under distinctly high sea waves. Ship and Offshore Structures,  3(3):173-184, Q1 category, Impact factor 0.79. 

13.   

Srinivasan Chandrasekaran, A. K. Jain and N.R.Chandak  2007.  Response behavior of triangular TLPs under regular waves using Stokes non-linear wave theory. ASCE Journal of Waterway, Port, Coastal and Ocean Engineering,  133(3):230-237, Q2 category, Impact factor 0.66. 

12.   

Chandrasekaran,S, Jain, A. K and A.Gupta  2007.  Influence of wave approach angle on TLP response,  Ocean Engineering, 8-9(34):1322- 1327, Q1 category, Impact factor 1.38. 

11.   

Chandrasekaran,S, Abhishek Sharma & Shivam Srivastava  2007.  Offshore triangular TLP behavior using Dynamic Morison Equation,  Structural Engineering, 34(4):291-296, Q4 category, Impact factor 0.14. 

10.   

Chandrasekaran,S, Jain, A. K Gupta,A and Srivastava,A  2007.  Response behavior of triangular tension leg platforms under impact loading,  Ocean Engineering, 34(1):45-53, Q1 category, Impact factor 1.38. 

9.   

Chandrasekaran,S, and Srivastava, A  2006.  Design Aids for multi-barrel RC Cylindrical shells,  Structural Engineering, 33(4):1-10, Q4 category, Impact factor 0.14. 

8.   

Chandrasekaran,S, Chandak, N. R and Gupta Anupam  2006.  Stability analysis of TLP tethers,  Ocean Engineering, 33(3):471-482, Q1 category, Impact factor 1.38. 

7.   

Chandrasekaran,S, and Roy, A  2006.  Seismic evaluation of multi-storey RC frames using modal pushover analysis,  International Journal of Nonlinear Dynamics, 43(4):329-342, Q1 category, Impact factor 1.26. 

6.   

Chandrasekaran,S, Jain, A. K and Chandak,N.R  2006.  Seismic analysis of offshore triangular Tension Leg Platforms,  International Journal of Structural Stability and Dynamics, 6(1):1-24, Q1 category, Impact factor 0.77. 

5.   

Chandrasekaran,S, and U. K. Tripati  2005.  Geometric Irregularity Effects on Seismic Vulnerability of Buildings,  J of Vibration engineering and Tech., 4(2):115-123, Q2 category, Impact factor 0.46. 

4.   

Chandrasekaran,S, Jain, A. K and Chandak,N.R  2004.  Influence of hydrodynamic coefficients in the response behavior of triangular TLPs in regular waves,  Ocean Engineering, 31(17-18):2319-2342, Q1 category, Impact factor 1.38. 

3.   

Chandrasekaran,S, and Chandak, N. R  2004.  Seismic behavior of road bridge abutments,  Concrete India, Journal of IC-ACI, 19(1):3-5. 

2.   

Chandrasekaran,S, and Jain, A. K  2002.  Dynamic behavior of square and triangular offshore tension leg platforms under regular wave loads,  Ocean Engineering, 29(3):279-313, Q1 category, Impact factor 1.38. 

1.   

Chandrasekaran,S, and Jain, A. K  2002.  Triangular Configuration Tension Leg Platform behavior under random sea wave loads,  Ocean Engineering, 29(15):1895-1928, Q1 category, Impact factor 1.38.