Publications in journals

  1. E. Parau, V. Radu, Some Remarks on Tardiff's Fixed Point Theorem on Menger Spaces, Portugaliae Mathematica, 34, f.4, (1997), 431-440.
  2. E. Parau, V. Radu, On the triangle inequality and contractive mappings in probabilistic metric spaces, Anal. Univ. Bucharest, XLVIII, 1, (1999), 57-64.
  3. E. Parau, F. Dias, Ondes solitaires forcées de capillarité-gravité, C. R. Acad. Sci. Paris - Série I, 331, 8 (2000), 655-660. DOI
  4. E. Parau, F. Dias, Interfacial periodic waves of permanent form with free-surface boundary conditions, J. Fluid Mechanics, 437 (2001), 325-336. DOI
  5. E. Parau, F. Dias, Nonlinear effects in the response of a floating ice plate to a moving load, J. Fluid Mechanics, 460 (2002), 281-305. DOI
  6. E. Parau, J.-M. Vanden-Broeck, Nonlinear two- and three- dimensional free surface flows due to moving disturbances, Eur. J. Mechanics B/Fluids, 21, 6 (2002), 643-656 (old version). DOI
  7. D.C.Y. Wong, M.J.H. Simmons, S.P. Decent, E.I. Parau, A.C. King, Break-up dynamics and drop size distributions created from curved liquid jets, Int. J. of Multiphase Flow, 30 (2004), 499-520. DOI
  8. E. Parau, J.-M. Vanden-Broeck, M. J. Cooker, Nonlinear three-dimensional gravity-capillary solitary waves, J. Fluid Mechanics, 536 (2005), 99-105. DOI
  9. E. Parau, J.-M. Vanden-Broeck, M.J.Cooker, Three-dimensional gravity-capillary solitary waves in water of finite depth and related problems, Physics of Fluids,17 (2005), 122101 (9 p.). (old version preprint) DOI
  10. L. Partridge, D.C.Y. Wong, M.J.H. Simmons, E.I.Parau, S.P. Decent, Experimental and theoretical description of the break-up of curved liquid jets in the prilling process, Chem. Eng. Res. Des. 83(A11) (2005), 1267-1275. DOI
  11. E. Parau, S. Decent, A.C. King, M. Simmons, D. Wong , Nonlinear travelling waves on a spiralling liquid jet, Wave Motion, 43 (2006), 599-618. DOI
  12. E.I. Parau, S.P. Decent, M.J.H. Simmons, D.C.Y. Wong, A.C. King, Nonlinear viscous liquid jets from a rotating orifice, J. Engn. Math, 57 (2007), 159-179. DOI
  13. E.I. Parau, J.-M. Vanden-Broeck, M.J.Cooker, Three-dimensional gravity and gravity-capillary interfacial flows, Mathematics and Computers in Simulation, 74 (2007), 105-112. DOI
  14. E.I. Parau, J.-M. Vanden-Broeck, M. J. Cooker, Three-dimensional capillary-gravity waves generated by a moving disturbance, Physics of Fluids, 19 (2007),082102. DOI
  15. E.I. Parau, J.-M. Vanden-Broeck, M. J. Cooker, Nonlinear three-dimensional interfacial flows with a free-surface, J. Fluid Mechanics,591(2007), 481-494. DOI
  16. S. Decent, A. King, M. Simmons, E.I. Parau, D. Wong, I. Wallwork, C. Gurney, J. Uddin, The Trajectory and Stability of Spiralling Liquid Jets: Viscous Theory, Applied Mathematical Modelling,13(2009), 4283-4302. DOI
  17. E.I. Parau, Some bounded solution for a forced nonlinear Schrodinger equation, Annals of the Timisoara West University, 47(2009), 1-17.
  18. E.I. Parau, J.M. Vanden-Broeck, M.J. Cooker, Time evolution of three-dimensional nonlinear gravity-capillary free surface flows, J. Engn. Maths.,68(2010), 291-300. DOI
  19. P. Brocklehurst, A.Korobkin, E.I. Parau, Interaction of hydroelastic waves with a vertical wall, J. Engn. Maths., 68(2010), 215-231. DOI
  20. A. Korobkin, E.I. Parau, J.-M. Vanden-Broeck, The mathematical challenges and modelling of the hydroelasticity, Phil. Trans. Royal Soc. A., 369(2011), 2803-2812. DOI
  21. P. Brocklehurst, A.Korobkin, E.I. Parau, Hydroelastic wave diffraction by a vertical cylinder, Phil. Trans. Royal Soc. A., 369(2011), 2832-2851. DOI
  22. J.-M. Vanden-Broeck, E.I. Parau, Two-dimensional generalised solitary waves and periodic waves under an ice sheet, Phil. Trans. Royal Soc. A., 369(2011), 2957-2972. DOI
  23. E.I. Parau, J.-M. Vanden-Broeck, Three-dimensional waves beneath an ice sheet due to a steadily moving pressure, Phil. Trans. Royal Soc. A., 369(2011), 2973-2988. DOI
  24. H. Woolfenden, E.I. Parau, Numerical computation of solitary waves in a two-layer fluid, J. Fluid Mech. 688(2011), 528-550. DOI
  25. M.G. Blyth, E.I. Parau, J.-M. Vanden-Broeck, Hydroelastic waves in fluid sheets,J. Fluid Mech. 689(2011), 541-551. DOI
  26. E.I. Parau, H.C. Woolfenden, Gap solitary waves in two-layer fluids, IMA J. Applied Maths.77(2012), 399-407. DOI
  27. P. Guyenne, E.I. Parau, Computations of fully-nonlinear hydroelastic solitary waves on deep water, J. Fluid Mech.713 (2012), 307-329. DOI
  28. C. Page, E.I. Parau, S. Grandison, Gravity-capillary water waves generated by multiple pressure distributions, J. Nonlin. Sci. Appl.6 (2013), 137-144. DOI
  29. M.G. Blyth, E.I. Parau, Deformation of an elastic cell in a uniform stream and in a circulatory flow, IMA J. Applied Maths.78(2013), 665-684. DOI
  30. C. Page, S. Grandison, E.I. Parau, The influence of surface tension upon trapped waves and hydraulic falls, Eur. J. Mechanics B/Fluids, 43 (2014), 191-201. DOI
  31. C. Page, E.I. Parau, Hydraulic falls under a floating ice plate due to submerged obstructions, J. Fluid Mech.745 (2014), 208-222. DOI
  32. Z. Wang, E.I. Parau, P. Milewski, J.-M. Vanden-Broeck, Numerical study of interfacial solitary waves propagating under an elastic sheet, Proc. Roy. Soc.A 470 (2014), 20140111. DOI
  33. P. Guyenne, E.I. Parau, Finite depth effects on solitary waves in a floating ice sheet, J. Fluids and Structures 40 (2014), 242-262. DOI
  34. M. G. Blyth, E. I. Parau, Solitary waves on a ferrofluid jet, J. Fluid Mech. 750 (2014), 401-420. DOI
  35. C. Page, E.I. Parau, Time dependent hydraulic falls and trapped waves over submerged obstructions, Phys. Fluids 26 (2014), 126604. DOI
  36. N. Deacon, E. I. Parau, R. Purvis, R. Whittaker, Nonlinear flexural waves in fluid-filled elastic channels, J. Fluids and Structures 52 (2015), 16-36. DOI
  37. A. Valipouri, S.A. Hosseini Ravandi, A. Pishevar, E.I. Parau, Experimental and numerical study on isolated and non-isolated jet behavior through centrifuge spinning system, Int. J. of Multiphase Flow 69 (2015), 93-101. DOI
  38. P. Guyenne, E.I. Parau, An operator expansion method for computing nonlinear surface waves on a ferrofluid jet, J. Comp. Physics 321 (2016), 414-434.DOI
  39. M. G. Blyth, E. I. Parau, The stability of capillary waves on fluid sheets, J. Fluid Mech. 804 (2016), 5-34. DOI
  40. M.J. Hunt, J.-M. Vanden-Broeck, D.T. Papageorgiou, E.I. Parau, Benjamin-Ono Kadomtsev-Petviashvili’s models in interfacial electro-hydrodynamics, Eur. J. Mech. - B/Fluids 65 (2017), 459-463. DOI
  41. P. Guyenne, E.I. Parau, Numerical study of solitary wave attenuation in a fragmented ice sheet, Phys. Rev. Fluids, 2(3), (2017) 034002. DOI
  42. A. R. Hashemi, A. R. Pishevar, A. Valipouri, E. I. Parau, Numerical and experimental study on the steady cone-jet mode of electro-centrifugal spinning, Phys. Fluids, 30(1), (2018) 017103. DOI
  43. E. I. Parau, Solitary interfacial hydroelastic waves, Phil. Trans. Royal Soc. A., 376, 2111 (2018) 20170099. DOI
  44. A. R. Hashemi, A. R. Pishevar, A. Valipouri, E. I. Parau, Numerical and experimental investigation on static electric charge model at stable cone-jet region, Physics of Fluids, 30(3), (2018) 037102. DOI
  45. S. P. Decent, E. I. Parau, M. J. H. Simmons, J. Uddin, On mathematical approaches to modelling slender liquid jets with a curved trajectory, J. Fluid Mech. 844 (2018), 905-916. DOI
  46. F. Smith, A. Korobkin, E. Parau, D. Feltham, V. Squire, Modelling of sea-ice phenomena, Phil. Trans. Royal Soc. A 376, 2129 (2018), 20180157. DOI
  47. O. Trichtchenko, E. I. Parau, J.-M. Vanden-Broeck, P. Milewski, Solitary flexural–gravity waves in three dimensions, Phil. Trans. Royal Soc. A 376, 2129 (2018), 20170345. DOI
  48. O. Trichtchenko, P. Milewski, E. I. Părău, J.-M. Vanden-Broeck, Stability of Periodic Travelling Flexural-Gravity Waves in Two Dimensions, Stud. Appl. Math, 142 (1), (2019), 65-90. DOI
  49. A. M. Alsharif, S. P. Decent, E. I. Părău, M. J. H. Simmons, J. Uddin, The trajectory of slender curved liquid jets for small Rossby number, IMA Journal of Applied Mathematics 84 (1), (2019), 96-117. DOI
  50. M. G. Blyth, E. I. Părău, The non-local AFM water-wave method for cylindrical geometry, SIAM J. Appl. Math. 79(3), (2019), 743–753. DOI
  51. E. Dinvay, H. Kalisch, D. Moldabayev, E. I. Părău, The Whitham equation for hydroelastic waves, Applied Ocean Research 89 (2019), 202-210. DOI
  52. E. Dinvay, H. Kalisch, E. I. Părău, Fully dispersive models for moving loads on ice sheets, J. Fluid Mech. 876 (2019), 122-149. DOI
  53. M. Carr, P. Sutherland, A. Haase, K.-U. Evers, I. Fer, A. Jensen, H. Kalisch, J. Berntsen, E. Parau, O. Thiem, P. A. Davies, Laboratory Experiments on Internal Solitary Waves in Ice-Covered Waters, Geophysical Research Letters 46(21), (2019), 12230-12238. DOI
  54. A. Yorkston, M. G. Blyth, E. I. Parau, The deformation and stability of an elastic cell in a uniform flow, SIAM J. Appl. Math. 80(1), (2020), 71–94. DOI
  55. A. Yorkston, M. G. Blyth, E. I. Parau, A model of an inflatable elastic aerofoil, J. Engng. Maths. 131, 11 (2021). DOI
  56. M. G. Blyth, E. I. Parau, Stability of waves on fluid of infinite depth with constant vorticity, J. Fluid Mech. 936 (2022), A46. DOI
  57. C. Tugulan, O. Trichtchenko, E. I. Parau, Three-dimensional waves under ice computed with novel preconditioning methods, J. Comp. Physics 459 (2022), 11129. DOI
  58. A. Alberello, E. I. Parau, A dissipative nonlinear Schrödinger model for wave propagation in the marginal ice zone, Physics of Fluids 34 (2022), 061702. DOI
  59. A. M. Alsharif, E. I. Parau Temporal instability of curved viscous fibers with a radial electric field, IMA Journal of Applied Mathematics 87(3) (2022), 380-406. DOI
  60. Z. Wang, J. Chai, E. I. Parau, C. Page, M. Wang, Trapped waves on interfacial hydraulic falls over bottom obstacles, Physical Review Fluids 7 (2022), 074801. DOI
  61. A. A. Yorkston, M. G. Blyth, E. I. Parau, The deformation of an elastic cell in a circulatory fluid motion, Wave Motion 13 (2022), 102995. DOI
  62. E. Dinvay, H. Kalisch, E. I. Parau, Waves generated by moving loads on ice plates: Viscoelastic approximations, Wave Motion 13 (2022), 103011. DOI
  63. K. Johnsen, H. Kalisch, E. I. Parau, Ship wave patterns on floating ice sheets, Sci Rep 12 (2022), 18931. DOI
  64. J. Chai, Z. Wang, E. I. Parau, Interfacial hydroelastic hydraulic falls and trapped waves over bottom obstacles, J. Fluid Struct. 116 (2023), 103813. DOI
  65. A. Alberello, E. Parau, A. Chabchoub, The dynamics of unstable waves in sea ice, Sci. Rep. 13 (2023), 13654. DOI
  66. M. G. Blyth, E. I. Parau, Z. Wang, Stability of hydroelastic waves in deep water, to appear in Water Waves, 2024.
  67. C. C. Tugulan, O. Trichtchenko, E. I. Parau, A. Stevenson, Flexural-gravity waves generated by different load sizes and configurations on varying ice cover, to appear in Water Waves, 2024.
  68. A. Alberello, E. I. Parau, Q. Liu, F. De Santi, Evolution of wave directional properties in sea ice, Ocean Modelling (2023), 102305. DOI

Publications in conference proceedings/chapters

  1. E. Parau, F. Dias, Ondes interfaciales en présence d'une surface libre, Actes(CD) du 14-ème Congrès Francais de Mécanique, Toulouse, 30.08-03.09.1999.
  2. E. Parau, F. Dias, Ondes engendrées par un vehicule se deplacant sur une couche de glace, Compte-Rendus de la 3-ème Rencontre du Non-Lineaire 2000, Paris, (ed. Y. Pomeau, R. Ribota), Edition Paris Onze, pp. 61-66.
  3. E. Parau, F. Dias, Waves due to a steadily moving load on a floating ice plate, IUTAM Symposium on Free-Surface Flows, Birmingham, July 2000. Proc. ed. A.C. King and Y.D. Shikhmurzaev, Fluid Mechanics and its Applications Volume 62, Kluwer Academic Publishers, Dordrecht, 2001, pp. 229--236.
  4. F. Dias, E. Parau, Response of a Floating Ice Plate to a Moving Load, Proc. of the 12th Int. Offshore and Polar Eng. Conf. (ISOPE), Kita-Kyushu, Japan, May 2002, vol. I, 833-840.
  5. A. King, S. Decent, I. Wallwork, E. Parau, M. Simmons, D. Wong , Spiralling liquid jets, in Proc. of 2002 ASME Fluids Eng. Division Summer Meeting, Montreal, July 2002.
  6. D.C.Y. Wong, M.J.H. Simmons, A.C. King, S.P. Decent, E.I. Parau, Dynamic break-up and drop formation from a liquid jet spun from a rotating orifice. Part I: Experimental, Proc. of FEDSM'03: 4th ASME-JSME Joint Fluids Engineering Conf., Honolulu, Hawaii, USA, July 6-10, 2003.
  7. E.I. Parau, S.P. Decent, A.C. King, M.J.H. Simmons, D.C.Y Wong, Dynamic break-up and drop formation from a liquid jet spun from a rotating orifice. Part II: Theoretical, Proc. of FEDSM'03: 4th ASME-JSME Joint Fluids Engineering Conf., Honolulu, Hawaii, USA, July 6-10, 2003.
  8. E. Parau, J.-M. Vanden-Broeck, M. J. Cooker, Nonlinear three-dimensional free surface flows in finite and infinite depth, Proceedings (CD-ROM) of XXI International Congress of Theoretical and Applied Mechanics, Warsaw, Poland, August 15-21, 2004.
  9. S. Decent, M. Simmons, E. Parau, D. Wong, A. King, L. Partridge, Proceedings of 5th Int. Conf. Multiphase Flow, Yokohama, Japan, May 30-June 4, 2004.
  10. D.C.Y. Wong, M.J.H. Simmons, L. Partridge, E. Parau, S.P. Decent, A.C. King, Nonlinear dynamics and break-up of curved liquid jets spuns from a rotating orifice, Proceedings of 5th Int. Conf. Multiphase Flow, Yokohama, Japan,May 30-June 4, 2004.
  11. A. Shaw, S. Decent, G. Sharpe, E. Parau, Liquid bridge formation: coalescence of liquid droplets, Proceeding of 5th Int. Conf. Multiphase Flow, Yokohama, Japan, May 30 - June 4, 2004.
  12. E. Parau, J.-M. Vanden-Broeck, M. J. Cooker, Computations of three-dimensional gravity-capillary solitary waves in finite depth, Proc. of 20th Int. Work. on Water Waves and Floating Bodies, Longyearbyen, Norway, May 29 - June 1, 2005.
  13. E. Parau, J.-M. Vanden-Broeck, M.J.Cooker, Three-dimensional waves in a two-fluid system generated by a moving pressure, Proc. of 21th Int. Work. on Water Waves and Floating Bodies, Loughborough, UK, April 2 - 5, 2006.
  14. J.-M. Vanden-Broeck, E. Parau, M. J. Cooker, Three-dimensional capillary-gravity waves generated by moving disturbances, Proc. of 22th Int. Work. on Water Waves and Floating Bodies, Plitvice, Croatia, April 15-18, 2007.
  15. E.I. Parau, J.-M. Vanden-Broeck, M. J. Cooker, Nonlinear three-dimensional interfacial flows, Proc. of 22nd International Congress of Theoretical and Applied Mechanics, Adelaide, Australia, 24-29 August 2008.
  16. P. Brocklehurst, A. Korobkin, E.I. Parau,Interaction of hydro-elastic waves with a vertical wall, Proc. of 25th Int. Work. on Water Waves and Floating Bodies, Harbin, China, May 9-12, 2010.
  17. E.I. Parau, J.-M. Vanden-Broeck, Three-dimensional nonlinear waves under an ice sheet and related flows, Proc. of the 21st Int. Offshore and Polar Eng. Conf. (ISOPE), Maui, Hawaii, USA, 2011, 1008-1014.
  18. P. Guyenne, E.I. Parau, Forced and unforced flexural-gravity solitary waves, Proc. of IUTAM Nonlinear Interfacial Wave Phenomena from the Micro- to the Macro-Scale, Limassol, 11 (2014), 44-57. DOI
  19. P. Guyenne, E.I. Parau, Asymptotic Modeling and Numerical Simulation of Solitary Waves in a Floating Ice Sheet, Proc. of the 25st Int. Offshore and Polar Eng. Conf. (ISOPE), Kona, Hawaii, USA, 2015, 9 p.
  20. P. Guyenne, E.I. Parau, Numerical Simulation of Solitary-Wave Scattering and Damping in Fragmented Sea Ice, Proc. of the 27st Int. Offshore and Polar Eng. Conf. (ISOPE), San Franscisco, USA, 2017, 8 p.
  21. M. Carr, A. Haase, K.-U. Evers, I. Fer, P. Sutherland, A. Jensen, H. Kalisch, J. Berntsen, E. Parau, O. Thiem, P. A. Davies, Internal solitary wave propagation in ice-covered water, Proc. of the HYDRALAB+ Joint User Meeting, Bucharest, 2019, 9p.
  22. E. I. Părău, J.-M. Vanden-Broeck, Gravity-Capillary and Flexural-Gravity Solitary Waves, 183-199, in: Henry D., Kalimeris K., Părău E., Vanden-Broeck JM., Wahlén E. (eds) Nonlinear Water Waves. Tutorials, Schools, and Workshops in the Mathematical Sciences. Birkhäuser, Cham., 2019 DOI
  23. E. Dinvay, H. Kalisch, E. I. Părău, Fully dispersive models for flexural-gravity waves, Proc. 25th IAHR International Symposium on Ice, Trondheim, 2020.

Miscellaneous

  1. E. Parau, Ondes interfaciales de flexion-gravité et de capillarité-gravité, Doctoral thesis, Univ. de Nice Sophia Antipolis and West Univ. of Timisoara, September 2000 Abstracts:    english,    français.
  2. V. Radu, A. Craciunescu, L. David, E. Parau, C. Terec, A method for defining Riemann integral (in rom.), Caiete Metodico-Stiintifice(collection of papers on elementary mathematics), Tip. Univ. Timisoara, No. 71, 1992.
  3. E. Parau, B. Sasu, Surface-Interface Solitary Waves, Seminar of Mathematical Analysis and Applications, No.72, West University of Timisoara, 1996.
  4. V. Radu, D. Barbu, E. Parau, N. Surulescu, Elements of Probability Theory and Applications (in rom.), 300 pg., Ed. Mirton, Timisoara, 1997.
  5. E. Parau (in collab.), Problems for admission contest 1998 at the Faculty of Mathematics of Timisoara, (in rom.), W.U.T., 1998.