Recent journal publications by John Grue:
Oscillating cylinder in viscous fluid: calculation of flow patterns and forces.
J. Engineering Mathematics. (Publ. online 5 Aug. 2010) (with F. Rashid and M. Vartdal)
Special issue in honor of Professor Bjørn Gjevik. Editorial, with biography of Bjørn Gjevik. Ocean Dynamics (2010) 60:901-905, DOI 10.1007/s10236-010-0318-y
A scaling law of internal run-up duration. Ocean Dynamics (2010) 60:993-1006, DOI 10.1007/s10236-010-0284-4 (with J. K. Sveen)
Horizontal convection in water heated by infrared radiation and cooled by
evaporation: Experimental results and scaling analysis. Tellus. Publ.
online 3 Dec. 2009 DOI 10.1111/j.1600-0870.2009.000427, 2010, 62A:154-169 (with A. K. Wåhlin,
M. Ericsson, E. Aas, G. Brostrøm, J. E. Weber).
Computation formulas by FFT of the nonlinear orbital velocity in
three-dimensional surface wave fields. J. Eng. Math. (2010) 67:55-69, DOI 10.1007/s10665-009-93347.
Shear Induced Breaking of Large Internal Solitary Waves.
J. Fluid Mech. (2009), 620: 1-29. (with D. Fructus, M. Carr,
A. Jensen, P. A. Davies).
Convectively induced shear instability in large amplitude internal
solitary waves. Phys. Fluids. (2008) 20, 126601. (with M. Carr,
D. Fructus, A. Jensen, P. A. Davies).
Current trends in engineering; fluid mechanics for sub-sea development.
Engng. and Comp. Mech. (2008) 161(1): 47-47.
Formation of undular bores and solitary waves in the Strait of Malacca
caused by the Dec. 26, 2004, Indian Ocean
tsunami. J. Geophys. Res}. (2008) 113, CO5008, 1-14 (with
E. Pelinovsky, D. Fructus, T. Talipova, Ch. Kharif).
Nonlinear surface waves interacting with a vertical cylinder. The
first few steps of a general method. IUTAM symposium on
Fluid-Structure interaction in ocean engineering. IUTAM book series. Springer.
E. Kreuzer (ed.). (2008), pp. 79-92.
Two degrees of freedom vortex-induced vibrations of a
spring-mounted rigid cylinder with low mass-ratio.
J. Fluids and Struct. (2008), 24:907-919 (with A. Sanchis and G. Sælevik).
On local and convective accelerations in steep wave events.
Ocean Engng. (2007) 34:426-435 (with A. Jensen, D. Clamond, M. Huseby).
A note on time integrators in water wave simulations.
J. Eng. Math. (2007) 58:149-156 (with D. Clamond and D. Fructus).
An explicit method for the nonlinear interaction between water
waves and variable and moving bottom topography. J. Comp. Phys.
(2007) 222:720-739. (with D. Fructus).
Experimental velocities and accelerations in very steep wave
events in deep water. Eur. J. Mech. B/Fluids (2006) 25:554-564 (with
Long time interaction of envelope solitons and freak wave
formations. Eur. J. Mech. B/Fluids (2006) 25:536-553 (with
D. Clamond, M. Francius and C. Kharif).
Generation, propagation and breaking of internal solitary waves.
Chaos (2005) 15:037110.
Dynamics of crescent water wave patterns. J. Fluid Mech. (2005)
537:155-186 (with D. Fructus, C. Kharif, M. Francius, O. Kristiansen,
An efficient model for three-dimensional surface wave
simulations. Part I Free space problems. J. Comp. Phys. (2005)
205:665-685 (with D. Fructus, D. Clamond, O. Kristiansen).
An efficient model for three-dimensional surface wave
simulations. Part II Generation and absorption. J. Comp. Phys.
(2005) 205:686-705 (with D. Clamond, D. Fructus, O. Kristiansen).
Simulations of of crescent water wave patterns on finite depth.
Phys. Fluids. (2005) 17:064101 (with O. Kristiansen, D. Fructus,
Modelling the motion of an internal solitary wave over a bottom
ridge in a stratified fluid. Environmental Fluid Mech. (2004)
4:417-443 (with Y. Guo, J. k. Sveen, P. A. Davies, P. Dong).
Fully nonlinear solitary waves in a layered stratified fluid.
J. Fluid Mech. (2004) 505:323-348 (with D. Fructus).
Kinematics of extreme waves in deep water. Appl. Ocean
Res. (2003) 25:355-366 (with D. Clamond, M. Huseby, A. Jensen).
Evolution equations for strongly nonlinear internal waves.
Phys. Fluids (2003) 15(10):2934-2948 (with L. A. Ostrovsky).
Modelling of high amplitude internal waves integrating the
primitive (Navier-Stokes) equations. Appl. Ocean Res. (2003) 24:331-340 (with
Stationary internal waves in a three layer fluid.
Eur. J. Mech. B/Fluids (2002) 21:185-206 (with P.-O. Rusaas).
On the difference in the speed of gravity waves in a physical and
numerical wave tank. Wave Motion (2002) 36:41-48 (with A. Jensen).
On the breaking of internal solitary waves at a ridge. J. Fluid
Mech. (2002) 469:161-188 (with J. K. Sveen, Y. Guo and P. A. Davies).
Interaction between envelope solitons as a model for freak wave
formations C. R. Mecanique (2002) 330:575-580 (with D. Clamond).
Higher-harmonic wave forces and ringing of vertical cylinders.
Appl. Ocean Res. (2002) 24:203-214 (with M. Huseby).
On four highly nonlinear phenomena
in wave theory and marine hydrodynamics.
Appl. Ocean Res. (2002) 24:261-274.
Accelerations in water waves by extended Particle Image
Velocimetry. Exp. in Fluids (2001) 30:500-510 (with A. Jensen,
J. K. Sveen, J.-B. Richon and C. Gray).
A fast method for fully nonlinear water wave computations. J. Fluid
Mech. (2001) 447:337-355 (with D. Clamond).
Wavelet methods for the solution of wave-body problems.
J. Engng. Math. (2000) 38:323-354 (with J. O. Nygaard).
Breaking and broadening of internal solitary waves. J. Fluid
Mech. (2000) 413:181-217 (with A. Jensen, P. O. Rusaas and J. K. Sveen).
An experimental investigation of higher harmonic forces on a
vertical cylinder. J. Fluid Mech. (2000) 414:75-103 (with M. Huseby).
On the wave field due to a moving body performing oscillations in
the vicinity of the critical frequency. J. Engng. Math. (1999) 35:219-232
(with E. Palm).
Properties of large amplitude internal waves. J. Fluid
Mech. (1999) 380:257-278 (with A. Jensen, P. O. Rusaas and J. K. Sveen).
A note on the contributions to the wave-drift damping matrix
from the time-averaged second order potential.
Appl. Ocean Res. (1999), 21.