LIST OF PUBLICATION
OF
LEIV STORESLETTEN
1. Papers published in international journals
[1] On non-linear magneto-hydrodynamic wave motion in dissipative media.
Physica Norwegica 2 (2), pp. 134- , (1967).
[2] A note on the stability of steady inviscid helical gas flows.
Journal of Fluid Mechanics, 89, part 3, pp. 401-411,
(1978).
(Co-author Knut S. Eckhoff)
[3] On the stability of rotating compressible and inviscid fluids.
Journal of Fluid Mechanics, 99, part 2, pp. 433-448,
(1980).
(Co-author Knut S. Eckhoff)
[4] A note on the stability of horizontal stratified shear flows of an
inviscid compressible fluid.
The Quarterly Journal of Mechanics and Applied Mathematics, vol.
XXXV, Part 3, pp. 325-333, (1982).
[5] Om hydrodynamisk stabilitet - ein enkel ikkje-lineær modell
(Norwegian).
"On hydrodynamic stability - a simple non-linear model".
Nordisk Matematisk Tidskrift, 33, hefte 2, pp.
57-67, (1985).
[6] An Analytical Study on Natural Convection in Isotropic and
Anisotropic Porous Channels.
Journal of Heat Transfer, 112, pp. 396-401, (1990).
(Co-author T. Nilsen)
[7] Natural Convection in a Horizontal Porous Cylinder.
International Journal of Heat and Mass Transfer, 34,
No. 8, pp. 1959-1968, (1991).
(Co-author M. Tveitereid)
[8] Onset of convection in an anisotropic porous medium with oblique
principal axes.
Journal of Fluid Mechanics, 226, pp. 371-382,
(1991).
(Co-author Peder A. Tyvand)
[9] Natural convection in a horizontal porous layer with anisotropic
thermal diffusivity.
Transport in Porous Media, 12, pp. 19-29, (1993).
[10] The effect of anisotropic permeability on free convective boundary
layer flow in porous media.
Transport in Porous Media, 19, pp. 79-92, (1995).
(Co-author D.A.S. Rees)
[11] Free convection in a vertical porous layer with walls at non-uniform
temperature.
Fluid Dynamic Research, 19, pp. 107-119, (1996).
(Co-author I. Pop)
[12] An analytical study of free convective boundary layer flow in porous
media: The effect of anisotropic diffusivity.
Transport in Porous Media, 27, pp. 289-304, (1997).
(Co-author D.A.S. Rees)
[13] The influence of higher-order effects on the linear instability of
thermal boundary layer flow in porous media.
International Journal of Heat and Mass Transfer, 41,
No. 12, pp. 1833-1843, (1998).
(Co-author D.A.S. Rees)
[14] Free convection in a shallow annular cavity filled with a porous
medium.
Journal of Porous Media, 1, No.3, pp. 227-241,
(1998).
(Co-authors I. Pop and D.A.S. Rees)
[15] Onset of convection in an inclined porous layer with anisotropic
permeability.
Applied Mechanics and Engineering, 4, No.3, pp.
575-587, (1999).
(Co-author M. Tveitereid)
[16] Convective plumes in porous media: The effect of asymmetrically
placed boundaries.
International Communications in Heat and Mass Transfer, 28,
No.1, pp. 31-38, (2001).
(Co-authors Andrew P. Bassom and D.A.S. Rees)
[17] Convective plume paths in porous media.
Transport in Porous Media, 49, No.1, pp. 9-25, (2002).
(Co-authors D.A.S. Rees and Andrew P. Bassom)
[18] The instability of a thermal boundary layer with suction in an
anisotropic medium.
Fluid Dynamics Research, 30, No.3, pp. 155-168, (2002).
(Co-author D.A.S. Rees)
[19] Convective plume paths from a line source.
Quarterly Journal of Mechanics and Applied Mathematics, 55,
No.3, pp. 443-455, (2002).
(Co-author D.A.S. Rees)
[20] Free Convection in a Shallow Annular Cavity filled with a Porous
Medium.
Journal of Porous Media, 7, No.4, pp. 289-302, (2004).
(Co-authors D.M. Leppinen, I. Pop and D.A.S. Rees)
[21] Anisotropy effects on heat and fluid flow by unsteady natural
convection and radiation in saturated porous media.
Numerical Heat Transfer, Part A, 48, pp. 763-790, (2005).
(Co-authors K.Slimi, A. Mhimid, M. Ben Salah, S. Ben Nasrallah and A.A.
Mohamad)
[22] The Onset of Convection in an Inclined Anisotropic Porous Layer with
Oblique Principle Axes.
Transport in Porous Media, 62, No 2, pp. 139-156, (2006).
(Co-authors D.A.S. Rees and A. Postinelicu)
[23] The Onset of Darcy-Forchheimer Convection in Inclined Porous Layers
Heated from Below.
Transport in Porous Media, 64, No 1, pp.
15-23, (2006).
(Co-authors D.A.S. Rees and A. Postelnicu)
[24] Mixed convection with viscous dissipation in a vertical channel
filled with a porous medium.
Acta Mechanica, 194, No. 1-4, pp.123-140, (2007).
(Co-authors A. Barletta, E. Magyari and I. Pop)
[25] Unified analytical approach to the Darcy mixed convection with
visvous dissipation in a vertical channel.
International Journal of Thermal Sciences, 47, pp. 408-416,
(2008).
(Co-authors A. Barletta, E. Magyari and I. Pop)
[26] Mixed convection with viscous dissipation in an inclined porous
channel with isoflux impermeable walls.
Heat and Mass Transfer, 44, pp. 979-988, (2008).
(Co-authors A. Barletta, E Magyari and I. Pop)
[27] Buoyant flow with viscous heating in a vertical circular duct
filled with a porous medium.
Transport in porous Media,74, pp.133-151, (2008).
(Co-authors A. Barletta, E Magyari and I. Pop)
[28] Linear instability of mixed convection of cold water in a porous
layer induced by viscous dissipation.
International Journal of Thermal Sciences, 48, pp.
655-664, (2009).
(Co-author: Antonio Barletta)
[29] Convective Roll Instabilities of Vertical Throughflow with Viscous
Dissipation in a Horizontal Porous Layer.
Transport in Porous Media, 81, pp. 461-477, (2010).
(Co-authors: A. Barletta and E. Rossi di Schio)
[30] Viscous dissipation and thermoconvective instabilities in a
horizontal porous channel heated from below.
International Journal of Thermal Sciences, 49, pp.
621-630, (2010).
(Co-author: Antonio Barletta)
[31] Stability of Flow with Viscous Dissipation in a Horizontal Porous
Layer with an Open Boundary
Having a Prescribed Temperature Gradient.
Transport in Porous Media, 85, pp. 723-741, (2010).
(Co-author: Antonio Barletta).
[32] Thermoconvective Instabilities in an Inclined Porous Channel Heated
from Below.
International Journal of Heat and Mass Transfer, 54,
pp. 2744-2733, (2011).
(Co-author: Antonio Barletta).
[33] Onset of convective rolls in a circular porous duct with external
heat transfer
to a thermally stratified environnement.
International Journal of Thermal Sciences, 50, pp.
1374-1384, (2011).
(Co-author: Antonio Barletta).
[34] A three-dimensional study of the onset of convection in a
horizontal, rectangular
porous channel heated from below.
International Journal of Thermal Sciences, 55, pp.
1-15, (2012).
(Co-author: Antonio Barletta).
[35] Onset of Convection in a Porous Rectangular Channel with
External Heat Transfer
to Upper and Lower Environments.
Transport in Porous Media, 94, pp. 659-681,
(2012)
(Co-author: Antonio Barletta).
[36] Effects of a finite external heat transfer coefficient on the
Darcy-Benard instability
in a vertical porous cylinder.
Physics of Fluids, 25, 044101 (2013).
(Co-author: Antonio Barletta).
[37] Convective Instability in a Horizontal Porous Channel with Permeable
and
Conducting Side Boundaries.
Transport in Porous Media, 99, pp.515-533,
(2013).
(Co-authors: A. Barletta and E. Rossi di Schio).
[38] Local thermal non-equilibrium effects in the Darcy-Benard
instability of a porous
layer heated from below by a uniform flux.
International Journal of Heat and Mass Transfer, 67,
pp. 902-912, (2013)
(Co-authors: M. Celli and A. Barletta).
[39] On the thermal instability in a horizontal rectangular porous
channel
heated from below by a constant flux.
Journal of Physics: Conference Series 501, pp.
1-10, (2014).
(Co-authors: Antonio Barletta and Eugenia Rosso di Schio).
[40] Thermoconvective instability and local thermal non-equilibrium in a
porous
layer with sioflux-isothermal boundary conditions.
Journal of Physics: Conference Series 501, pp.
1-9, (2014).
(Co-authors: M. Celli and A. Barletta).
[41] Adiabatic eigenflows in a vertical porous channel.
Journal of Fluid Mechanics, vol. 749, pp. 778
793, (2014).
(Co-author: Antonio Barletta).
[42] Onset of Convection in an Anisotropic Porous Layer with Vertical
Principal axes.
Transport in Porous Media, 108, pp. 581-893,
(2015).
(Co-author: Peder A. Tyvand).
[43] Onset of convectionin a porous cylinder with permeable
and conducting side boundary.
International Journal of Thermal Sciences, 97,
pp. 9-16, (2015).
(Co-author: Antonio Barletta).
[44] Linear instability of the vertical throughflow in a horizontal
porous layer
saturated by a power-law fluid.
International Journal of Heat and Mass Transfer, 99,
pp. 293-302, (2016).
(Co-author: Antonio Barletta).
[45] Degenerate onset of convection in vertical porous cylinders.
Journal of Engineering Mathematics, 113, pp.165-181, (2018).
(Co-author: Peder A. Tyvand).
[46] The Onset of Convection in a Two-Layered Porous Medium with
Anisotropic Permeability.
Transport in Porous Media, 128, pp. 345-362, (2019).
(Co-author: D.A.S. Rees).
[47] A Non-normal-Mode Marginal State of Convection in a Porous
Rectangle.
Transport in Porous Media, 128, pp. 633-651, (2019).
(Co-authors; Peder A. Tyvand and Jonas Kristiansen Nøland).
[48] Onset of Convection in an Inclined Anisotropic Porous Layer
with Internal Heat Generation.
Fluids, Volume 4, Issue 2, (2019).
(Co-author: D.A.S. Rees).
[49] Thermally unstable throughflow of a power-law fluid in a vertical
porous
cylinder with arbitrary corss.section.
International Journal of Thermal Sciences, 159, (2021).
(Co-authors: P.V. Brandao. M. Celli, A. Barletta)
2. Chapters in books, proceedings and other
publications, etc.
[1] Thermal convection in a porous medium confined by a horizontal
cylinder.
In Natural Circulation, ASME, HTD-Vol. 92, pp. 223-230,
(1987).
(Co-author M. Tveitereid).
[2] Onset of convection in a horizontal porous layer with anisotropic
thermal diffusivity.
In Proceedings of the Sixth
Nordic Meeting on Industrial and Applied Mathematics,
pp. 166-173, Trondheim, (1992).
[3] Free convection in a shallow annular cavity filled with a porous
medium.
In 3rd European Fluid Mechanics Conference 1997, pp. 348-349.
Gøttingen (1997).
(Co-authors: I. Pop and D.A.S. Rees)
[4] Effects of anisotropy on convective flow through porous media.
In Transport Phenomena in Porous Media (eds. D.B. Ingham and I.
Pop), pp.261-283, Pergamon, (1998).
[5] Convective flow in horizontal and inclined anisotropic porous layers.
In Proceedings of the NATO Advanced Study Institute on Porous Media (ed.
D.B. Ingham),
pp. 529-546, Ovidius University Press, (2003).
[6] Convective flow in enclosures filled with an anisitropic medium.
In Proceedings of the NATO Advanced Study Institute on Porous Media (ed.
D.B. Ingham),
pp. 547-555, Ovidius University Press, (2003).
[7] Effects of anisotropy on convection in horizontal and inclined
porous layers.
In Emerging Technologies and Techniques in Porous Media (eds.
D.B.Ingham et al. ).
Kluwer Academic Publishers, pp. 285-306, (2004).
[8] Onset of convection in an inclined porous layer with internal heat
generation.
In Applications of Porous Media - Proceedings of ICAPM 2004 (eds.
A.H. Reis and A.F. Miguel),
pp. 139-145, University of Evora, Portugal, (2004).
(Co-author D.A.S. Rees).
[9] Natural convection in inclined rectangular porous cavities filled
with a porous medium.
In Computational Heat and Mass Transfer I -Proceedings of 4th ICCHMT
2005
(ed. R. Bennacer), pp. 333-338, Lavoisier, Paris, (2005).
(Co-authors D.A.S. Rees and I. Pop).
[10] Matematisk Modellbygging (Norwegian), 2.ed. pp.
1-100.
Department of Mathematics, University of Agder (2005).
(Co-author: Olav Nygaard)
[11] The onset of convection in a two-layered porous medium with
anisotropic permeability.
In Applications of Porous Media - Proceedings of 3rd ICAPM 2006 (eds.
A. Mojtabi and A. Mohamad),
paper 10 (electronic edition), Marrakesh, Morocco.
(Co-author D.A.S. Rees).
[12] On the thermal instability in a horizontal rectangular porous channel
heated from below by a constant flux.
In Proceedings of 31st UIT Heat Transfer Conference, Como,
Italy, June 25-27, 2013. (eds. L. Vitali and P. Gramazio).
(Co-authors: A. Barletta and E. Rossi di Schio).
[13] Thermoconvective instability and local thermal non-equilibrium in a
porous layer with isoflux-
isothermal boundary conditions.
In Proceedings of 31st UIT Heat Transfer Conference, Como,
Italy, June 25-27, 2013. (eds. L. Vitali and P. Gramazio).
(Co-authors: M. Celli and A. Barletta).
[14] A story about Storesletten shipbuilding yard (1905 -1962),
pp. 1-36. (Norwegian)
Bodoni. Bergen (2017).
(Co-author: Olav Storesletten)
3. Reports, preprints, etc.
[1] On non-linear magneto-hydrodynamic wave motion in dissipative media.
NTNF-Report, pp. 1-27. University of Bergen, (1967).
[2] A note on the stability of horizontal shear flow of an inviscid
compressible fluid.
Preprint Series, Report No. 56, pp. 1-13. Department of
Applied Mathematics, University of Bergen, (1975).
[3] On the stability of shear flow in a rotating compressible and
inviscid fluid.
Preprint Series, Report No. 57, pp. 1-57. Department of
Applied Mathematics, University of Bergen, (1975).
(Co-author Knut S. Eckhoff)
[4] A note on the stability of steady inviscid helical gas flows.
Preprint Series, Report No. 61, pp. 1-15. Department of
Applied Mathematics, University of Bergen, (1976).
[5] A note on the stability of horizontal stratified shear flows of an
inviscid compressible fluid.
Skrifter 1981:2, pp. 1-13. Agder distriktshøgskole,
Fagseksjon for matematikk.
[6] On the stability of uniform and nonuniform flows in an open inclined
channel.
Preprint Series, No. 2, pp. 1-34, Institute of Mathematics,
University of Oslo, (1982).
[7] On the linear stability of shear flows of inviscid compressible
fluids.
Doctor thesis, University of Bergen, (1983).
[8] Convection in a saturated porous medium confined by a horizontal
cylinder.
Skrifter 1986:1, pp. 1-31. Agder distriktshøgskole,
Fagseksjon for matematikk.
(Co-author: M. Tveitereid).
[9] A note on thermal convection in a fluid confined by a horizontal
circular cylinder.
Skrifter 1987:1, pp. 1-14. Agder distriktshøgskole, Fagseksjon for
matematikk.
(Co-author: M. Tveitereid).
[10] An analytical study on natural convection in isotropic and
anisotropic porous channels.
ADH-serien 3, pp. 1-28. Agder distriktshøgskole, (1988).
(Co-author: T. Nilsen).
[11] Natural convection in a horizontal porous cylinder: Perfect and
imperfect bifurcation.
ADH-serien 5, pp. 1-30. Agder distriktshøgskole, (1988).
(Co-author: M. Tveitereid).
[12] Rayleigh-Bénard convection in an inclined porous layer with
anisotropic permeability,
ADH-serien 63, pp. 1-18. Agder distriktshøgskole, (1993).
(Co-author: M. Tveitereid).
4. Biographical articles
[1] Geniet Niels Henrik Abel - Eit 150-årsminne (Norwegian).
Syn og segn, hefte 7, pp. 415-425, (1979).
[2] Kristen skapertro - Tanker i skjæringspunktet mellom tro og vitenskap
(Norwegian).
Religion og Livssyn, hefte2, pp. 4-15, (2017)
(Co-author: R. H. Vaags).
[3] Trudde Einstein på Gud?- Om Einsteins gudsbilde. (Norwegian).
Religion og Livssyn, hefte 2, pp. 41-44, (2019).
[4] Historia om Universets alder - Frå uendeleg til Big Bang.
(Norwegian).
Religiøse og ateistiske perspektiv.
Religion og Livssyn, hefte 3, pp. 38-43, (2019).
[5] Om finjusterte naturkonstantar - Eit naturens mysterium.
Religiøse og ateistiske perspektiv.
Religion og Livssyn, hefte 1, pp. 56-59, (2020).
[6] Abelprisen 2007: Scrinivasa S.R. Varadan.
Agder Vitenskapsakademi Årbok 2007, s.154-157.
[7] Abelprisen 2008: John G. Thomson og Jacques Tits.
Agder Vitenskapsakademi Årbok 2008, s. 187-190.
[8] Abelprisen 2009: Mikhail Gromov.
Agder Vitenskapsakademi Årbok 2009, s. 204-206.
[9] Abelprisen 2010: John Torrence Tate,
Agder Vitenskapsakademi Årbok 2010, s. 199-201.
[10] Abelprisen 2011: John Milnor.
Agder Vitenskapsakademi Årbok 2011, s.182-184.
[11] Abelprisen 2013: Pierre Delinge.
Agder Vitenskapsakademi Årbok 2013, s.276-278.
[12] Abelprisen 2014: Yakov G. Sinai.
Agder Vitenskapsakademi Årbok 2014, s.212-215.
[13] Abelprisen 2015: John F. Nash og Louis Nirenberg
Agder Vitenskapsakademi Årbok 2015, s.235-238.
[14] Abelprisen 2016: Sir Andrew Wiles.
Agder Vitenskapsakademi, Årbok 2016, s.280-284.
[15]
Abelprisen 2018: Robert Langlands.
Agder Vitenskapsakademi, Årbok 2018, pp. 181-183.
[16]
Abelprisen 2019: Karen Uhlenbeck.
Agder Vitenskapsakademi, Årbok 2019, pp. 220-222.
University of Agder, November 2020
Leiv Storesletten