Nikolayev V. Ebullition en crise, Feuille rouge (Publcation du
DRFMC/CEA),
Numéro 530 de Février 2007.
Nikolayev V. S., Chatain D., Garrabos Y. & Beysens D. Experimental evidence
of the vapor recoil mechanism in the boiling crisis,
Physical Review
Letters97, 184503 (2006).
Nikolayev V. S., Chatain D. & Beysens D. Bubble spreading during the boiling
crisis: modeling and experimenting in microgravity,
Proc. 6th Int. Conf. on Boiling Heat Transfer, May 7-12, 2006, Spoleto, Italy (CD-ROM).
Nikolayev V., Beysens D., Garrabos Y., Chatain D. & Lecoutre C. Bubble
spreading during the boiling crisis: modeling and experimenting in microgravity,
Microgravity Science and Technology18(3/4), 34 - 37 (2006).
Hegseth J., Oprisan A., Garrabos Y., Nikolayev V. S., Lecoutre-Chabot C. &
Beysens D. Wetting film dynamics during evaporation under weightlessness in a
near-critical fluid,
Physical Review E72, 031602 (2005).
Nikolayev V. S., Beysens D.
La crise d’ébullition vue comme l’étalement des bulles sur la paroi
chauffante,
17ème Congrès Français de Mécanique, Troyes,
29/8-2/09 2005, published as a CD-ROM, AFM (2005).
Nikolayev V., Beysens D. Boiling crisis : theory, simulation, and experiments in
micro-gravity, “Theory and simulations”, Bulletin DRFMC No. 4
(Novembre), 44 – 45, CEA Grenoble (2004).
Nikolayev V. S., Beysens D., Garrabos Y.
Crise d’ébullition : inhibition du détachement de la bulle de vapeur
par la force de recul, Mécanique & Industries5(5), 553 – 558 (2004).
Nikolayev V. S., Beysens D.A. 2D BEM modeling of a singular thermal diffusion
free boundary problem with phase change, Boundary elements XXIV
(Incorporating meshless solutions), Eds. C.A. Brebbia, A. Tadeu & V. Popov,
Int. Series on Advances in Boundary Elements 13, WIT Press
(Southhampton, Boston) 501–525 (2002).
Hegseth J., Garrabos Y., Nikolayev V. S., Lecoutre-Chabot C., Wunenburger R.,
Beysens D. Gas “wets” a solid wall in orbit,
International Journal of
Thermophysics23, 89 – 101 (2002).
Garrabos Y., Lecoutre-Chabot C., Hegseth J., Nikolayev V. S., Beysens D. &
Delville J.-P. Gas spreading on a heated wall wetted by liquid,
Physical
Review E64(5), 051602 (2001).
Nikolayev V. S., Beysens D.A., Lagier G.-L., Hegseth J. Growth of a dry spot
under a vapor bubble at high heat ux and high pressure,
International
Journal of Heat and Mass Transfer44(18), 3499 – 3511 (2001).
Nikolayev V. S., Beysens D.A., Garrabos Y., Hegseth J. CHF as a Non-Equilibrium
Drying Transition, Proc. 4th International Conference on Multiphase
Flow (ICMF), New Orleans (USA), May 27-June 1, 2001,
paper 937, Ed. E. E. Michaelides, published as a CD-ROM, Tulane University (2001).
Nikolayev V. S., Beysens D.A., Hegseth J. Boiling Crisis as a Non-Equilibrium
Drying Transition,
14th Symposium on Thermophysical properties, Boulder
(USA) 25-30/6/2000 published as a CD-ROM, NIST (2000).
Nikolayev V. S., Beysens D.A. Boiling crisis and non-equilibrium drying
transition,
Europhysics Letters47(3), 345 – 351 (1999).
Iliev S., Pesheva N., Nikolayev V. S. Dynamic modelling of the deformed contact
line under partial wetting conditions: quasi-static approach,
Europ. Phys. J. Spec.
Topics, 166(1), 181 – 184 (2009).
Iliev S., Pesheva N., Nikolayev V. S. Dynamic modelling of contact line
deformation: comparison with experiment,
Phys. Rev. E78, 021605 (2008).
Iliev S., Pesheva N., Nikolayev V. S. Quasi-static motion of the contact line in
the Wilhelmy-plate geometry: contact line dissipation model,
Proc. 36th Spring Conference "Mathematics and education in mathematics" of the Union of
Bulgarian mathematicians, St. Konstantin and Elena resort, Varna, April 2-6,
2007, 246 – 251.
Nikolayev V. S., Gavrilyuk S. L. & Gouin H., Modelling of the moving
deformed triple contact line: influence of the fluid inertia,
Journal
of Colloid and Interface Science302(2), 605 – 612 (2006).
Narhe R., Beysens D., Nikolayev V. Dynamics of drop coalescence on a surface:
the role of initial conditions and surface properties,
International
Journal of Thermophysics26(6), 1743 – 1757 (2005).
Iliev S., Pesheva N., Nikolayev V. S. Quasi-static relaxation of arbitrarily
shaped sessile drops,
Physical Review E72, 011606 (2005).
Nikolayev V. S. Dynamics and depinning of the triple contact line in the
presence of periodic surface defects,
Journal of Physics: Condensed
Matter17(13), 2111 – 2119 (2005).
Narhe R., Beysens D., Nikolayev V. Contact Line Dynamics in Drop Coalescence and
Spreading, Langmuir20, 1213 – 1221 (2004).
Nikolayev V. S., Beysens D. Equation of motion of the triple contact line along
an inhomogeneous surface,
Europhysics Letters64(6), 763 – 768
(2003).
Nikolayev V. S., Beysens D.A. Relaxation of non-spherical sessile drops towards
equilibrium,
Physical Review E65, 046135 (2002).
Andrieu C., Beysens D., Nikolayev V. S., Pomeau Y. Coalescence of sessile drops,
Journal of Fluid Mechanics453, 427 – 438 (2002).
Clus O., Ouazzani J., Muselli M., Nikolayev V.S., Sharan G., Beysens D. Comparison of various radiation-cooled dew
condensers using computational fluid dynamics,
Desalination249(2), 707 - 712 (2009).
Beysens D., Clus O., Mileta M., Milimouk I., Muselli M., Nikolayev V.S. Collecting
dew as a water source on small islands: the dew equipment for water project in
Biševo (Croatia),
Energy32(6), 1032 - 1037 (2007).
Beysens D., Milimouk I., Nikolayev V.S., Berkowicz S., Muselli M., Heusinkveld
B. and Jacobs A.F.G. Comment on “The moisture from the air as water resource in
arid region: Hopes, doubt and facts” by Kogan and Trahtman,
Journal of Arid Environments67(2), 343 - 352 (2006).
Beysens D., Muselli M., Nikolayev V., Narhe R. and Milimouk I. Measurement and
modelling of dew in island, coastal and alpine areas,
Atmospheric
Research73(1-2), 1 – 22 (2005).
Beysens D., Milimouk I., Nikolayev V., Muselli M., Marcillat J. Using radiative
cooling to condense atmospheric vapor: a study to improve water yield,
Journal of Hydrology276, 1 – 11 (2003).
Nikolayev V. S., Sibille P., Beysens D. Coherent light transmission by a dew
pattern, Optics Communications150, 263 – 269 (1998).
Nikolayev V. S., Beysens D., Gioda A., Milimouk I., Katiushin E., Morel J.-P. Water
recovery from dew,
Journal of Hydrology182, 19 – 35 (1996).
Beysens D., Chatain D., Nikolayev V. S., Ouazzani J., & Garrabos Y. Long distance heat transport in weightlessness using supercritical
fluids,
Physical Review E, submitted (2010).
Nikolayev V. S., Dejoan A., Garrabos Y. & Beysens D. Fast heat transfer
calculations in supercritical fluids versus hydrodynamic approach,
Physical Review E67, 061202 (2003).
Garrabos Y., Dejoan A., Lecoutre C., Beysens D., Nikolayev V., Wunenburger R. Piston
effect in a supercritical fluid sample cell : a phenomenological approach of
the mechanisms,
Journal de Physique IV (France)11(Pr6) 23
(2001).
Beysens D., Garrabos Y., Nikolayev V. S., Lecoutre C., Delville J.-P., and
Hegseth J. Liquid-vapor phase separation in a thermocapillary force field,
Europhysics Letters59(2), 245 – 251 (2002).
Nikolayev V. S., Beysens D.A. Coalescence limited by hydrodynamics,
Physics of Fluids9(11), 3227 – 3234, (1997).
Nikolayev V. S., Beysens D., Guenoun P. New hydrodynamic mechanism for droplet
coarsening,
Physical Review Letters76(17), 3144 – 3147 (1996).
Nikolayev V.S., Chatain D., Beysens D., Pichavant G. Magnetic gravity compensation,
Microgravity
Science and Technology, DOI: 10.1007/s12217-010-9217-6.
Chatain D., Beysens D., Madet K., Nikolayev V., Mailfert A. Study of fluid
behaviour under gravity compensated by a magnetic field,
Microgravity
Science and Technology18(3/4), 196 - 199 (2006).
Beysens D., Chatain D., Nikolayev V. S., Garrabos Y. Magnetic facility gives
heat transfer data in H2 at various acceleration levels,
paper 148, 4th Int. Conf. on Launcher Technology “Space Launcher Liquid
Propulsion”, 3-6/12/2002, Liege, Belgium, published as a CD-ROM, CNES, Toulouse
(2002).
Chatain D., Nikolayev V. S. Using magnetic levitation to produce cryogenic
targets for inertial fusion energy: experiment and theory,
Cryogenics42(3-4),
253 – 261 (2002).