Friday, June 19, 2009

ISI Web of Knowledge Alert - Thompson, P

ISI Web of Knowledge Citation Alert
Cited Article:   Thompson, P. A general boundary condition for liquid flow at solid surfaces
Alert Expires:   21 OCT 2009
Number of Citing Articles:   3 new records this week (3 in this e-mail)
Organization ID:   3b97d1bbc1878baed0ab183d8b03130b

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Title: The effective slip length and vortex formation in laminar flow over a rough surface
Authors: Niavarani, A; Priezjev, NV
Author Full Names: Niavarani, Anoosheh; Priezjev, Nikolai V.
Source: PHYSICS OF FLUIDS 21 (5): Art. No. 052105 MAY 2009
Language: English
Document Type: Article
Author Keywords: external flows; laminar flow; Navier-Stokes equations; rough surfaces; shear flow; slip flow; vortices
KeyWords Plus: BOUNDARY-CONDITION; FLUID-FLOW; SOLID-SURFACES; HEAT-TRANSFER; CHANNELS; WALL; VORTICES; MICROFLUIDICS; MICROCHANNELS; ENHANCEMENT
Abstract: The flow of viscous incompressible fluid over a periodically corrugated surface is investigated numerically by solving the Navier-Stokes equation with the local slip and no-slip boundary conditions. We consider the effective slip length which is defined with respect to the level of the mean height of the surface roughness. With increasing corrugation amplitude the effective no-slip boundary plane is shifted toward the bulk of the fluid, which implies a negative effective slip length. The analysis of the wall shear stress indicates that a flow circulation is developed in the grooves of the rough surface provided that the local boundary condition is no-slip. By applying a local slip boundary condition, the center of the vortex is displaced toward the bottom of the grooves and the effective slip length increases. When the intrinsic slip length is larger than the corrugation amplitude, the flow streamlines near the surface are deformed to follow the boundary curvature, the vorte! x vanishes, and the effective slip length saturates to a constant value. Inertial effects promote vortex flow formation in the grooves and reduce the effective slip length.
Reprint Address: Niavarani, A, Michigan State Univ, Dept Mech Engn, E Lansing, MI 48824 USA.
Research Institution addresses: [Niavarani, Anoosheh; Priezjev, Nikolai V.] Michigan State Univ, Dept Mech Engn, E Lansing, MI 48824 USA
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Cited Reference Count: 52
Times Cited: 0
Publisher: AMER INST PHYSICS; CIRCULATION & FULFILLMENT DIV, 2 HUNTINGTON QUADRANGLE, STE 1 N O 1, MELVILLE, NY 11747-4501 USA
Subject Category: Mechanics; Physics, Fluids & Plasmas
ISSN: 1070-6631
DOI: 10.1063/1.3121305
IDS Number: 451WB
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Title: MOLECULAR DYNAMICS SIMULATIONS OF THERMAL INTERACTIONS IN NANOSCALE LIQUID CHANNELS
Authors: Kim, B; Beskok, A; Cagin, T
Author Full Names: Kim, BoHung; Beskok, Ali; Cagin, Tahir
Source: PROCEEDINGS OF THE ASME INTERNATIONAL MECHANICAL ENGINEERING CONGRESS AND EXPOSITION, VOL 13, PTS A AND B : 897-905 2009
Language: English
Document Type: Proceedings Paper
KeyWords Plus: LENNARD-JONES ARGON; SOLID INTERFACE; BOUNDARY RESISTANCE; KAPITZA RESISTANCE; CONDUCTIVITY; TRANSPORT; STATES
Abstract: Molecular Dynamics (MD) simulations of nano-scale flows typically utilize fixed lattice crystal interactions between the fluid and stationary wall molecules. This approach cannot properly model thermal exchange at the wall-fluid interface. Therefore, We use an interactive thermal wall model that can properly simulate the flow and heat transfer in nano-scale channels. Using the interactive thermal wall, Fourier law of heat conduction is verified for the 3.24 nm channel, while the thermal conductivity obtained from Fourier law is verified using the predictions of Green-Kubo theory. Moreover, temperature jumps at the liquid/solid interface, corresponding to the well known Kapitza resistance, are observed. Using systematic studies thermal resistance length at the interface is characterized as a function of the surface wettability, thermal oscillation frequency, wall temperature and thermal gradient. An empirical model for the thermal resistance length, which could be used as the! jump-coefficient of a Navier boundary condition, is developed.
Reprint Address: Kim, B, Old Dominion Univ, Dept Aerosp Engn, Norfolk, VA 23529 USA.
Research Institution addresses: [Kim, BoHung; Beskok, Ali] Old Dominion Univ, Dept Aerosp Engn, Norfolk, VA 23529 USA
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Publisher: AMER SOC MECHANICAL ENGINEERS; THREE PARK AVENUE, NEW YORK, NY 10016-5990 USA
IDS Number: BJJ80
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Title: STATISTICAL MECHANICS OF STATIC AND LOW-VELOCITY KINETIC FRICTION
Authors: Muser, MH; Urbakh, M; Robbins, MO
Author Full Names: Mueser, Martin H.; Urbakh, Michael; Robbins, Mark O.
Source: ADVANCES IN CHEMICAL PHYSICS, VOL 126 126: 187-272 2003
Language: English
Document Type: Review
KeyWords Plus: STICK-SLIP MOTION; DEPENDENT SLIDING FRICTION; CHARGE-DENSITY WAVES; QUARTZ-CRYSTAL MICROBALANCE; FRENKEL-KONTOROVA MODEL; ATOMIC-FORCE MICROSCOPE; MOLECULARLY THIN-FILMS; MULTIWALLED CARBON NANOTUBES; ORDERED ORGANIC MONOLAYERS; SINGLE-ASPERITY CONTACTS
Reprint Address: Muser, MH, Univ Western Ontario, Dept Appl Math, London, ON N6A 5B9, Canada.
Research Institution addresses: [Mueser, Martin H.] Johannes Gutenberg Univ Mainz, Inst Phys, D-6500 Mainz, Germany; [Urbakh, Michael] Tel Aviv Univ, Sch Chem, IL-69978 Tel Aviv, Israel; [Robbins, Mark O.] Johns Hopkins Univ, Dept Phys & Astron, Baltimore, MD 21218 USA
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Times Cited: 46
Publisher: JOHN WILEY & SONS INC; 605 3RD AVE, NEW YORK, NY 10016 USA
ISSN: 0065-2385
IDS Number: BJK11

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