Convective transport of fast particles in dissipative plasmas near an instability threshold

In this work the application of delay differential equations to the modelling of mass transport in porous media, where the convective transport of mass, is presented and discussed. The differences and advantages when compared with the Dispersion Model are highlighted. Using simplified models of the local structure of a porous media, in particular a network model made up by combining two different types of network elements, channels and chambers, the mass transport under transient conditions is described and related to the local geometrical characteristics. The delay differential equations system that describe the flow, arise from the combination of the mass balance equations for both the network elements, and after taking into account their flow characteristics. The solution is obtained using a time marching method, and the results show that the model is capable of describing the qualitative behaviour observed experimentally, allowing the analysis of the influence of the local geometrical and flow field characteristics on the mass transport.

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Ion cyclotron parametric turbulence and anomalous convective transport of the inhomogeneous plasma in front of the fast wave antenna

Physics of Plasmas ◽

10.1063/5.0040946 ◽

2021 ◽

Vol 28 (4) ◽

pp. 042304

Author(s):

V. S. Mikhailenko ◽

V. V. Mikhailenko ◽

Hae June Lee

Keyword(s):

Inhomogeneous Plasma ◽

Convective Transport ◽

Fast Wave ◽

Wave Antenna ◽

Ion Cyclotron

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Laminar natural convection about an isothermally heated sphere at small Grashof number

Journal of Fluid Mechanics ◽

10.1017/s0022112068001825 ◽

1968 ◽

Vol 34 (1) ◽

pp. 163-176 ◽

Cited By ~ 36

Author(s):

Francis E. Fendell

Keyword(s):

Natural Convection ◽

Three Dimensional ◽

Perturbation Expansion ◽

Outer Sphere ◽

Convective Transport ◽

Convection Flow ◽

Constant Density ◽

Boussinesq Model ◽

Grashof Number ◽

Recirculating Flow

The flow induced by gravity about a very small heated isothermal sphere introduced into a fluid in hydrostatic equilibrium is studied. The natural-convection flow is taken to be steady and laminar. The conditions under which the Boussinesq model is a good approximation to the full conservation laws are described. For a concentric finite cold outer sphere with radius, in ratio to the heated sphere radius, roughly less than the Grashof number to the minus one-half power, a recirculating flow occurs; fluid rises near the inner sphere and falls near the outer sphere. For a small heated sphere in an unbounded medium an ordinary perturbation expansion essentially in the Grashof number leads to unbounded velocities far from the sphere; this singularity is the natural-convection analogue of the Whitehead paradox arising in three-dimensional low-Reynolds-number forced-convection flows. Inner-and-outer matched asymptotic expansions reveal the importance of convective transport away from the sphere, although diffusive transport is dominant near the sphere. Approximate solution is given to the nonlinear outer equations, first by seeking a similarity solution (in paraboloidal co-ordinates) for a point heat source valid far from the point source, and then by linearization in the manner of Oseen. The Oseen solution is matched to the inner diffusive solution. Both outer solutions describe a paraboloidal wake above the sphere within which the enthalpy decays slowly relative to the rapid decay outside the wake. The updraft above the sphere is reduced from unbounded growth with distance from the sphere to constant magnitude by restoration of the convective accelerations. Finally, the role of vertical stratification of the ambient density in eventually stagnating updrafts predicted on the basis of a constant-density atmosphere is discussed.

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On interpreting studies of tracer transport by deep cumulus convection and its effects on atmospheric chemistry

Atmospheric Chemistry and Physics ◽

10.5194/acp-8-6037-2008 ◽

2008 ◽

Vol 8 (20) ◽

pp. 6037-6050 ◽

Cited By ~ 28

Author(s):

M. G. Lawrence ◽

M. Salzmann

Keyword(s):

Atmospheric Chemistry ◽

Large Scale ◽

Deep Convection ◽

Convective Transport ◽

Advective Transport ◽

Tracer Transport ◽

Transport Models ◽

Mass Fluxes ◽

Split Treatment ◽

The Mean

Abstract. Global chemistry-transport models (CTMs) and chemistry-GCMs (CGCMs) generally simulate vertical tracer transport by deep convection separately from the advective transport by the mean winds, even though a component of the mean transport, for instance in the Hadley and Walker cells, occurs in deep convective updrafts. This split treatment of vertical transport has various implications for CTM simulations. In particular, it has led to a misinterpretation of several sensitivity simulations in previous studies in which the parameterized convective transport of one or more tracers is neglected. We describe this issue in terms of simulated fluxes and fractions of these fluxes representing various physical and non-physical processes. We then show that there is a significant overlap between the convective and large-scale mean advective vertical air mass fluxes in the CTM MATCH, and discuss the implications which this has for interpreting previous and future sensitivity simulations, as well as briefly noting other related implications such as numerical diffusion.

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Analysis of Vapor Evaporation Loss in Filling Gasoline into Tank

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.347-353.372 ◽

2011 ◽

Vol 347-353 ◽

pp. 372-375 ◽

Cited By ~ 1

Author(s):

Wei Qiu Huang ◽

Feng Li ◽

Shu Hua Zhao ◽

Jing Zhong

Keyword(s):

Mass Transfer ◽

Experimental System ◽

Pilot Scale ◽

Convective Transport ◽

Operating Conditions ◽

Vapor Concentration ◽

Air Mass ◽

Evaporation Loss ◽

Gas Space ◽

Gasoline Evaporation

A pilot-scale experimental system of filling gasoline into a tank was built to investigate gasoline vapor-air mass transfer in the tank gas space and the vapor evaporation loss from the tank in different operating conditions. The results showed that the higher the location of filling pipe exit inside the tank, the quicker the speed of the filling gasoline, and the higher the initial vapor concentration in the tank gas space, then the more severe the vapor-air convective transport and the larger the gasoline evaporation loss rates.

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Observation of direction instability in a fiber ring laser

Scientific Reports ◽

10.1038/s41598-021-83042-1 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Muhammad Assad Arshad ◽

Alexander Hartung ◽

Arni Candra Pratiwi ◽

Matthias Jäger

Keyword(s):

Pump Power ◽

Ring Laser ◽

Instability Threshold ◽

Fiber Ring Laser ◽

Fiber Ring ◽

Pump Power Threshold ◽

Power Threshold ◽

Length Scaling

AbstractWe report on the observation of a new phenomenon occurring in a fiber ring laser. This phenomenon is about the transition from an initially bidirectional emission of a reciprocal fiber ring laser to a unidirectional emission at a certain pump power threshold. In addition, the final direction is not predefined but appears to be randomly chosen every time the threshold is exceeded. Therefore, we term this new phenomenon direction instability. Furthermore, we provide a first discussion of how the instability threshold is influenced by the length and the loss of the cavity. We show that the threshold follows a power times length scaling, indicating a nonlinear origin.

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An investigation on the degradation behaviors of Mg wires/PLA composite for bone fixation implants: influence of wire content and load mode

Science and Engineering of Composite Materials ◽

10.1515/secm-2021-0005 ◽

2021 ◽

Vol 28 (1) ◽

pp. 39-47

Author(s):

Xuan Li ◽

Yu Cong ◽

Jisheng Sui ◽

Xiaolong Li

Keyword(s):

Lactic Acid ◽

Dynamic Load ◽

Degradation Rate ◽

Convective Transport ◽

Poly Lactic Acid ◽

Mechanical Loss ◽

Bone Fixation ◽

Load Mode ◽

Degradation Behaviors ◽

Ph Decrease

Abstract Poly-lactic acid based biocomposite strengthened with magnesium alloy wires (Mg wires/PLA composite) is prepared for bone fixation implantation. The influence of wire content and load mode on the degradation performances of the composite and its components is studied. The result suggests the degradation of Mg wires could slow down the pH decrease originated from the degradation of PLA, while a relatively high wire content contributes to descend the degradation rate of Mg wire in the composite. Dynamic load significantly promotes the mechanical loss of the specimens. After 30 days immersion, the Sb retention is about 65%, 52% and 55%, respectively for pure PLA, the composite at 10 vol% and 20 vol% under dynamic load, comparing to 75%, 70% and 72% under no load. Moreover, dynamic load could further mitigate the degradation of Mg wires by increasing convective transport of acidic products out of the composite.

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