Effect of laminar chaos on reaction and dispersion in eccentric annular flow
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Publication:4354515
DOI10.1017/S0022112096008099zbMath0894.76081MaRDI QIDQ4354515
Michelle D. Bryden, Howard Brenner
Publication date: 16 August 1998
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
chaosheat transfermolecular diffusionPoincaré sectioneffective reaction ratelaminar mixing processesoptimum alternation frequencyTaylor dispersion theorytime-periodic chemically reactive systems
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Cites Work
- Flow of a Newtonian fluid between eccentric rotating cylinders: inertial effects
- Interaction of chaotic advection and diffusion
- Taylor diffusion in laminar flow in an eccentric annulus
- Numerical studies of steady flow dispersion at low Dean number in a gently curving tube
- An analytical study of transport in Stokes flows exhibiting large-scale chaos in the eccentric journal bearing
- Taylor dispersion in the presence of time-periodic convection phenomena. Part I. Local-space periodicity
- Chaotic advection in a Stokes flow
- Heat-transfer enhancement due to slender recirculation and chaotic transport between counter-rotating eccentric cylinders
- Shear dispersion and anomalous diffusion by chaotic advection
- Maximal Effective Diffusivity for Time-Periodic Incompressible Fluid Flows
- Laminar dispersion in curved tubes and channels
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