𝔖 Bobbio Scriptorium
✦   LIBER   ✦

Mass transfer to a continuous moving surface of a sheet electrode

✍ Scribed by I. Roušar; V. Mejta; V. Cezner

Publisher
Elsevier Science
Year
1980
Tongue
English
Weight
581 KB
Volume
35
Category
Article
ISSN
0009-2509

No coin nor oath required. For personal study only.

✦ Synopsis

Correlation are presented for the rate of mass transfer to a contmuouv moving surface of a sheet electrode at nonzero veloattes of the electrolyte bulk The equations derwed are vahd for lammar flow, where the velocity of the movmg electrode surface Us and the veloctty of the bulk phase U, have the same dIrection, I e the crlterton CT = (U, -U,)/( Urn + Us) ranges from -1 to + 1 The equations cover the Schmidt number range of l-10 000 with an error iess than 1 6 % compared to the numerical solution of the Blasms and convective dtfluslon equations The range of vahdtty of these equations IS shown graphically INTRODUCTlON

📜 SIMILAR VOLUMES

Mass transfer to a moving continuous cyl
Mass transfer to a moving continuous cylinder
✍ J.W. Rotte; G.L.J. Tummers; J.L. Dekker 📂 Article 📅 1969 🏛 Elsevier Science 🌐 English ⚖ 482 KB

A well-known electrochemical technique has been used in order to measure average mass transfer coefficients between a stagnant liquid and a moving continuous cylinder (e.g. a fibre). These experiments confirmed the theory, which has been presented in a previous paper: ShH = Cd(P&) 4.103 < d(P&) < 4.

Transfer of brownian particles to contin
Transfer of brownian particles to continuous moving surfaces
✍ Z.A. Adamczyk; T. Da̧broś; T.G.M. van de Ven 📂 Article 📅 1982 🏛 Elsevier Science 🌐 English ⚖ 1019 KB

## AMract -A theoretical analysis of particle deposition from a dilute suspension (or aerosol) subject to laminar flow onto moving continuous plates (sheets) and cylinders (wires) is presented. Complete transport equations have been formulated, taking into account speci6c surface interactions such

Laminar condensation heat and mass trans
Laminar condensation heat and mass transfer to a moving drop
✍ J. N. Chung; P. S. Ayyaswamy 📂 Article 📅 1981 🏛 American Institute of Chemical Engineers 🌐 English ⚖ 633 KB

## Abstract This paper presents numerical solutions to the nonlinear, coupled boundary‐layer equations governing laminar condensation heat and mass transfer in the vicinity of the forward stagnation point of a spherical cold water droplet translating in a saturated mixture of three components. The