Published 1966
by M.I.T. Press in Cambridge, Mass .
Written in English
Edition Notes
Originally published in 3 parts from May 1963 to Jan. 1966.
| Other titles | Two-phase gas-liquid flow literature. |
| Statement | [by] S. William Gouse, Jr. |
| Genre | Indexes. |
| Series | M.I.T. report -- no. 9. |
| The Physical Object | |
|---|---|
| Pagination | viii, 867 p. |
| Number of Pages | 867 |
| ID Numbers | |
| Open Library | OL16617784M |
Genre/Form: Indexes: Additional Physical Format: Online version: Gouse, S. William, Index to the two-phase gas-liquid flow literature. Cambridge, Mass., M.I.T. An Index to the Two-Phase Gas-Liquid Flow Literature [Gouse, S. William] on *FREE* shipping on qualifying offers. An Index to the Two-Phase Gas-Liquid Flow LiteratureCited by: This index to the Two-Phase Gas-Liquid Flow literature represents an extensive search of the unclassified literature on certain types of two-phase gas-liquid flow phenomena and presents the results of this literature search in a useful form. A total of 5, separate citations were listed and indexed. Two-Phase Gas/Liquid Pipe Flow Ron Darby PhD, PE (or holdup) in the literature. Hughmark () slip correlation Either horizontal or vertical flow: where GL GL for Two-Phase Gas/Liquid Flow”, Proceedings of the Process Plant -Two-Phase Gas/Liquid Pipe Flow.
The expressions available for the two-phase gas-liquid viscosity are mostly of an empirical nature as a function of mass quality (x). The liquid and gas are presumed to be uniformly mixed due to the homogeneous flow. The possible definitions for the viscosity Cited by: 9. In the normal healthy lung, clearance of airway secretions occurs by way of a complex process of mucociliary transport known as the 'mucociliary escalator'. . Summary This graduate text provides a unified treatment of the fundamental principles of two-phase flow and shows how to apply the principles to a variety of homogeneous mixture as well as separated liquid-liquid, gas-solid, liquid-solid, and gas-liquid flow problems, which may be . Multiphase Flow Book • Edited by: Akimi Serizawa, Tohru Fukano and Jean Bataille Real-Time Cross-Sectional Averaged Void Fraction Measurements in Vertical Annulus Gas-Liquid Two-Phase Flow by Neutron Radiography and X-ray Tomography Techniques It is intended that this volume will serve as a major source of literature for.
A wide range of models have been developed for two-phase flow systems. These include: Homogeneous the homogeneous model, the two phases are assumed to be travelling at the same velocity in the channel and the flow is treated as being analogous to a single phase flow (see article on Multiphase Flow).. Separated flow , the two fluids are considered to be travelling at. Two-phase gas-liquid flows are expected to occur in many future space operations. Due to a lack of buoyancy in the microgravity environment, two-phase flows are known to behave differently than those in earth gravity. Despite these concerns, little research has been conducted on microgravity two-phase flow and the current understanding is poor. Pressure drop in two-phase flow is a major design variable, governing the pumping power required to transport two-phase fluids and also governing the recirculation rate in natural circulation systems. The conservation equations for two-phase flow are a subset of those for Multiphase Flow. Mucus transport speed induced by two-phase gas-liquid interaction was measured in the continuous two-phase annular flow tube models, and factors influencing the transport speed were assessed in conjunction with rheological properties of mucus. The flow model was made with cm-ID glass tubes and positioned either vertically or by:
