A study of hydrodynamics and mass transfer in small bore deep shaft reactors.

08 September 2010

The phenomenology of vertical two phase flow was examined / Thesis (Ph.D.)-University of Natal, Durban, 1984.

Chemical reactors.

Two-phase flow.

Mass transfer.

Theses--Chemical engineering.

Wave propagation and choking in two-phase two-component flow

Liles, Dennis Richardson

12 1900

No description available.

Two-phase flow Mathematical models

Wave-motion, Theory of

Modeling of once-through steam generator thermal-hydraulics during a loss of coolant accident

Kamboj, Brij Kumar

05 1900

No description available.

Two-phase flow

Nuclear reactors Cooling

Nuclear reactors Containment

Two-phase flow regime maps and pressure drop in microchannels

Triplett, Kimberly Ann

12 1900

No description available.

Gas dynamics

Two-phase flow

Fluid dynamics

Heat Transmission

Bubble pump design and performance

White, Susan Jennifer

08 1900

No description available.

Two-phase flow

Heat pumps

Steady turbulent gas desorption in a horizontal pipeline

Naghash, Mahmood

05 1900

No description available.

Two-phase flow

Hydraulic structures

Civil engineering Theses

Onset of flow instability and critical heat flux in uniformly-heated microchannels

Roach, Gregory M., Jr.

08 1900

No description available.

Two-phase flow

Heat Transmission

Unsteady flow (Fluid dynamics)

Slug Velocity Measurement and Flow Regime Recognition Using Acoustic Emission Technology

Alssayh, Muammer Ali Ahmed

07 1900

Slug velocity measurement and flow regime recognition using acoustic emission technology are presented. Two non-intrusive and three intrusive methods were employed to detect the slug regime and measure its velocity using AE sensors. For the non-intrusive methods, AE sensors were placed directly on the exterior of the steel pipe section of the test rig with and without clamps. The intrusive method involved using different waveguide configurations with the AE sensors flush with the inner wall of the pipe. The experimental study presented investigated the application of Acoustic Emission (AE) technology for detecting slug velocity in addition to differentiating flow regime in two-phase (gas/liquid) flow in horizontal pipes. It is concluded that the slug velocity can be determined with acoustic emission (AE) sensors. The results were compared to slug velocities measured using high speed camera (HSC) and Ultrasound Transit Time (UST) techniques with good agreement between the three techniques at low gas void fraction (GVF). However, at high GVF (up to 95%) where the UST technique has limitations in application, the AE and HSC offered a good agreement. Flow regimes were also differentiated by using a combination of AE technology and Kolmogorov–Smirnov test technique. Stratified, slug and bubble regimes were recognised differentiated.

Acoustic Emission

Slug velocity

two phase flow

flow regimes

自由界面波上のリップル形成に関する実験的研究

辻, 義之, TSUJI, Yoshiyuki, 野沢, 幸司, NOZAWA, Kouji, 関, 紘介, SEKI, Kousuke, 久木田, 豊, KUKITA, Yutaka

07 1900

No description available.

Two-Phase Flow Interface

Gravity-Capillary Wave

Ripple

Onset and Subsequent Transient Phenomena of Liquid Loading in Gas Wells: Experimental Investigation Using a Large Scale Flow Loop

Waltrich, Paulo

2012 August 1900

Liquid loading in gas wells is generally described as the inability of the well to lift the co-produced liquids up the tubing, which may ultimately kill the well. There is a lack of dedicated models that can mimic the transient features that are typical of liquid loading. Improved characterization of liquid loading in gas wells and enhanced prediction of future well performance can be achieved from the measurements and analyses resulting from this project. An experimental investigation was carried out to study the onset of liquid loading and the subsequent transient phenomena, using a large scale flow loop to visualize two-phase flow regimes, and to measure pressure and liquid holdup along a 42-m long vertical tube. From this investigation, it is possible to conclude that liquid loading should not be characterized based on onset criteria alone, and that it may not be a wellbore-only problem, as it would seem that the reservoir also plays a key role in determining if/when/how liquid loading manifests itself. Additionally, the results from the experimental campaign were used to compare the performance of different wellbore flow simulators. State-of-the-art simulators do not seem to fully capture the nature of liquid loading in vertical tubes. A simplified model is roposed here to evaluate the liquid transport during the transition from one flow regime to another, during the loading sequence.

Liquid loading

onset

two-phase flow

gas wells