Study of Solids Movement in Pebble Bed/moving Bed Reactors using Radioactive Particle Yracking (RPT) Technique
Abstract
Moving bed reactors are used in the chemical, petrochemical and petrochemical refining industries in situations where there is a need to replace deactivated catalysts with new or regenerated catalysts. They are also under consideration as a 4th generation nuclear reactor known as Pebble Bed Reactor (PBR). It is important to study the movement of solids in moving beds, which will provide useful information about Lagrangian trajectories, residence time distributions, velocity fields, and the presence and extent of dead zones, if any. The Radioactive Particle Tracking (RPT) technique is capable of providing a full description of three-dimensional flow field in highly dense and opaque reactors. The RPT technique is implemented around a Continuous Pebbles Recirculation experimental set-up that mimics a cold flow moving bed operation of Pebble Bed Reactor (4th Generation Nuclear Reactor concept). A Cobalt-60 based tracer having activity of 500μCi mimics the dynamics of pebble phase in pebble bed. RPT calibration experiments suggested that counts received at the detectors are not only a function of the tracer-detector distance but also of the attenuation characteristics of the medium in between the tracer and the detector. Development of cross-correlation based position reconstruction algorithm suitable for this study has been carried out and validated using the counts data for known positions. Obtained results of the RPT technique about Lagrangian trajectories, velocity field, residence time distributions etc. are serving as a benchmark data for an assessment of the contact force model used in the Discrete Element Method (DEM) based simulations.
Recommended Citation
V. B. Khane and M. H. Al-Dahhan, "Study of Solids Movement in Pebble Bed/moving Bed Reactors using Radioactive Particle Yracking (RPT) Technique," 7th World Congress in Industrial Process Tomography, pp. 887 - 896, World Congress on Inductrial Process Tomography, Jan 2014.
Department(s)
Chemical and Biochemical Engineering
Keywords and Phrases
Discrete Element Method; Moving Bed Reactor; Pebble Bed Reactor; Radioactive Particle Tracking
International Standard Book Number (ISBN)
978-085316323-7
Document Type
Article - Conference proceedings
Document Version
Citation
File Type
text
Language(s)
English
Rights
© 2024 World Congress on Inductrial Process Tomography, All rights reserved.
Publication Date
01 Jan 2014
