Application of cross-sectional capacitance tomography for particle migration in a microchannel

Nur Tantiyani Ali Othman, M. Takei, H. Obara

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

A fine particle cross-sectional concentration in a microchannel is determined by a high speed multiplexer and multi-layer capacitance technique to discuss initial concentration effect and stream transitional migration. The polystyrene particles as a solid phase and non-conductive deionized water as a liquid phase are non-uniformly injected into inlets microchannel. The results shows particles move away from center towards wall vicinity area and particles migrated towards the wall increased in outlet area. The stream transitional particle migration is investigated with the effect of initial concentration and shows the migration ratio increase with increment of initial concentration.

Original languageEnglish
Title of host publication7th World Congress in Industrial Process Tomography
PublisherInternational Society for Industrial Process Tomography
Pages569-576
Number of pages8
ISBN (Print)9780853163237
Publication statusPublished - 2014
Event7th World Congress in Industrial Process Tomography, WCIPT7 - Krakow
Duration: 2 Sep 20135 Sep 2013

Other

Other7th World Congress in Industrial Process Tomography, WCIPT7
CityKrakow
Period2/9/135/9/13

Fingerprint

Microchannels
Tomography
Capacitance
Deionized water
Polystyrenes
Liquids

Keywords

  • Capacitance tomography
  • Microchannel
  • Multi-layer electrodes
  • Particle concentration
  • Stream transitional migration

ASJC Scopus subject areas

  • Computer Science Applications
  • Computer Vision and Pattern Recognition
  • Control and Systems Engineering
  • Computational Mechanics

Cite this

Ali Othman, N. T., Takei, M., & Obara, H. (2014). Application of cross-sectional capacitance tomography for particle migration in a microchannel. In 7th World Congress in Industrial Process Tomography (pp. 569-576). International Society for Industrial Process Tomography.

Application of cross-sectional capacitance tomography for particle migration in a microchannel. / Ali Othman, Nur Tantiyani; Takei, M.; Obara, H.

7th World Congress in Industrial Process Tomography. International Society for Industrial Process Tomography, 2014. p. 569-576.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Ali Othman, NT, Takei, M & Obara, H 2014, Application of cross-sectional capacitance tomography for particle migration in a microchannel. in 7th World Congress in Industrial Process Tomography. International Society for Industrial Process Tomography, pp. 569-576, 7th World Congress in Industrial Process Tomography, WCIPT7, Krakow, 2/9/13.
Ali Othman NT, Takei M, Obara H. Application of cross-sectional capacitance tomography for particle migration in a microchannel. In 7th World Congress in Industrial Process Tomography. International Society for Industrial Process Tomography. 2014. p. 569-576
Ali Othman, Nur Tantiyani ; Takei, M. ; Obara, H. / Application of cross-sectional capacitance tomography for particle migration in a microchannel. 7th World Congress in Industrial Process Tomography. International Society for Industrial Process Tomography, 2014. pp. 569-576
@inproceedings{178f72d3198e429bb080cb7e62a3e90d,
title = "Application of cross-sectional capacitance tomography for particle migration in a microchannel",
abstract = "A fine particle cross-sectional concentration in a microchannel is determined by a high speed multiplexer and multi-layer capacitance technique to discuss initial concentration effect and stream transitional migration. The polystyrene particles as a solid phase and non-conductive deionized water as a liquid phase are non-uniformly injected into inlets microchannel. The results shows particles move away from center towards wall vicinity area and particles migrated towards the wall increased in outlet area. The stream transitional particle migration is investigated with the effect of initial concentration and shows the migration ratio increase with increment of initial concentration.",
keywords = "Capacitance tomography, Microchannel, Multi-layer electrodes, Particle concentration, Stream transitional migration",
author = "{Ali Othman}, {Nur Tantiyani} and M. Takei and H. Obara",
year = "2014",
language = "English",
isbn = "9780853163237",
pages = "569--576",
booktitle = "7th World Congress in Industrial Process Tomography",
publisher = "International Society for Industrial Process Tomography",

}

TY - GEN

T1 - Application of cross-sectional capacitance tomography for particle migration in a microchannel

AU - Ali Othman, Nur Tantiyani

AU - Takei, M.

AU - Obara, H.

PY - 2014

Y1 - 2014

N2 - A fine particle cross-sectional concentration in a microchannel is determined by a high speed multiplexer and multi-layer capacitance technique to discuss initial concentration effect and stream transitional migration. The polystyrene particles as a solid phase and non-conductive deionized water as a liquid phase are non-uniformly injected into inlets microchannel. The results shows particles move away from center towards wall vicinity area and particles migrated towards the wall increased in outlet area. The stream transitional particle migration is investigated with the effect of initial concentration and shows the migration ratio increase with increment of initial concentration.

AB - A fine particle cross-sectional concentration in a microchannel is determined by a high speed multiplexer and multi-layer capacitance technique to discuss initial concentration effect and stream transitional migration. The polystyrene particles as a solid phase and non-conductive deionized water as a liquid phase are non-uniformly injected into inlets microchannel. The results shows particles move away from center towards wall vicinity area and particles migrated towards the wall increased in outlet area. The stream transitional particle migration is investigated with the effect of initial concentration and shows the migration ratio increase with increment of initial concentration.

KW - Capacitance tomography

KW - Microchannel

KW - Multi-layer electrodes

KW - Particle concentration

KW - Stream transitional migration

UR - http://www.scopus.com/inward/record.url?scp=84910128361&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=84910128361&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:84910128361

SN - 9780853163237

SP - 569

EP - 576

BT - 7th World Congress in Industrial Process Tomography

PB - International Society for Industrial Process Tomography

ER -