Oblique-tip fiber-optic sensors for multiphase fluid discrimination

Author

Ramos, Rogerio T. ; Fordham, Edmund J.

Author_Institution

Schlumberger Cambridge Res., UK

Volume

17

Issue

8

fYear

1999

fDate

8/1/1999 12:00:00 AM

Firstpage

1392

Lastpage

1400

Abstract

This paper describes several novel designs of fiberoptic sensor made from standard silica fibers with plane oblique facets polished at the fiber tip, and various surface treatments. All use the phenomenon of total internal reflection (TIR) to distinguish drops, bubbles or other moieties of immiscible fluids in a multiphase flow, on the basis of contrast in refractive index. Surface treatments for control of wettability can be critical to some of the conceptions. Depending on the geometry chosen, sensors with quasibinary outputs may be made to distinguish various pairs of immiscible fluids (liquid/gas or oil/“not-oil”). Sensor pairs may then be used for discrimination of three mutually immiscible phases (oil, water, gas) in complex flows. Example outputs from prototype sensors in laboratory test flows are shown

Keywords

bubbles; fibre optic sensors; optical fibre theory; polishing; refractive index; solubility; surface treatment; bubbles; complex flows; fiberoptic sensor; geometry; immiscible fluids; laboratory test flows; moieties; multiphase flow; multiphase fluid discrimination; mutually immiscible phases; oblique-tip fiber-optic sensors; plane oblique facets; polished fiber tips; prototype sensors; quasibinary outputs; refractive index; sensor pairs; standard silica fibers; surface treatments; total internal reflection; wettability; Fluid flow control; Gas detectors; Geometry; Optical fiber sensors; Petroleum; Reflection; Refractive index; Sensor phenomena and characterization; Silicon compounds; Surface treatment;

fLanguage

English

Journal_Title

Lightwave Technology, Journal of

Publisher

ieee

ISSN

0733-8724

Type

jour

DOI

10.1109/50.779160

Filename

779160