Thermal effects on single-well chemical tracer tests for measuring residual oil saturation

Y. O.J. Park; H. A. Deans; T. E. Tezduyar

Thermal effects on single-well chemical tracer tests for measuring residual oil saturation

Y. O.J. Park^*, H. A. Deans, T. E. Tezduyar

^*Corresponding author for this work

Research output: Contribution to conference › Paper › peer-review

Abstract

The Single-Well Chemical Tracer (SWCT) test for measuring residual oil saturation (S_or) often involves injecting cool fluid containing a reactive tracer into a warm formation. The estimation of S_or using this method depends on the separation between reactant and product tracers. Since the reaction rate is temperature dependent, accounting for the thermal effects may be necessary to obtain reliable results. Inequality conditions have been developed which divide the parameter space of SWCT tests into two regions, depending upon the location of temperature front relative to the tracer bank during the reaction period. In the 'safe' region, the estimated S_or values from isothermal and non-isothermal models are essentially equal. These criteria have been extended to include the effects of over/under-burden layers and intervening shales in layered systems.

Original language	English
Pages	19683531-19683545
Number of pages	15
Publication status	Published - 1989 Dec 1
Externally published	Yes
Event	Proceedings: SPE Annual Technical Conference and Exhibition 1989 - San Antonio, TX, USA Duration: 1989 Oct 8 → 1989 Oct 11

Other

Other	Proceedings: SPE Annual Technical Conference and Exhibition 1989
City	San Antonio, TX, USA
Period	89/10/8 → 89/10/11

ASJC Scopus subject areas

Engineering(all)

Cite this

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title = "Thermal effects on single-well chemical tracer tests for measuring residual oil saturation",

abstract = "The Single-Well Chemical Tracer (SWCT) test for measuring residual oil saturation (Sor) often involves injecting cool fluid containing a reactive tracer into a warm formation. The estimation of Sor using this method depends on the separation between reactant and product tracers. Since the reaction rate is temperature dependent, accounting for the thermal effects may be necessary to obtain reliable results. Inequality conditions have been developed which divide the parameter space of SWCT tests into two regions, depending upon the location of temperature front relative to the tracer bank during the reaction period. In the 'safe' region, the estimated Sor values from isothermal and non-isothermal models are essentially equal. These criteria have been extended to include the effects of over/under-burden layers and intervening shales in layered systems.",

author = "Park, {Y. O.J.} and Deans, {H. A.} and Tezduyar, {T. E.}",

year = "1989",

month = dec,

day = "1",

language = "English",

pages = "19683531--19683545",

note = "Proceedings: SPE Annual Technical Conference and Exhibition 1989 ; Conference date: 08-10-1989 Through 11-10-1989",

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AU - Park, Y. O.J.

AU - Deans, H. A.

AU - Tezduyar, T. E.

PY - 1989/12/1

Y1 - 1989/12/1

N2 - The Single-Well Chemical Tracer (SWCT) test for measuring residual oil saturation (Sor) often involves injecting cool fluid containing a reactive tracer into a warm formation. The estimation of Sor using this method depends on the separation between reactant and product tracers. Since the reaction rate is temperature dependent, accounting for the thermal effects may be necessary to obtain reliable results. Inequality conditions have been developed which divide the parameter space of SWCT tests into two regions, depending upon the location of temperature front relative to the tracer bank during the reaction period. In the 'safe' region, the estimated Sor values from isothermal and non-isothermal models are essentially equal. These criteria have been extended to include the effects of over/under-burden layers and intervening shales in layered systems.

AB - The Single-Well Chemical Tracer (SWCT) test for measuring residual oil saturation (Sor) often involves injecting cool fluid containing a reactive tracer into a warm formation. The estimation of Sor using this method depends on the separation between reactant and product tracers. Since the reaction rate is temperature dependent, accounting for the thermal effects may be necessary to obtain reliable results. Inequality conditions have been developed which divide the parameter space of SWCT tests into two regions, depending upon the location of temperature front relative to the tracer bank during the reaction period. In the 'safe' region, the estimated Sor values from isothermal and non-isothermal models are essentially equal. These criteria have been extended to include the effects of over/under-burden layers and intervening shales in layered systems.

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M3 - Paper

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T2 - Proceedings: SPE Annual Technical Conference and Exhibition 1989

Y2 - 8 October 1989 through 11 October 1989

ER -

Thermal effects on single-well chemical tracer tests for measuring residual oil saturation

Abstract

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ASJC Scopus subject areas

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