Determination of Producible Hydrocarbon Type and Oil Quality in Wells Drilled With Synthetic Oil-Based Muds

Hashem, Mohamed; Thomas, E.C.; McNeil, Robert I.; Mullins, Oliver C.

doi:10.2118/55959-pa

Cited by 19 publications

(7 citation statements)

References 1 publication

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“…6,10 These particulates produce large levels of scattering in the OFA logs. Furthermore, a substantial fraction of the scattering is wavelength dependent; and thus cannot be subtracted out by using Eq.…”

Section: Contamination Estimation From Ofa Logsmentioning

confidence: 99%

“…The coloration build-up curve is monitored and when the change in coloration is sufficiently small, the contamination is deemed acceptably low and samples are collected. 6,7 This procedure is used world-wide and is a significant aid to sampling. However, this procedure is not quantitative and as such, there are many circumstances where samples of insufficient purity have been collected.…”

Section: Introductionmentioning

confidence: 99%

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Real-Time Determination of Filtrate Contamination During Openhole Wireline Sampling by Optical Spectroscopy

Mullins

Schroer

2000

SPE Annual Technical Conference and Exhibition

101

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractThe key objectives of openhole wireline sampling are to identify desired fluids and to collect representative formation samples. Optical methods such as visible -near-infrared spectroscopy (NIR) are used to identify and quantify mixed oil, water, and gas flows in-situ during wireline logging. In wells drilled with oil based muds (OBM) or synthetic based muds (SBM), differentiating crude oil from the filtrate base fluid is critical. The widely used current practice is to measure the increase in fluid coloration (by NIR) vs. time to qualitatively assess the increasing fraction of crude oil with pumping time. Here, we describe new methods of utilizing NIR log data to provide quantitatively during sampling the %-OBM contamination in the extracted fluid. In addition, these methods allow prediction of contamination at future times during the sampling job, thereby determining the effectiveness of further pumping. The significant improvement in sampling efficiency is demonstrated with several log examples. Finally, using our methods, mud performance in the downhole environment can be monitored and optimized in subsequent jobs.

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Section: Contamination Estimation From Ofa Logsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Real-Time Determination of Filtrate Contamination During Openhole Wireline Sampling by Optical Spectroscopy

Mullins

Schroer

2000

SPE Annual Technical Conference and Exhibition

101

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“…For successful execution of wireline testing and sampling operations, in-situ contamination monitoring and quantitative fluid characterization is vital [13][14][15] . Availability of real time variances of fluid compositions, and information about the phases and contamination levels 13,14 which are present during a testing and sampling operation can be used for optimization of sample acquisition and data for input in the identification of hydraulic flow units and characterization of reservoir architecture.…”

Section: Formation Testing With Downhole Fluid Analysismentioning

confidence: 99%

“…The oil-based mud contamination analysis 13,14 showed that low contamination levels were achieved. The oil-based mud contamination analysis 13,14 showed that low contamination levels were achieved.…”

Section: Field Example Bmentioning

confidence: 99%

Applying Downhole Fluid Analysis and Wireline-Formation-Testing Techniques in Reservoir Management and Well Completion—Case Studies

Ebrahim¹,

Maamari²,

Jackson

et al. 2006

SPE Annual Technical Conference and Exhibition

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractThe Gharif and Al Khlata Formations form significant reservoirs in north-central Oman. The reservoirs are multilayered, heterogeneous and highly variable in terms of geometry, connectivity, permeability and fluid properties. Newly drilled wells often show differential pressure depletion between layers, which helps assess lateral and vertical reservoir continuity. However such complexity and reservoir heterogeneity means that conventional pressure-depth plot and pressure gradient analysis of wireline pressure data is not easy, and identification of in-situ fluid density changes can be difficult. A significant part of formation evaluation within these reservoirs has required the application of downhole fluid analysis (DFA) and fluid identification using a pumpout wireline formation tester. The primary objectives being to obtain a measurement of formation pressures, identification of the formation fluids, capture fluid samples and determination of fluid mobility. Such information is important input for both reservoir management purposes and in optimizing the well completion strategy.We discuss testing techniques using a modular wireline formation tester equipped with a dual packer and/or probe modules, and latest generation optical fluid analyzers. The tests usually comprise of extended pumpout, drawdown and buildup periods, during which oil-based mud filtrate contamination, and fluid composition are monitored in-situ in real time. The techniques applied include in-situ characterization of reservoir fluid type and composition, gasoil-ratio (GOR), and the use and application of fluorescence measurements. In this contribution we compare and demonstrate the utilization of data from wireline downhole formation fluid analysis and formation tests, and also their practical application in reservoir management.. The field examples described are from wells mainly drilled with oil-based mud. We present some case studies and discuss how the results from tests conducted in different flow units in individual wells, and arealy across the field in multiple wells, have been used in reservoir management and well completion.

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“…6 Recent developments in the use of this module allow the reliable differentiation of oil-based mud filtrate and formation hydrocarbon fluids 7 and estimation of the gas/oil ratio ͑GOR͒ and°API gravity of the in-situ fluid. 8 The OFA provides the means to monitor the contamination of the reservoir fluid by mud filtrate. Using this, the pumpout can be continued until the contamination is minimized, at which point a sample can be taken.…”

Section: Description Of the Toolmentioning

confidence: 99%

Operational Procedures and Applications of a Wireline Formation Tester To Accurately Characterize the Gas Composition of Stacked Multiple Pools in the North Malay Basin

Baxter

Abdullah

Pearson

2000

SPE Reservoir Evaluation &Amp; Engineering

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In this article we review the development of techniques to acquire reliable reservoir gas samples using a wireline formation tester in the Malaysia-Thailand Joint Development Area. This region is characterized by gas accumulations comprised of multiple stacked separate pools where reservoir conditions are often considered hostile for wireline logging operations. In the article we use data from the 16-well exploration and appraisal program, during which 1968 pre-tests and 124 samples were successfully acquired, to compare the quality of gas samples from a wireline formation tester with those obtained from drillstem tests in the same zones.

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Determination of Producible Hydrocarbon Type and Oil Quality in Wells Drilled With Synthetic Oil-Based Muds

Cited by 19 publications

References 1 publication

Real-Time Determination of Filtrate Contamination During Openhole Wireline Sampling by Optical Spectroscopy

Real-Time Determination of Filtrate Contamination During Openhole Wireline Sampling by Optical Spectroscopy

Applying Downhole Fluid Analysis and Wireline-Formation-Testing Techniques in Reservoir Management and Well Completion—Case Studies

Operational Procedures and Applications of a Wireline Formation Tester To Accurately Characterize the Gas Composition of Stacked Multiple Pools in the North Malay Basin

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