Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Design of Experimental Test Method to Investigate the Effect of OBM Contamination on PVT Samples from Gas Condensate Reservoirs
View through CrossRef
AbstractPVT samples captured by openhole formation testers in wells drilled with Oil Based Mud (OBM) will often suffer some degree of measurable contamination1-5. The contamination is even further pronounced for gas condensate reservoir fluid systems. Often many years will pass before production or the opportunity to re-sample the reservoir fluid and these contaminated samples are all there is to work with until that time. Improved understanding of the effect that OBM will have on these fluids will lead to improved characterization of the native reservoir fluid.The primary objective of this work was to design a new experimental laboratory method to contaminate a clean reservoir fluid PVT sample with OBM and capture the live single-phase fluid again under dynamic conditions.This experimental set-up will enable a laboratory to prepare samples representing PVT samples captured by Wireline Formation Testers (WFT) from an OBM drilled well, as well as the clean reservoir fluid to work with for comparison. It is envisaged that such an experimental setup will be able to be used to generate data to then study the effect of OBM contamination of PVT samples and ultimately improve the ability to correct PVT data on contaminated samples to obtain representative PVT properties.In order to test the experimental test method, base oil from an OBM was used to contaminate a gas condensate PVT sample with Condensate Gas Ratio (CGR) of 25 stb/MMscf. The data obtained from results from both contaminated and uncontaminated sub-samples were then used to investigate the effect of OBM on PVT properties.Sufficient sample was obtained in order to measure dew point, Z-factor, CGR and composition of the resulting contaminated samples to compare to the same properties from the original uncontaminated reservoir fluid sample.In this paper we present the following: A new experimental set-up was designed to create contaminated PVT samples from a clean sample under dynamic conditions – flowing within a porous media at reservoir conditions.With the experimental set-up we were able to obtain samples and data for comparison of a clean and OBM contaminated sampleResults indicate that under the right conditions, a condensing-vaporising partial miscibility dynamic is established between the gas condensate reservoir fluid and base oil.
Title: Design of Experimental Test Method to Investigate the Effect of OBM Contamination on PVT Samples from Gas Condensate Reservoirs
Description:
AbstractPVT samples captured by openhole formation testers in wells drilled with Oil Based Mud (OBM) will often suffer some degree of measurable contamination1-5.
The contamination is even further pronounced for gas condensate reservoir fluid systems.
Often many years will pass before production or the opportunity to re-sample the reservoir fluid and these contaminated samples are all there is to work with until that time.
Improved understanding of the effect that OBM will have on these fluids will lead to improved characterization of the native reservoir fluid.
The primary objective of this work was to design a new experimental laboratory method to contaminate a clean reservoir fluid PVT sample with OBM and capture the live single-phase fluid again under dynamic conditions.
This experimental set-up will enable a laboratory to prepare samples representing PVT samples captured by Wireline Formation Testers (WFT) from an OBM drilled well, as well as the clean reservoir fluid to work with for comparison.
It is envisaged that such an experimental setup will be able to be used to generate data to then study the effect of OBM contamination of PVT samples and ultimately improve the ability to correct PVT data on contaminated samples to obtain representative PVT properties.
In order to test the experimental test method, base oil from an OBM was used to contaminate a gas condensate PVT sample with Condensate Gas Ratio (CGR) of 25 stb/MMscf.
The data obtained from results from both contaminated and uncontaminated sub-samples were then used to investigate the effect of OBM on PVT properties.
Sufficient sample was obtained in order to measure dew point, Z-factor, CGR and composition of the resulting contaminated samples to compare to the same properties from the original uncontaminated reservoir fluid sample.
In this paper we present the following: A new experimental set-up was designed to create contaminated PVT samples from a clean sample under dynamic conditions – flowing within a porous media at reservoir conditions.
With the experimental set-up we were able to obtain samples and data for comparison of a clean and OBM contaminated sampleResults indicate that under the right conditions, a condensing-vaporising partial miscibility dynamic is established between the gas condensate reservoir fluid and base oil.
Related Results
A New Method for Predicting the Law of Unsteady Flow Through Porous Medium on Gas Condensate Well
A New Method for Predicting the Law of Unsteady Flow Through Porous Medium on Gas Condensate Well
Abstract
In order to consider the influence of variation of retrograde condensate saturation on well performance during production process in low permeability con...
Echinococcus granulosus in Environmental Samples: A Cross-Sectional Molecular Study
Echinococcus granulosus in Environmental Samples: A Cross-Sectional Molecular Study
Abstract
Introduction
Echinococcosis, caused by tapeworms of the Echinococcus genus, remains a significant zoonotic disease globally. The disease is particularly prevalent in areas...
Comparisons of Pore Structure for Unconventional Tight Gas, Coalbed Methane and Shale Gas Reservoirs
Comparisons of Pore Structure for Unconventional Tight Gas, Coalbed Methane and Shale Gas Reservoirs
Extended abstract
Tight sands gas, coalbed methane and shale gas are three kinds of typical unconventional natural gas. With the decrease of conventional oil and gas...
Understanding Unconventional Gas Reservoir Damages
Understanding Unconventional Gas Reservoir Damages
Abstract
It is estimated that there are large reserves of unconventional gas located throughout the world, including coalbed methane, shale gas and tight gas sand...
Compositional Numerical Modelling In Naturally Fractured Reservoirs
Compositional Numerical Modelling In Naturally Fractured Reservoirs
Abstract
Recent improvements in the speed of numerical compositional simulators has made it possible to use a large number of gridblocks to model condensate reser...
Compositional Numerical Modelling In Naturally Fractured Reservoirs
Compositional Numerical Modelling In Naturally Fractured Reservoirs
Abstract
Recent improvements in the. speed. of numerical compositional simulators has made it possible to use a large number of grid blocks to model condensate re...
Condensate Banking Characterization and Quantification of Improvement from Different Mitigations Using Pressure Transient Analysis: A Case Study in Hai Thach Field Offshore Vietnam
Condensate Banking Characterization and Quantification of Improvement from Different Mitigations Using Pressure Transient Analysis: A Case Study in Hai Thach Field Offshore Vietnam
Abstract
To successfully mitigate a near-wellbore condensate blockage, the status of the condensate blockage must be thoroughly understood. This case study proposes ...
Comparative Evaluation of Gas-Condensate Enhanced Recovery Methods for Deep Ukrainian Reservoirs: Synthetic Case Study
Comparative Evaluation of Gas-Condensate Enhanced Recovery Methods for Deep Ukrainian Reservoirs: Synthetic Case Study
Abstract
Low value of final condensate recoveries achieved under natural depletion require implementation of enhanced gas recovery (EGR) methods to be implemented fo...