Development of a Virtual Metering System Application for High Water Cut Wells with Electric Submersible Pumps (ESPS) – a Case Study for Quifa Field

Miguel Asuaje; Julieth Zapata; Wilmer Arcos

doi:10.1051/e3sconf/202132102013

All issues

Volume 321 (2021)

E3S Web Conf., 321 (2021) 02013

References

Open Access

Issue		E3S Web Conf. Volume 321, 2021 XIII International Conference on Computational Heat, Mass and Momentum Transfer (ICCHMT 2021)


Article Number		02013
Number of page(s)		6
Section		Energy
DOI		https://doi.org/10.1051/e3sconf/202132102013
Published online		11 November 2021

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M. Xiang, B. Zachary y P. Porto, «Real-Time Production Surveillance and Optimization at a Mature Subsea Asset.,» SPE Intelligent Energy International Conference and Exhibition, (2016). [Google Scholar]
M. Asuaje, Improved Production using Simulation and Optimization Softwares in Quifa Field, Colombia, Bogotá, Colombia: ACIPET Annual Conference, (2017). [Google Scholar]
R. Sutton y D. Bergman, Application of Bergman-Sutton Method for Determining Blend Viscosity, SPE Prodnction & Operation, (2012). [Google Scholar]
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G. Hole, «Fluid Viscosity Effects on Centrifugal Pumps.,» Pump and Systems magazine, (2010). [Google Scholar]
Hydraulic Institute, Determination of Pump Performance when Handling Viscous Liquid. Hydraulic Institute Standards, 20th Ed, (1969). [Google Scholar]
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[1] S. Corneliussen, J. Couput, E. Dahl and E. Dykestee, “Handbook of multiphase Flow Metering,” (2007). [Google Scholar]

[2] G. Falcone, G. Hewitt y C. Alimonti, Multiphase Flow Metering: Current Trends and Future Developments, (2002). [Google Scholar]

[3] E. B. Dellarole, Virtual Metering And Flow Allocation: Models, Tools And Field Results. Offshore Mediterranean Conference, Ravenna Italy, (2005). [Google Scholar]

[4] P. Haldipur, « Virtual Metering Technology Field Experience Examples. Offshore Technology Conference,» (2008). [Google Scholar]

[5] A. A. Garcia, An Implementation of On-line Well Virtual Metering of Oil Production. SPE Intelligent Energy Conference and Exhibition, 23-25 March,. Utrecht, The Netherlands: Society of Petroleum Engineers., (2010). [Google Scholar]

[6] A. Y. Petukhov, Virtual Metering System Application in the Ceiba Field, Offshore Equatorial Guinea, Texas, USA, (2011). [Google Scholar]

[7] M. Haouche, A. Tessiery Y. Deffous, «Virtual Flow Meter pilot: based on Data Validation and Reconciliation Approach.,» SPE International Production and Operations Conference & Exhibition, (2012). [Google Scholar]

[8] M. Xiang, B. Zachary y P. Porto, «Real-Time Production Surveillance and Optimization at a Mature Subsea Asset.,» SPE Intelligent Energy International Conference and Exhibition, (2016). [Google Scholar]

[9] M. Asuaje, Improved Production using Simulation and Optimization Softwares in Quifa Field, Colombia, Bogotá, Colombia: ACIPET Annual Conference, (2017). [Google Scholar]

[10] R. Sutton y D. Bergman, Application of Bergman-Sutton Method for Determining Blend Viscosity, SPE Prodnction & Operation, (2012). [Google Scholar]

[11] Z. Turzo, G. Takacs y J. Zsuga, Equations Correct Centrifugal Pump Curves for Viscosity., Oil & Gas Jurnal, (2000). [Google Scholar]

[12] G. Hole, «Fluid Viscosity Effects on Centrifugal Pumps.,» Pump and Systems magazine, (2010). [Google Scholar]

[13] Hydraulic Institute, Determination of Pump Performance when Handling Viscous Liquid. Hydraulic Institute Standards, 20th Ed, (1969). [Google Scholar]

[14] A. Stepanoff, Centrifugal and Axial Flow Pumps. Theory, Design, and Application, New York: John Wiley & Sons, Inc., (1957). [Google Scholar]