Accurate Measurements of Liquid Condensate Rate With Multiphase Metering Technology Improves Ecological Impact of Well Test in Deepwater Well Offshore Brazil

Maizeret, Pierre David; Theuveny, Bertrand; Essenfeld, David; Reid, David F.

doi:10.4043/24395-ms

All Days 2013

DOI: 10.4043/24395-ms

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Accurate Measurements of Liquid Condensate Rate With Multiphase Metering Technology Improves Ecological Impact of Well Test in Deepwater Well Offshore Brazil

Pierre David Maizeret

Bertrand Theuveny

David Essenfeld

et al.

Abstract: Separators have a proven track record and are widely used in well testing operations. However, their range of applications is relatively narrow and they can encounter limitations with fluids for which separation is an issue. For example, in wet gas wells, when the liquid volume is small compared to the gas, or the gas and liquid are foaming, it is difficult to separate properly the phases, especially at high flow rates where the retention time in the separator vessel may be too short. Inefficient separation re… Show more

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Five Years' Experience Using Coriolis Separators in North Sea Well Testing

Shumakov

Akbayev²,

Vigo

et al. 2014

Abu Dhabi International Petroleum Exhibition and Conference

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Accurate, reliable, and repeatable flow rate measurements during well testing are critical for appropriate reservoir characterization. Recently, well tests have become shorter and more challenging, with the application of new interpretation techniques heightening the need for high resolution and more accurate flow rate measurements. Although conventional well test separators have seen significant improvements over the last few decades in separation efficiency, flow rate measurement accuracy, reliability and repeatability have remained immutable. Historically, the liquid outlets of most conventional well test separators were equipped with positive-displacement or turbine-type flow meters which are not typically tolerant of debris or solids in completion or produced fluids. This results in separators being bypassed during the initial clean-up or well-flow stages, creating gaps in flow rate histories. Additionally, flow rate measurements were greatly influenced by wellsite meter factor measurements (correction coefficients), which usually did not consider fluid type or separation efficiency. Coriolis mass flow rate meters can overcome these challenges. These meters are widely used in process facilities and highly regarded for their precision, accuracy, and simultaneous measurement of true mass flow and fluid density. However, their use in mobile and conventional well testing is still considered to be in its infancy, lacking an extensive track record and field operation experience. This paper will summarize the benefits and lessons learnt from using new-generation Coriolis-equipped well test separators in the North Sea over the past five years. Furthermore, a series of case studies are presented, in which data provided by these flow meters was critical for successful well test operations.

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Five Years' Experience Using Coriolis Separators in North Sea Well Testing

Shumakov

Akbayev²,

Vigo

et al. 2014

Abu Dhabi International Petroleum Exhibition and Conference

View full text Add to dashboard Cite

show abstract

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Accurate Measurements of Liquid Condensate Rate With Multiphase Metering Technology Improves Ecological Impact of Well Test in Deepwater Well Offshore Brazil

Cited by 1 publication

References 4 publications

Five Years' Experience Using Coriolis Separators in North Sea Well Testing

Five Years' Experience Using Coriolis Separators in North Sea Well Testing

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