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Over 45 years of successful international experience in E&P.

Beicip-Franlab provides solutions covering conventional and non-conventional exploration, reservoir characterization, enhanced oil recovery reservoir management, field development, production optimization, process and economics.

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  4. Integrated field studies
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Field Development

Integrated field studies

Integration of all disciplines (geophysics, geology and reservoir engineering) is the key element to successfully understand a reservoir and provide the right tools to optimize field development.
Integration: a challenge that leads to success

The need for increasingly precise models (such as models to target sweet spots or start an EOR process) requires involving many specialists such as geophysicists, structural specialists, sedimentologists, petrophysicists, geomodelers, reservoir engineers, simulation experts. The risk of poor integration, i.e. lack of understanding and communication between specialists, as well as the absence of common objectives, increases with the number of people involved and can ultimately jeopardize the quality of a field study.
On the contrary, specialists working together to combine their experience and knowledge can achieve a successful integrated study in a limited amount of time.

Beicip-Franlab has the know-how, the knowledge and the specialists

With more than 150 highly qualified specialists and engineers and dozens of projects every year, Beicip-Franlab is recognized for its experience in fully integrated studies. Multidisciplinary teams work together to tackle the largest range of challenges:

  • Green fields with few wells and a limited data set or on brown fields with the requirement to handle data from thousands of producers and injectors;

  • Tight sandstone or highly fractured carbonate reservoirs;

  • Condensate gas or heavy oil fields.

Through integrated studies, Beicip-Franlab has developed a recognized worldwide knowledge and is capable of using its acquired experience in new regions.

Examples of Integrated Studies
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Fine geological model of the Greater Burgan Field, Kuwait, obtained with the integration of seismic information, detailed sedimentological studies and precise facies definition at wells (AAPG 2012 Long Beach)

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Fine geological model of the Greater Burgan Field, Kuwait, obtained with the integration of seismic information, detailed sedimentological studies and precise facies definition at wells (AAPG 2012 Long Beach)
Simulation model of a mature carbonate oil field obtained through the integration of all static and dynamic data available. The model was used to successfully drill new infill horizontal wells.

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Simulation model of a mature carbonate oil field obtained through the integration of all static and dynamic data available. The model was used to successfully drill new infill horizontal wells.
Map of highly permeable fracture corridors in a tight sandstone reservoir, Algeria. The fracture model was obtained through the integration of seismic attributes, fracture observations at wells and understanding of the production behavior (SPE 101208)

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Map of highly permeable fracture corridors in a tight sandstone reservoir, Algeria. The fracture model was obtained through the integration of seismic attributes, fracture observations at wells and understanding of the production behavior (SPE 101208)
Software
Software Solutions
  • Exploration
  • Field Development
    • Integrated field studies
    • Master Development Plan
    • Enhanced Oil Recovery
    • From seismic attributes to rock properties
    • Carbonate fields
    • Fractured fields
    • Giant fields
  • Reserves evaluation, certification, unitization
  • Energy transition and Carbon Management
  • E&P Economics and Contracts
  • Downstream process
  • Unconventional Resources

Careers

Internship in Python Programming applied to Reservoir Engineering
RP-2022-03
Specialist in geoscience software
2023-Geoscience-Software
Senior Petrophysicist
2023-Geoscience-Petro

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