Due to the increased cost of scale management in subsea compared to platform or onshore fields, and because of the more limited opportunities for interventions, it is becoming increasingly important to carry out a risk analysis process for scale management as early as possible in the field development plan. This process involves identifying the potential scale risks, and analysing and comparing the options available for managing those risks. This paper discusses how this risk analysis process should be carried out, with a strong emphasis on the need to integrate all the available production chemistry and reservoir engineering data. To demonstrate this process, an example from a development complex, which lies in > 400 m (> 1300 ft) water depths offshore West Africa, is used. The process has involved the following steps: (1) Analysis of available brine samples to identify maximum scaling potential. (2) Laboratory testing of available scale inhibitors to identify chemistry best suited to this system. (3) Study of analogue fields to identify scaling risks in these fields, and how these risks have been managed, with implications for fields currently being studied. (4) Modification of full field reservoir simulation model to predict seawater breakthrough and duration of seawater production, to identify when, for how long, and using how much inhibitor the wells would require squeeze treatments to control scale. This process involves using flow profiles derived from the reservoir simulation model, and applying them in a near well squeeze simulator to predict treatment performance to minimum inhibitor concentration measured from laboratory studies. (5) Well-by-well analysis of predicted seawater production profiles and total water production rates to identify potential for correct placement of inhibitor by bullhead treatments in zones at risk of scale deposition. (6) Modification of reservoir model to study impact of in situ scale deposition on brine chemistry at the production wells, and revision of requirements for inhibitor squeeze treatments. (7) Economic analysis of options available for scale management, comparing sulphate reduction with inhibitor squeezing, based on treatments specifications identified above. The result of this process in the reservoirs in question, which have a moderate to severe scaling tendency, has been to demonstrate that inhibitor placement by bullheading would result in satisfactory placement for all wells. If the assumption is made that no scale deposition takes place in the reservoir, then sulphate reduction becomes a viable option, due to the requirement for regular treatments and relatively high chemical concentrations required. However, taking into account cation losses due to scale deposition deep within the reservoir, the requirements for chemical treatments reduces and squeezing becomes the preferred option. From the simulation models, differences between the reservoirs concerned in terms of the contribution aquifer waters make to scale control were identified, with some wells at much higher risk than others due to the volumes of potentially scaling brines that are expected to be produced. This paper clearly demonstrates that a cross discipline approach using reservoir engineering, production chemistry and completion engineering can lead to a more complete assessment of the scale risk and the correct economic selection of the control program.


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    Titel :

    Integrated risk analysis for scale management in deepwater developments


    Weitere Titelangaben:

    Integrierte Risikoanalyse für das Scale-Management in Tiefsee-Projekten


    Beteiligte:
    Mackay, E.J. (Autor:in) / Jordan, M.M. (Autor:in) / Feasey, N.D. (Autor:in) / Shah, D. (Autor:in) / Kumar, P. (Autor:in) / Ali, S.A. (Autor:in)


    Erscheinungsdatum :

    2004


    Format / Umfang :

    19 Seiten, 18 Bilder, 10 Tabellen, 33 Quellen


    Medientyp :

    Aufsatz (Konferenz)


    Format :

    Datenträger


    Sprache :

    Englisch




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