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A New Calculation Method of Dynamic Kill Fluid Density Variation during Deep Water Drilling

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Listed:
  • Honghai Fan
  • Song Deng
  • Weiyan Ren
  • Xili Duan
  • Cong Cui
  • Jing Yang

Abstract

There are plenty of uncertainties and enormous challenges in deep water drilling due to complicated shallow flow and deep strata of high temperature and pressure. This paper investigates density of dynamic kill fluid and optimum density during the kill operation process in which dynamic kill process can be divided into two stages, that is, dynamic stable stage and static stable stage. The dynamic kill fluid consists of a single liquid phase and different solid phases. In addition, liquid phase is a mixture of water and oil. Therefore, a new method in calculating the temperature and pressure field of deep water wellbore is proposed. The paper calculates the changing trend of kill fluid density under different temperature and pressure by means of superposition method, nonlinear regression, and segment processing technique. By employing the improved model of kill fluid density, deep water kill operation in a well is investigated. By comparison, the calculated density results are in line with the field data. The model proposed in this paper proves to be satisfactory in optimizing dynamic kill operations to ensure the safety in deep water.

Suggested Citation

  • Honghai Fan & Song Deng & Weiyan Ren & Xili Duan & Cong Cui & Jing Yang, 2017. "A New Calculation Method of Dynamic Kill Fluid Density Variation during Deep Water Drilling," Mathematical Problems in Engineering, Hindawi, vol. 2017, pages 1-8, March.
  • Handle: RePEc:hin:jnlmpe:9642917
    DOI: 10.1155/2017/9642917
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