Dynamic optimization for robust path planning of horizontal oil wells

This paper considers the three-dimensional path planning problem for horizontal oil wells. The decision variables in this problem are the curvature, tool-face angle and switching points for each turn segment in the path, and the optimization objective is to minimize the path length and target error....

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Vydáno v:Applied mathematics and computation Ročník 274; s. 711 - 725
Hlavní autoři: Gong, Zhaohua, Loxton, Ryan, Yu, Changjun, Teo, Kok Lay
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Inc 01.02.2016
Témata:
Horizontal well
Parameter optimization
Switched system
System sensitivity
Time-scaling transformation
System sensitivity
Parameter optimization
Switched system
Horizontal well
Time-scaling transformation
ISSN:0096-3003, 1873-5649
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Shrnutí:This paper considers the three-dimensional path planning problem for horizontal oil wells. The decision variables in this problem are the curvature, tool-face angle and switching points for each turn segment in the path, and the optimization objective is to minimize the path length and target error. The optimal curvatures, tool-face angles and switching points can be readily determined using existing gradient-based dynamic optimization techniques. However, in a real drilling process, the actual curvatures and tool-face angles will inevitably deviate from the planned optimal values, thus causing an unexpected increase in the target error. This is a critical challenge that must be overcome for successful practical implementation. Accordingly, this paper introduces a sensitivity function that measures the rate of change in the target error with respect to the curvature and tool-face angle of each turn segment. Based on the sensitivity function, we propose a new optimization problem in which the switching points are adjusted to minimize target error sensitivity subject to continuous state inequality constraints arising from engineering specifications, and an additional constraint specifying the maximum allowable increase in the path length from the optimal value. Our main result shows that the sensitivity function can be evaluated by solving a set of auxiliary dynamic systems. By combining this result with the well-known time-scaling transformation, we obtain an equivalent transformed problem that can be solved using standard nonlinear programming algorithms. Finally, the paper concludes with a numerical example involving a practical path planning problem for a Ci-16-Cp146 well.
ISSN:0096-3003
1873-5649
DOI:10.1016/j.amc.2015.11.038