Extended reach and highly deviated wellbores enable operators to contact multiple reservoir targets with a single wellbore that would not have been possible had the well been drilled vertically. The driver for drilling these kinds of wells is to reduce the total cost of developing a field. With advances in drilling motors and rotary steerable systems, drilling these types of wells has become common, but there are still challenges in acquiring sufficient formation evaluation data. Often these wells are drilled in already producing fields where depleted zones will be encountered. This, coupled with the high deviation makes wireline evaluation risky and expensive, in particular since these well types typically require pipe conveyed wireline operations. Logging While Drilling (LWD) tools have been able to provide sufficient petrophysics data for the better part of two decades. It is only in recent years that it has become possible to acquire formation pressure data while drilling and thereby provide critical answers to operator asset teams with regards to fluid type, well-to-well connectivity, and depletion trends. This paper will examine a drilling campaign from SoutheastAsia where 2 highly deviated wells and 2 extended reach wells were drilled and evaluated successfully using Logging While Drilling technology both for the petrophysics and also the formation testing, with an ultimate economic advantage to the operator compared with wireline logging.AFormation Pressure While Drilling (FPWD) service was used to measure formation pressure and record fluid gradients. The content of this paper details the operator objectives, perceived challenges, operations planning, and the ultimate execution and real time support that made this application of FPWD technology a success.
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