- Creating wellplan plots, proposal revisions in communication with drilling Engineers and Geologists.
- Preparing planned vs actual plots.
- Performing torque and drag analysis for...Read more- Creating wellplan plots, proposal revisions in communication with drilling Engineers and Geologists.
- Preparing planned vs actual plots.
- Performing torque and drag analysis for planned wells to check the optimal operational condition while drilling avoiding buckling and bending effects in the drill string.
- Writing drilling procedure for vertical and horizontal wells, specifying correct techniques.
- Monitoring daily drilling reports.
- Use of software: Compass, Wellplan, Stress Check, Casing Seat, Predict, Sysdrill.
- Fluent English and Spanish.
- Knowledge of Geomechanic: UCS estimation, fractures analysis using image profiles to define the SH, Sv, Sh
- Stresscheck analysis where you can define the different casing you can use in a well, you can use the minimum cost option to optimize the well schematic, using the cheapest tubular in a new location.
- Pore and fracture pressure calculation to define operational window. And define the best mud weight density according to the geopressures, but I also have to analyze the nearest wells and operational problems to define mud weight to be used in a new well, the pore pressure must be calibrated to the formation test and the fracture pressure must be calibrated to the LOT or mini frac.
- Cost estimation for the wells, according to the architecture, adapting it to the different architecture, taking in count the operational process like, casing running, profile running, coring, ROP, WOB, cementing.
- Wellpath design, for vertical, horizontal, deep, ERD, J, S, high angle wells.
- Revision of the nearest wells to a new location, to analyze the operational problems while they were drilled, because it helps to optimize the new project success.
- Anticollision analysis.
- Casing seat analysis using the nearest well schematic information to apply this model to a new well.