Operators take advantage of recent innovations

World Oil, Feb, 2002

Covering exploration, drilling, well completion, reservoir engineering and production operations, the following five articles introduce and demonstrate several practical applications of new technologies developed by the service industry.

The presentations include: 1) PTTC's review of three field applications of improved cased-hole logging, new sidetracking mills and new centrifugal horizontal [CO.sub.2] pumping systems; 2) How New Dominion oil company is applying new fracture tilt-mapping techniques from a Halliburton-Pinnacle alliance in an Oklahoma field; 3) Applications of Baker Oil Tool's multilateral completion designs in deep water, emphasizing advantages of Level 6 designs; 4) Potential benefits of C-FER Technologies' new system for testing the integrity of premium connections on tubular strings before they are run in the hole; and 5) Murphy Oil's application of advanced visualization systems to enhance geophysical data.

Recent advances in cased-hole logging, sidetracking mills and [CO.sub.2] pumping

E. Lance Cole, National Project Manager, Petroleum Technology Transfer Council (PTTC)

Technology advances are occurring across the spectrum of E&P operations. Some are revolutionary, while others are incremental--but all are providing producers with improved efficiency and/or costs. This article highlights three such advances: 1) through-casing resistivity logging using Schlumberger's CHFR tool; 2) one-trip milling and lateral drilling using PDC Bimills; and 3) adaption of the RedaHPS (*) horizontal pumping systems from Schlumberger for [CO.sub.2] pumping. And recent recipients of PTTC's technology transfer awards are noted.

Through-casing resistivity. For decades, industry has worked toward developing tools that would reliably measure formation resistivity through casing. Continued R&D and technology advances that enable reliable measurement of voltages in the nanovolt range led to today's tools. Schlumberger commercialized its Cased Hole Formation Resistivity (CHFR) tool in 2000. The company's Bob Davis, speaking during a recent PTTC workshop in California, presented resistivity data from a new well that had been logged open-hole, and with the CHFR tool after casing was set. Visually, the curves were close overlays. Differences that were noted could be explained by the much deeper depth of investigation from 7 to 32 ft with the CHFR tool.

The 3 3/8-in., 43-ft-long tool can be run in 4 1/2-9 5/8-in. OD casing in any borehole fluid. The technology behind the system dictates that measurements be made while stationary. Initial tools required 2 min. to make two measurements at 2 ft intervals, equating to 120 ft/hr. Work is progressing that would allow logging 200 ft/hr. Vertical resolution is about 4 ft.

Davis presented log data from several wells in the San Joaquin, Ventura and Los Angeles basins of California, showing how the data was used for flood monitoring and looking at potential of behind-pipe zones. He noted that recompletion intervals were found about half of the time. In one instance, a well producing 30 bopd and 1,500 bwpd had been shut-in since 1998. Less than one month after recompletion in an unswept zone found behind pipe, the well was producing 139 bopd and 81 bwpd, see accompanying figure.

The following quote illustrates the value one client attributes to using CHFR technology: "Behind-casing resistivity measurement is the only logging tool to successfully discern oil and water in the XXX waterflood. Between six and twelve wells managed by the YYY reservoir management team will be logged with the cased-hole tool this year. Every wet well is now reviewed as a candidate for this surveillance technology."

Cost-effective recompletions with PDC technology. Sidetracking mills designed with polycrystalline diamond cutter (PDC) insert cutting structures are being used to mill casing windows and drill required laterals in the Fruit-4 land formation coalbed in the San Juan basin. The technique reduces the number of trips, equipment, costs and time required to recomplete wells. Downtime is reduced, so wells can be brought online sooner. Data was shared for recompletions in three Fruitland formation wells (SPE 71052) using the PDC Bimill in Smith Services' "Drill Ahead System." On the first recompletion, 60 hr of operational time were saved vs. prior practices, and the well was returned to production two days earlier, producing 2 MMcfd. The Drill-Ahead system saved two trips, resulting in safer and more economical rig operations.

These three San Juan basin recompletions, plus other applications in Texas, Louisiana, Columbia and Oman, prove the technology can be successfully applied. This approach decreases the number of trips required; saves time and money; and reduces wear and tear on drilling equipment.

Horizontal systems for [CO.sub.2] pumping. In the 2001 [CO.sub.2] Conference in Midland, Texas, in early December, Pete Schroeder with Schlumberger, REDA Production Systems, described a new alternative for [CO.sub.2] pumping. Conventional choices include split-case pumps, a plunger pump and a vertical turbine pump. All are proven technology, but all have shortcomings. Schlumberger has adapted the RedaHPS horizontal pumping systems for [CO.sub.2] pumping. Modifications from the standard HPS pump include a custom seal, custom elastomers, custom pump bearings, and a high-pressure intake.