Zamora Frank scite author profile

Zamora Frank

3Publications

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Halliburton (United Kingdom)

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Well Construction Efficiency Processes Yielding a Significant Step Change

Wylie

Frank

Terry

et al. 2002

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In the past, serial drilling operations have been employed for the conventional well-architecture construction process. In this paper, new technological advancements from initial design planning to execution processes will be discussed. These advancements produce a "step-change" well architecture with a uniform well diameter and fullbore production delivery conduit called a monowell. From the well-construction processes to the "end" product, efficiency is driven in the technologies and processes described. Technical improvements in mechanical and chemical solutions can help achieve a well architecture with a uniform diameter in reduced serial operations. Technological advancements in the areas of composite technology and real-time downhole monitoring can enhance deployment efficiency compared to conventional methods. The efficiency processes yield a well architecture with more efficient reservoir penetration and oil-production delivery by:Reducing formation/reservoir evaluation time and well placement through better methodsIncreasing penetration rateReducing the volume of drill cuttings and the oil content contained on the cuttingsReducing fluid requirements (i.e. drilling fluids and cements)Reducing casing size and the number of casing strings requiredReducing overall rig timeReducing overall flat timeImproving well productivityReducing required horsepower and rig size The unique design and planning features of the monowell are discussed, including reservoir focus, geomechanics, and design requirements of drilling systems, formation evaluation equipment, fluid systems, and wellbore hardware. Multiple "uniform diameter" well-construction execution methods, including multiple deployment methods, are discussed. Together, the well-architecture change and execution-process changes result in a monowell with improved well construction design, execution, and production efficiencies. The monowell provides a significant industry step change in reducing cost per barrel of oil equivalent through improved efficiencies through a multitude of technologies. Factors to Consider during the Monowell Well-Construction Process A higher level of engineering and technological precision is needed to deliver the monowell compared to traditional well-construction processes. When a monowell is drilled, increased precision is required in the following areas: Upper BoreholeClear understanding of the formations to be drilled and being drilledBorehole stabilityDrilling hydraulicsEffective management of equivalent circulating density (ECD)Borehole qualityMethod of strengthening the borehole (borehole management)Well-life integrityReliability and run life of the bottomhole assembly (BHA) componentsLonger cementing and casing execution intervalsBorehole structural support Reservoir SectionCompletion, beginning with drilling of the reservoir barrierBorehole qualityBorehole stability across the reservoirReservoir evaluationReservoir productivityFormation damage minimization

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Production Study Evaluates Completion and Stimulation Program

Frank

McDaniel

Hyde³

1994

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Completion techniques and associated stimulation treatments used for wells in the Devonian Shale of the Appalachian Basin have been evaluated in a 2-year study of production logs and production history. The study was a joint effort of a gas production company and a well service company. Results of the study have revealed that well economics can be significantly improved if completion zones are better chosen and the appropriate associated fracture stimulation treatment is used. This paper presents study methods, findings, conclusions, and recommendations on completion plans and stimulation designs for future wells in this field and similar Devonian Shale wells.

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Production Study Evaluates Completion and Stimulation Program

Frank¹,

McDaniel²,

Paul³

1994

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Zamora Frank

Well Construction Efficiency Processes Yielding a Significant Step Change

Production Study Evaluates Completion and Stimulation Program

Production Study Evaluates Completion and Stimulation Program

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