Managing Suspension Characteristics of Lost-Circulation Materials in a Drilling Fluid

Kulkarni, Suhasini; Jamison, Dale E.; Teke, Kushabhau

doi:10.2118/170271-ms

Cited by 9 publications

(1 citation statement)

References 13 publications

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“…Nasiri et al [22] used an advanced experimental method to determine the effectiveness of various LCMs on loss control in bentonite mud. Kulkarni et al [23] performed an experimental study to evaluate the suspension characteristics of lost-circulation materials in different drilling fluids and analyzed the effects of suspending agents. Jaffery et al [24] proposed an engineered fiberbased lost circulation control pills based on special fiber system and particle size distribution principle to solve the lost circulation challenges in a depleted formation with natural fractures.…”

Section: Introductionmentioning

confidence: 99%

Mathematical Simulation of Lost Circulation in Fracture and Its Control

Cai

Guo

et al. 2021

Geofluids

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Lost circulation has been one of the major problems that impede efficient and cost-saving drilling operations. The nature of lost circulation and its control is not yet fully understood. A method to characterize the mud loss in fracture and the plugging process of lost circulation materials is highly desired to obtain a thorough understanding of mud losses in fracture and provide reference for lost circulation control. This paper presents an easy-to-use method to identify types of lost circulation in fracture and the corresponding control. Three analytical models are presented based on three loss mechanisms, namely, seepage/filtration in a fracture, pipe flow in a fracture, and gravity displacement in a fracture. A numerical model is developed to simulate the deposition of lost circulation materials in fractures and predict the time and the volume of drilling fluid needed for lost circulation control. Case studies with these analytical models provide a deeper insight of this subject. Sensitivity analyses with the numerical model identify the major factors responsible for lost circulation control. High viscosity of drilling fluid may prevent lost circulation, while low viscosity is desired for a fast control of lost circulation. Lowering the density of drilling fluid is another way to prevent the lost circulation and facilitate the deposition of lost circulation materials. Lost circulation materials with high density could deposit faster close to the wellbore and therefore accelerating the control process. High concentration of lost circulation materials is likely to shorten the plugging time, which should be determined referring to the severity of loss. This work provides drilling engineers a practical method for simulating the lost circulation and selecting lost circulation material.

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Section: Introductionmentioning

confidence: 99%

Mathematical Simulation of Lost Circulation in Fracture and Its Control

Cai

Guo

et al. 2021

Geofluids

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Investigation of magnetite-based invert emulsion mud at high pressure high temperature

et al. 2021

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Managing Suspension Characteristics of Lost-Circulation Materials in a Drilling Fluid

Kulkarni

Jamison

Teke

2014

Day 2 Thu, September 11, 2014

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Lost-circulation materials (LCMs) are often used to mitigate the loss of drilling fluids into subterranean formations. Well-known LCMs include ground marble, graphitic carbon, and cellulosic particulates. The carrier fluid's ability to suspend the LCM material is critical in high-pressure/high-temperature (HP/HT) or inclined wells. This paper provides methods to help determine and manage suspension characteristics of LCMs in the fluid with the aid of certain suspending agents (e.g., fibers).A detailed experimental study was conducted to evaluate the suspension of a range of LCMs in various drilling fluids and investigate the effects of suspending agents (e.g., fibers) on LCM suspension. Based on experimental data, semiempirical models were developed to help predict the influence of fibers on LCM suspension. The design parameters used in these models included fiber concentration, fiber density, number of fibers per unit volume, and average fiber length and diameter. The modeling work discussed in this paper also provides methods for tailoring the suspending agent properties necessary for achieving effective LCM suspension in the fluid.The uniform suspension of LCM in the carrier treatment or drilling fluid is necessary during LCM pill preparation and during wellbore applications, such as a hesitation squeeze operation. Thus, using fibers to manage the suspension characteristics of LCM in carrier fluids can help ensure efficient use of LCMs for lost-circulation control. This method is particularly important in severe-loss zones where large sized LCMs are used as well as in HP/HT or inclined wells where maintaining LCM in suspension can be challenging.

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Managing Suspension Characteristics of Lost-Circulation Materials in a Drilling Fluid

Cited by 9 publications

References 13 publications

Mathematical Simulation of Lost Circulation in Fracture and Its Control

Mathematical Simulation of Lost Circulation in Fracture and Its Control

Investigation of magnetite-based invert emulsion mud at high pressure high temperature

Managing Suspension Characteristics of Lost-Circulation Materials in a Drilling Fluid

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