Field Application of LightWeight Hollow Glass Sphere Drilling Fluid

Medley, George H.; Haston, Jerry E.; Montgomery, Richard L.; Martindale, I. Dylan; Duda, J.R.

doi:10.2118/38637-ms

Cited by 12 publications

(3 citation statements)

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“…Lightweight drilling fluids were also developed for coalbed methane application to reduce pollution (Zuo et al, 2012). The application of glass bubbles in different types of drilling fluids has been successfully tested in the field by many researchers (Arco et al, 2000;McDonald et al, 1998;Medley et al, 1997;Wong and Arco, 2003;Zuo et al, 2012). In addition, the used glass bubbles could also be recycled and reuse which further reduce drilling cost (McDonald et al, 1998;Medley et al, 1995;Wong and Arco, 2003).…”

Section: Introductionmentioning

confidence: 99%

Lightweight biopolymer drilling fluid for underbalanced drilling: An optimization study

Lim

Khalil

Jan

et al. 2015

Journal of Petroleum Science and Engineering

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Section: Introductionmentioning

confidence: 99%

Lightweight biopolymer drilling fluid for underbalanced drilling: An optimization study

Lim

Khalil

Jan

et al. 2015

Journal of Petroleum Science and Engineering

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“…Some concerns have been raised regarding the dusty nature of the spheres, especially when transferring the material. However, the placement of a hose deep in the mud hopper resolved such concerns (Medley et al 1997). Another field implementation was conducted in Motatan field west of Venezuela.…”

Section: Introductionmentioning

confidence: 99%

Investigation Of The Stability Of Hollow Glass Spheres In Drilling Fluids In Diverse pH Environments And Assessment Of Potential Field Applications In Saudi Arabia

Alawami

Al-Yami

Wagle

et al. 2015

Day 2 Tue, September 15, 2015

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Low-density water-based drilling fluids formulated with hollow glass spheres (HGS) offer an attractive drilling method. HGS are incompressible lightweight additives with the capability to reduce mud weight down to 41.0 lbm/ft 3 (5.5 lbm/gal). Several pressure ratings of HGS are available, and selecting the appropriate rating is essential to avoid formation damage and lost circulation in near-balance conditions. Failure of the spheres could thus lead to catastrophic results.The objectives of this paper is to evaluate the stability of inhibited water-based drilling fluids formulated with HGS in diverse pH environments, and assess their potential application in Wasia formations in Saudi Arabia. Wasia formation is composed of middle cretaceous clastic rocks with layers of sandstone, shale and occasional limestone. Wasia is an aquifer with a thick unit that crops out in central Najd with a slight eastward dip (Powers et al. 1966). The pressures of Wasia correlate to equivalent mud weights (EMW) of 51-58 lbm/ft 3 . This range of EMW is lower than that of water, and the use of conventional mud systems could introduce several operational difficulties due to the high hydrostatic pressure they create. The implementation of HGS-based lightweight fluids would lower the hydrostatic pressure in the wellbore, thus eliminating or reducing the frequent loss of circulation experienced in Wasia. HGS-based fluids could also provide greater protection of underground water resources, improve rate of penetration (ROP), and reduce or eliminate differential pipe sticking.We conducted comprehensive analysis of HGS performance in various pH environments to assess their stability in drilling fluids. Mud characteristics and rheological properties were examined before hot rolling (BHR) and after hot rolling (AHR) to determine the effects of high pressure and high temperature (HPHT) on the system. The duration at which the samples were exposed to HPHT conditions varied from 1 to 4 days to understand the behavior of the mud over time. In addition, two typical formulations were prepared using HGS and conventional additives to evaluate their properties and compare them to the American Petroleum Institute (API) standards.Hollow glass microspheres were found to be stable in the pH conditions of drilling operations (pH~9), with a maximum density variation of 0.5 lbm/ft 3 . At higher pH levels (pH Ͼ11), the spheres experienced fractional dissolution due to the reaction of the added NaOH with borosilicate glass. In pH ranges lower than 4, the spheres were found to be extremely stable. The inhibited water-based fluids formulated with HGS produced favorable rheology and stable mud characteristics before and after exposure to the actual downhole temperatures of Wasia formation.

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“…Hollow Glass Spheres (HGS) were used as density reducing agent since they are very light, incompressible and exist in powder form. It has been shown, both in laboratory and the field, from previous studies that drilling fluids with HGS can be used for UBD with minimal issues [3,7,8].…”

Section: Introductionmentioning

confidence: 99%

The Effects of Glass Bubbles, Clay, Xanthan Gum and Starch Concentrations on the Density of Lightweight Biopolymer Drilling Fluid

Nee

Jan

Ali

et al. 2014

AMM

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It is an open secret that currently oil and gas industry is focusing on increasing hydrocarbon production through underbalanced drilling (UBD) and finding ways to ensure the drilling process is less harmful to the environment. Water-based biopolymer drilling fluids are preferred compared to oil based drilling fluids owing to the fact that it causes less pollution to the environment. This paper investigates the effects of varying concentrations of environmentally safe raw materials, namely glass bubbles, clay, xanthan gum and starch concentrations on the density of the formulated biopolymer drilling fluid to ensure that it is suitable for UBD. As material concentrations were varied, the density for each sample was measured at ambient temperature and pressure. Results showed that the final fluid densities are within acceptable values for UBD (6.78 to 6.86 lb/gal). It is concluded that the formulated water-based biopolymer drilling fluid is suitable to be used in UBD operation.

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Field Application of LightWeight Hollow Glass Sphere Drilling Fluid

Cited by 12 publications

References 0 publications

Lightweight biopolymer drilling fluid for underbalanced drilling: An optimization study

Lightweight biopolymer drilling fluid for underbalanced drilling: An optimization study

Investigation Of The Stability Of Hollow Glass Spheres In Drilling Fluids In Diverse pH Environments And Assessment Of Potential Field Applications In Saudi Arabia

The Effects of Glass Bubbles, Clay, Xanthan Gum and Starch Concentrations on the Density of Lightweight Biopolymer Drilling Fluid

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