Experimental analysis of cassava starch as a fluid loss control agent on drilling mud

Novrianti,; Khalid, Idham; Yuliastini,; Novriansyah, Adi

doi:10.1016/j.matpr.2020.07.189

Cited by 9 publications

(5 citation statements)

References 7 publications

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“…The micronized starch with size of about 1 μm in water-based drilling fluid exhibited outstanding ability to form a thin and impermeable filter cake even after a 200 °F aging process at high pressure of 500 psi, which can play an important role in preventing drilling-associated borehole problems. Novrianti et al [66] evaluated the utilization of cassava starch as a mud additive for drilling operation. The existence of cassava starch in drilling mud can lead to higher plastic viscosity, yield point and gel strength.…”

Section: Starch-based Filtrate Reducersmentioning

confidence: 99%

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A Review in Polymers for Fluid Loss Control in Drilling Operations

Li,

Gao,

Zhang

et al. 2024

Macro Chemistry & Physics

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The ever‐increasing consumption of fossil energy highlights the urgent need to develop technologies to ensure the efficient drilling and exploration of oil and gas resources mainly distributed in deep and ultra‐deep layers. The complex geological conditions in deep formations with the feature of high temperature, high pressure and high salinity result in some very high requirements for the performance of drilling fluids. Various additives were demonstrated to decide the physicochemical properties and functional characteristics of water‐based drilling fluids that have been widely used to drill over 80% of wells. As one of the most crucial and most widely used additives in water‐based drilling fluids, various polymeric filtrate reducers play an important role in minimizing fluid loss, maintaining wellbore stability, ensuring drilling safety and efficiency as well as avoiding formation damage. Herein we comprehensively summarized the design, preparation and applications of polymer‐based filtrate reducers for fluid loss control in drilling operation. The spotlight is centered on the design strategies and structure‐property‐performance relationships of polymeric filtrate reducers to minimize fluid loss under high temperature, high pressure, and high salinity conditions in the deep formation. Future perspectives for achieving excellent comprehensive performance are also discussed to motivate new strategies and technologies to design and develop high‐performance water‐based drilling fluids with optimal rheological and filtration properties.This article is protected by copyright. All rights reserved

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Section: Starch-based Filtrate Reducersmentioning

confidence: 99%

“…Novrianti et al. [ 66 ] evaluated the utilization of cassava starch as a mud additive for drilling operation. The existence of cassava starch in drilling mud can lead to higher plastic viscosity, yield point and gel strength.…”

Section: Natural Polymers and Their Derivatives As Filtrate Reducersmentioning

confidence: 99%

A Review in Polymers for Fluid Loss Control in Drilling Operations

Li,

Gao,

Zhang

et al. 2024

Macro Chemistry & Physics

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“…Filtration or fluid loss measures the amount of liquid that permeates a solid mud cake formation. According to previous researchers [ 31 ], drilling fluids invade well formations in response to the greater hydrostatic pressure of fluids compared to the pore pressure. This leads to the formation of mud cakes as the pores are filled with suspended solids from the drilling mud.…”

Section: Drilling Fluids and Rheological Propertiesmentioning

confidence: 99%

Utilization of Eco-Friendly Waste Generated Nanomaterials in Water-Based Drilling Fluids; State of the Art Review

et al. 2021

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An important aspect of hydrocarbon drilling is the usage of drilling fluids, which remove drill cuttings and stabilize the wellbore to provide better filtration. To stabilize these properties, several additives are used in drilling fluids that provide satisfactory rheological and filtration properties. However, commonly used additives are environmentally hazardous; when drilling fluids are disposed after drilling operations, they are discarded with the drill cuttings and additives into water sources and causes unwanted pollution. Therefore, these additives should be substituted with additives that are environmental friendly and provide superior performance. In this regard, biodegradable additives are required for future research. This review investigates the role of various bio-wastes as potential additives to be used in water-based drilling fluids. Furthermore, utilization of these waste-derived nanomaterials is summarized for rheology and lubricity tests. Finally, sufficient rheological and filtration examinations were carried out on water-based drilling fluids to evaluate the effect of wastes as additives on the performance of drilling fluids.

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“…In 2019, Al-Hameedi et al worked on introducing grass powder (GP) as drilling fluid additive and results showed viscosity improvement from 8 to 9 cP, gel strength improvement from 22 to 26 lb/100ft 2 and 28% reduction in fluid loss [9]. In 2021, Novriansyah reported that 2 wt% of cassava starch is able to improve drilling fluid filtration properties through reducing fluid loss from 5.2 to 1.6 ml as well as improving the gel strength from 0.4 to 0.6 lb/100ft 2 [10]. In 2022, Jagar et al, developed nano-biodegradable drilling mud using pomegranate peel (PP), Prosopis Farcta Plant (PFP) and SiO2 and TiO2.…”

Section: -Introductionmentioning

confidence: 99%

“…Results showed better filtration properties and rheological properties with TiO2 and PP [11]. ZnO nanoparticles are widely recognized as safe, biocompatible and technological material that has caught profound attention due to its distinguished performance as photoluminescence agents in biosensors, antibacterial agents in many products, and UV-absorbers in coating materials [7][8][9][10][11][12]. ZnO nanoparticles are known to have stable physical and chemical properties during applications as they show the least sensitivity to temperature and pressure variation, indicating a stable elemental compound and favored to be used for industrial applications [13].…”

Section: -Introductionmentioning

confidence: 99%

Evaluating Filtration and Thermal Stability of Water-Based Mud Using Green Synthesized Zinc Oxide Nanoparticles

Al-Ogaili,

Almahdawi,

Ali

2023

IJCPE

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Nanoparticles (NPs) have unique capabilities that make them an eye-opener opportunity for the upstream oil industry. Their nano-size allows them to flow within reservoir rocks without the fear of retention between micro-sized pores. Incorporating NPs with drilling and completion fluids has proved to be an effective additive that improves various properties such as mud rheology, filtration, thermal conductivity, and wellbore stability. However, the biodegradability of drilling fluid chemicals is becoming a global issue as the discharged wetted cuttings raise toxicity concerns and environmental hazards. Therefore, it is urged to utilize chemicals that tend to break down and susceptible to biodegradation. This research presents the practical application of bio-based Zinc Oxide nanoparticles (ZnO NPs) prepared chemically from celery leaf plant extract as green additive in water-based mud drilling fluid (WBM). The study aimed to evaluate the filtration and thermal stability of WBM using green-synthesized ZnO NPs. The results showed that the ZnO NPs have minimal effect of mud density, but significant improvement in mud thermal stability and filtration properties were attained with concentrations lower than 1g. The fluid loss rate was reduced by 33% with 0.45g of ZnO nanoparticles, and the thinnest mud cake was obtained as well. In terms of thermal stability, the bio-based ZnO NPs greatly enhanced the rheological properties of WBM at elevated temperatures. The rate of increment in plastic viscosity (PV) or decrement in yield point (YP) and gel strength occurred in a controllable manner compared to the rheological properties of base mud at high temperatures reaching 90°C. This study provides insight into the effect of green-synthesized ZnO nanoparticles on the performance of water-based mud and highlights their potential as an effective and environmentally friendly additive for the oil and gas industry.

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Experimental analysis of cassava starch as a fluid loss control agent on drilling mud

Cited by 9 publications

References 7 publications

A Review in Polymers for Fluid Loss Control in Drilling Operations

A Review in Polymers for Fluid Loss Control in Drilling Operations

Utilization of Eco-Friendly Waste Generated Nanomaterials in Water-Based Drilling Fluids; State of the Art Review

Evaluating Filtration and Thermal Stability of Water-Based Mud Using Green Synthesized Zinc Oxide Nanoparticles

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