FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3216210533> ?p ?o ?g. }

• W3216210533 endingPage "109907" @default.
• W3216210533 startingPage "109907" @default.
• W3216210533 abstract "The aim of this study is to develop inhibitive drilling fluid systems generated from waste materials that can contribute to the reduction of potential well instability problems caused by drilling fluid based on rheological and filtration properties. In this study, a comprehensive experimental work was carried out to assess suitability of fly ash and rice husk ash, which are quite a large amount of waste, in inhibitive water based-drilling fluids at ambient temperature. To this end, inhibitive drilling fluids systems were formulated with various concentrations (0, 1, 3, 5, 7, 9, 12.5, 15 (wt%)) of fly ash and rice husk ash with 0, 2, 4, 7, 9, 12.5, 15 (wt%) concentrations in the two type of inhibitive drilling fluid systems and combined use of fly ash and rice husk ash with their optimum concentrations determined was analyzed in the inhibitive drilling fluid in order to determine the drilling fluid with the most favorable characteristics based on rheological and filtration properties including apparent viscosity (AV), plastic viscosity (PV), yield point (YP), gel strength, fluid loss and mud cake thickness. In addition, grinding impact of fly ash particles in the inhibitive drilling fluid system was determined in the development of the drilling fluid by employing mechanically ground fly ash for 30, 60 and 120 min in a tumbling ball mill. Finally, fly ash and rice husk ash were characterized based on X-Ray Fluorescence (XRF), X-Ray Diffraction (XRD), Fourier-transform infrared spectroscopy (FTIR) and Scanning Electron Microscopy (SEM). Experimental results show that developed drilling fluids with fly ash and rice husk ash not only enhanced rheological properties but also improved the filtration properties by increasing the rheological parameters and decreasing fluid loss and mud cake thickness. With the developed drilling fluids, AV, YP and PV increased by 35%, 32%, 28%, respectively with fly ash for the 12.5 wt% concentration while the parameters increased by 19%, 27%, 14%, respectively with the 4 wt% rice husk ash. Gel strengths of the fluids slightly increased compared to reference fluid and were in acceptable range. On the other hand, developed drilling fluid resulted in a 10% and 12% reduction in fluid loss for fly ash and rice husk ash at 12.5 wt% and 4 wt% concentrations, respectively, as well as a 54% and 63% reduction in mud cake thickness. In addition, the results reveal that developed drilling fluid with sieved fly ash yielded superior flow behavior compared to drilling fluid formulated with ground forms of fly ash. Consequently, based on the study, non-damaging and inhibitive drilling fluid systems were developed by using waste material fly ash and rice husk ash, and hence enhancing performance of drilling operation as well as reducing the risk of amount of wastes disposed to the environment and the potential of issues such as formation damage, wellbore instability caused by drilling fluid and associated challenges." @default.
• W3216210533 created "2021-12-06" @default.
• W3216210533 creator A5004216444 @default.
• W3216210533 creator A5015900325 @default.
• W3216210533 creator A5021372387 @default.
• W3216210533 creator A5025726753 @default.
• W3216210533 creator A5072997727 @default.
• W3216210533 creator A5076956325 @default.
• W3216210533 date "2022-03-01" @default.
• W3216210533 modified "2023-10-01" @default.
• W3216210533 title "Development of novel inhibitive water-based drilling muds for oil and gas field applications" @default.
• W3216210533 cites W1968336880 @default.
• W3216210533 cites W1999796437 @default.
• W3216210533 cites W2013012849 @default.
• W3216210533 cites W2016556004 @default.
• W3216210533 cites W2026978083 @default.
• W3216210533 cites W2031419417 @default.
• W3216210533 cites W2031603041 @default.
• W3216210533 cites W2044235457 @default.
• W3216210533 cites W2050901395 @default.
• W3216210533 cites W2053150501 @default.
• W3216210533 cites W2062987676 @default.
• W3216210533 cites W2063110274 @default.
• W3216210533 cites W2067484528 @default.
• W3216210533 cites W2068758325 @default.
• W3216210533 cites W2076941587 @default.
• W3216210533 cites W2078462178 @default.
• W3216210533 cites W2087707099 @default.
• W3216210533 cites W2098086932 @default.
• W3216210533 cites W2141160339 @default.
• W3216210533 cites W2161428842 @default.
• W3216210533 cites W2163235109 @default.
• W3216210533 cites W2333475423 @default.
• W3216210533 cites W2334836014 @default.
• W3216210533 cites W2337949902 @default.
• W3216210533 cites W2485076753 @default.
• W3216210533 cites W2550918523 @default.
• W3216210533 cites W2618436131 @default.
• W3216210533 cites W2772233042 @default.
• W3216210533 cites W2789812604 @default.
• W3216210533 cites W2805406869 @default.
• W3216210533 cites W2809322735 @default.
• W3216210533 cites W2884431835 @default.
• W3216210533 cites W2964055154 @default.
• W3216210533 cites W3020905134 @default.
• W3216210533 cites W3020948457 @default.
• W3216210533 cites W3037588798 @default.
• W3216210533 cites W3110629764 @default.
• W3216210533 cites W3137711714 @default.
• W3216210533 cites W3180272700 @default.
• W3216210533 cites W785574735 @default.
• W3216210533 cites W814827369 @default.
• W3216210533 doi "https://doi.org/10.1016/j.petrol.2021.109907" @default.
• W3216210533 hasPublicationYear "2022" @default.
• W3216210533 type Work @default.
• W3216210533 sameAs 3216210533 @default.
• W3216210533 citedByCount "6" @default.
• W3216210533 countsByYear W32162105332021 @default.
• W3216210533 countsByYear W32162105332022 @default.
• W3216210533 countsByYear W32162105332023 @default.
• W3216210533 crossrefType "journal-article" @default.
• W3216210533 hasAuthorship W3216210533A5004216444 @default.
• W3216210533 hasAuthorship W3216210533A5015900325 @default.
• W3216210533 hasAuthorship W3216210533A5021372387 @default.
• W3216210533 hasAuthorship W3216210533A5025726753 @default.
• W3216210533 hasAuthorship W3216210533A5072997727 @default.
• W3216210533 hasAuthorship W3216210533A5076956325 @default.
• W3216210533 hasBestOaLocation W32162105331 @default.
• W3216210533 hasConcept C127413603 @default.
• W3216210533 hasConcept C152068911 @default.
• W3216210533 hasConcept C159985019 @default.
• W3216210533 hasConcept C160892712 @default.
• W3216210533 hasConcept C185592680 @default.
• W3216210533 hasConcept C191897082 @default.
• W3216210533 hasConcept C192562407 @default.
• W3216210533 hasConcept C199289684 @default.
• W3216210533 hasConcept C200990466 @default.
• W3216210533 hasConcept C25197100 @default.
• W3216210533 hasConcept C42360764 @default.
• W3216210533 hasConcept C59822182 @default.
• W3216210533 hasConcept C75296557 @default.
• W3216210533 hasConcept C86803240 @default.
• W3216210533 hasConcept C87343466 @default.
• W3216210533 hasConceptScore W3216210533C127413603 @default.
• W3216210533 hasConceptScore W3216210533C152068911 @default.
• W3216210533 hasConceptScore W3216210533C159985019 @default.
• W3216210533 hasConceptScore W3216210533C160892712 @default.
• W3216210533 hasConceptScore W3216210533C185592680 @default.
• W3216210533 hasConceptScore W3216210533C191897082 @default.
• W3216210533 hasConceptScore W3216210533C192562407 @default.
• W3216210533 hasConceptScore W3216210533C199289684 @default.
• W3216210533 hasConceptScore W3216210533C200990466 @default.
• W3216210533 hasConceptScore W3216210533C25197100 @default.
• W3216210533 hasConceptScore W3216210533C42360764 @default.
• W3216210533 hasConceptScore W3216210533C59822182 @default.
• W3216210533 hasConceptScore W3216210533C75296557 @default.
• W3216210533 hasConceptScore W3216210533C86803240 @default.
• W3216210533 hasConceptScore W3216210533C87343466 @default.

• next