Lindring av polynevropati etter cellegift

Haugen, Gro Sophie; Haugen, Helene Marie

doi:10.4220/sykepleiens.2018.71857

Cited by 2 publications

(2 citation statements)

References 6 publications

(11 reference statements)

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“…However, the dissolution of minerals by oxidants releases more high-valence cations (e.g., Mg 2+ , Si 2+ , Ca 2+ , Al 3+ , or Fe 3+ ) into the solution, enhancing the bridging effect and leading to more attraction between oil and rock. The impact of the high-valence cations has been exemplified in a study by Haugen and Fjelde et al Haugen found that the presence of Fe 3+ in the brine can alter the wettability of the rock to more oil-wet conditions, and it had more significant impact on wettability than Ca 2+ when the concentrations of the cations are the same. Fjelde et al investigated the effect of cation bridging by Fe 3+ on the rock wettability, and they observed that a Fe 3+ concentration as low as 50 ppm could alter the wettability of clay to more oil-wet conditions.…”

Section: Resultsmentioning

confidence: 99%

Effects of Electro-Oxidation Process on Tight-Rock Wettability and Imbibition Oil Recovery

et al. 2022

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Oil and gas industry has faced significant operational, economic, and environmental challenges in recycling produced water. The treatment of produced water is highly researched, but few studies have evaluated the performance of treated produced water when used for hydraulic fracturing and enhanced oil recovery (EOR) operations. In this study, we treated various aqueous solutions, including synthetic formation brine (FB), sodium chloride (NaCl), calcium chloride (CaCl2), and sodium sulfate (Na2SO4), using an electro-oxidation (EO) process. The brine properties, including density, surface tension (ST), oil–water interfacial tension (IFT), viscosity, and pH, were compared before and after the treatment. Then, we conducted systematic contact-angle (CA) measurements and spontaneous imbibition tests using treated and untreated brine to study the effects of water treatment on rock–fluid interactions and its impact on oil recovery. The experimental results show that the effect of the EO process on ST, density, viscosity, and IFT was insignificant. However, the CA results show that the treated FB, NaCl, and Na2SO4 solutions exhibit stronger wetting characteristics compared with the untreated ones, while the treated CaCl2 solution exhibit weaker wetting characteristics compared with the untreated ones. We hypothesized that the change in the wetting characteristics was due to the generated oxidants from the EO process. We added OH–, H+, hydrogen peroxide (H2O2), and sodium hypochlorite (NaOCl) into untreated brine to test this hypothesis and monitored the CA variations. The results suggest that H2O2 and OH– can alter the wettability to more water-wet conditions in the NaCl solution but not in the CaCl2 solution. Furthermore, NaOCl results in wettability alteration to more oil-wet conditions in NaCl and CaCl2 solutions. The change in wettability to more water-wet conditions is mainly the result of the oxidation of dissolved organic matters, and the change to more oil-wet conditions is the result of the dissolution of high-valence cations, causing the cation bridging effect.

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Section: Resultsmentioning

confidence: 99%

Effects of Electro-Oxidation Process on Tight-Rock Wettability and Imbibition Oil Recovery

et al. 2022

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“…These data and an auxiliary environmental dataset were used to compute sewer conditions. Sewer conditions were divided into good, intermediate, and bad conditions based on the study of Haugen and Viak [31]. Specifically, for the Ålesund sewer network, 10 physical factors (i.e., age, diameter, depth, length, slope, material, pipe type, network type, pipe form, and connection type) and 10 environmental factors (i.e., rainfall, geology, landslide area, population density, land cover, building area, groundwater level, traffic volume, road network, and soil type) were aggregated and assigned for each sewer pipe.…”

Section: Data and 3d Model Preparationmentioning

confidence: 99%

Utilization of Augmented Reality Technique for Sewer Condition Visualization

Nguyen,

Bui,

Seidu

2023

Water

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Wastewater pipelines are largely buried underground, and techniques for assessing and visualizing their condition are critical for planning and rehabilitation. This paper introduces a framework for integrating Geographic Information System (GIS), 3D-creation platform, augmented reality (AR) techniques, and machine learning algorithms for the dynamic visualization of the condition of sewer networks. A sewer network in Ålesund City, Norway, was used as a case study, and the developed framework was implemented on an Android OS and Microsoft HoloLens. The results show the potential applications of the integrated framework of GIS, AR, and 3D models for sewer condition visualization. The positioning accuracy of the application for 2D objects is equivalent to that of well-designed GPS receivers (approximately 1–3 m), depending on the handheld device used. Loading and locating 3D objects will be limited by the performance of the devices used.

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Lindring av polynevropati etter cellegift

Cited by 2 publications

References 6 publications

Effects of Electro-Oxidation Process on Tight-Rock Wettability and Imbibition Oil Recovery

Effects of Electro-Oxidation Process on Tight-Rock Wettability and Imbibition Oil Recovery

Utilization of Augmented Reality Technique for Sewer Condition Visualization

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