User contributions
10 February 2022
File:UreigaAlmandiFigure6.jpg
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File:UreigaAlmandiFigure5.jpg
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File:UreigaAlmandiFigure4.jpg
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File:UreigaAlmandiFigure3.jpg
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File:UreigaAlmandiFigure2.jpg
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File:UreigaAlmandiFigure1.jpg
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Cross-well electromagnetic tomography monitoring of fluid distribution
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+1,148
Cross-well electromagnetic tomography monitoring of fluid distribution
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+237
3 February 2022
Cross-well electromagnetic tomography monitoring of fluid distribution
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+10,964
Cross-well electromagnetic tomography monitoring of fluid distribution
Created page with "300px ==An Entry from the AAPG 2021 Middle East Wiki Write Off!== by Sara Abu Alsaud and Klemens Katterbauer, Saudi Aramco file:AlsaudKatter..."
File:AlsaudKatterbauerFigure6.jpg
Unit 3,4, and 5 time-lapse cross-sectional EM resistivity image of the observers and injector (Baseline) before water injection (Time lapse survey) After six months of water injection
File:AlsaudKatterbauerFigure5.jpg
– Time lapse EM resistivity image between OBS1 and OBS2. (A) before water injection (B) After four months of water injection
File:AlsaudKatterbauerFigure4.jpg
Wells location: five spot patterns (3 observers, 1 injector, 1 producer)
File:AlsaudKatterbauerFigure3.jpg
Cross-well EM System simple design
File:AlsaudKatterbauerFigure2.jpg
Cross-well EM current direction between the wells and to the targeted zone.
File:AlsaudKatterbauerFigure1.jpg
Cross-well EM Image between three wells.
Chromatography
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+14,396
File:AlotaibiFigure9.jpg
Thin-layer chromatography (TLC). Image Source: MZ-Analysentechnik GmbH
File:AlotaibiFigure8.jpg
High-performance liquid chromatography (HPLC). Image Source: Toppr
File:AlotaibiFigure7.jpg
Column chromatography. Image Source: PrepGenie
File:AlotaibiFigure6.jpg
Anion exchange chromatography. Image Source: https://sites.google.com/site/chromospectrum/i-exchange
File:AlotaibiFigure5.jpg
Paper chromatography. Image Source: Ebere, E.C., Obinna, I.B., and Wirnkor, V.A.(November 2019). Applications of Column, Paper, Thin Layer and Ion Exchange Chromatography in Purifying Samples.
File:AlotaibiFigure4.jpg
Liquid chromatography system. Image Source: César Aquiles Lázaro de la Torre1, Juan Espinoza Blanco, Joab Trajano Silva, Vânia Margaret Flosi Paschoalin, Carlos Adam Conte Júnior. (March 2014) Chromatographic detection of nitrofurans in foods of an...
File:AlotaibiFigure3.jpg
A typical GC/MS system. Image source: Abdul-Hamid M. Emwas, Zeyad A. Al-Talla, Yang Yang, and Najeh M. Kharbatia. (March 2012). Gas Chromatography–Mass Spectrometry of Biofluids and Extracts.
File:AlotaibiFigure2.jpg
Gas chromatography system. Image Source: Bitesize Bio.
File:AlotaibiFigure1.jpg
Mobile and Stationary phases in chromatography.
1 February 2022
Utilization of the industrial revolution 4.0 in oil and gas exploration
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Utilization of the industrial revolution 4.0 in oil and gas exploration
Created page with "300px ==An Entry from the AAPG 2021 Middle East Wiki Write Off!== by Najoud AlOtaibi and Fayrouz AlEssa, Saudi Aramco ==Background== Accele..."
31 January 2022
Fluid inclusions: analysis and applications
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Fluid inclusions: analysis and applications
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Fluid inclusions: analysis and applications
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+3,165
Fluid inclusions: analysis and applications
Created page with "300px ==An Entry from the AAPG 2021 Middle East Wiki Write Off!== by Ibrahim Alfraih and Maram AlSaif, EXPEC ARC file:AlfraihAlSaifFigure1...."
File:AlfraihAlSaifFigure9.jpg
This is a burial history diagram interpreted from fluid inclusions studies. Thermal maturity can also be estimated.
File:AlfraihAlSaifFigure8.jpg
This map illustrates migration pathways and fluid types in Wealden Basin using fluid inclusions studies.
File:AlfraihAlSaifFigure7.jpg
A spider diagram illustrating source parameters. A) Aliphatic hydrocarbons, b) aromatic hydrocarbons from oil inclusions and crude oil.
File:AlfraihAlSaifFigure6.jpg
Illustration of comparison between API gravity of petroleum fluorescence emission color when excitation is by narrow-band (365 mm peak) ultraviolet light. The color of fluorescence may be controlled by multiple variables, so this should be used as a gr...
File:AlfraihAlSaifFigure5.jpg
Schematic representation of expected behavior of fluid inclusions during cycling to determine homogenization temperature. Symbols above indicate when the inclusionist should be straining to see the bubble. Numbers are hypothetical temperatures in °C. ...
File:AlfraihAlSaifFigure4.jpg
An example of an inclusion with four phases. HC = Hydrocarbons, AQ= Aqueous.
File:AlfraihAlSaifFigure3.jpg
Geological processes and their physical effects on fluid inclusion interpretations.
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Summary of the fluid inclusion analytical methods classified based on destructive and nondestructive methods.
File:AlfraihAlSaifFigure1.jpg
Photomicrographs of oil-bearing fluid inclusions in Mississippian rocks examined under transmitted plane light (left) and blue fluorescence under ultraviolet light (right).
Condensate banking effect
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+2,130
9 November 2021
Condensate banking effect
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+17,869
File:AlAhmadiTawfiqFigure10.jpg
Lean gas condensate well test behavior with increasing and decreasing flow rates (Gringarten, Bozorgzadeh, Hashemi, & Daungkaew, 2006).
File:AlAhmadiTawfiqFigure9.jpg
Log-log plot of a well in two regions with varying mobility ratios (Houze, Viturat, & Fjaere, 2018) .
File:AlAhmadiTawfiqFigure8.jpg
Schematic of a Two Region Radial Composite Reservoir (H., Li, L., & Mu, A. 2018).
File:AlAhmadiTawfiqFigure7.jpg
Condensate saturation profile with condensate drop-out and velocity stripping (Gringarten, Ogunrewo & Uxukbayev, 2011).
File:AlAhmadiTawfiqFigure6.jpg
Pressure Derivative Response of Gas Condensate Well Producing Below the Dew Point (Halim, A., Nuri, F., & Adi P, S. 2015).
File:AlAhmadiTawfiqFigure5.jpg
Condensate Saturation versus Radial Distance from wellbore, with velocity stripping zone (Daungkaew & Gringarten, 2004).
File:AlAhmadiTawfiqFigure4.jpg
Condensate saturation versus radial distance from wellbore, with different condensate mobility zones (Daungkaew & Gringarten, 2004).