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W4280493791 startingPage "2131" @default.
W4280493791 abstract "Tight oil reservoirs are contributing a major role to fulfill the overall crude oil needs, especially in the US. However, the dilemma is their ultra-tight permeability and an uneconomically short-lived primary recovery factor. Therefore, the application of EOR in the early reservoir development phase is considered effective for fast-paced and economical tight oil recovery. To achieve these objectives, it is imperative to determine the optimum EOR potential and the best-suited EOR application for every individual tight oil reservoir to maximize its ultimate recovery factor. Since most of the tight oil reservoirs are found in wide spatial source rock with complex and compacted pores and poor geophysical properties yet they hold high saturation of good quality oil and therefore, every single percent increase in oil recovery from such huge reservoirs potentially provide an additional million barrels of oil. Hence, the EOR application in such reservoirs is quite essential. However, the physical understanding of EOR applications in different circumstances from laboratory to field scale is the key to success and similarly, the fundamental physical concepts of fluid flow-dynamics under confinement conditions play an important role. This paper presents a detailed discussion on laboratory-based experimental achievements at micro-scale including fundamental concepts under confinement environment, physics-based numerical studies, and recent actual field piloting experiences based on the U.S. unconventional plays. The objective of this paper is to discuss all the critical reservoir rock and fluid properties and their contribution to reservoir development through massive multi-staged hydraulic fracture networks and the EOR applications. Especially the CO2 and produced hydrocarbon gas injection through single well-based huff-n-puff operational constraints are discussed in detail both at micro and macro scale." @default.
W4280493791 created "2022-05-22" @default.
W4280493791 creator A5039475467 @default.
W4280493791 creator A5070937376 @default.
W4280493791 creator A5071900228 @default.
W4280493791 date "2022-10-01" @default.
W4280493791 modified "2023-09-30" @default.
W4280493791 title "Laboratory to field scale assessment for EOR applicability in tight oil reservoirs" @default.
W4280493791 cites W1966638383 @default.
W4280493791 cites W1970811402 @default.
W4280493791 cites W1972701175 @default.
W4280493791 cites W1983486066 @default.
W4280493791 cites W1986982278 @default.
W4280493791 cites W2027053193 @default.
W4280493791 cites W2033957356 @default.
W4280493791 cites W2048638626 @default.
W4280493791 cites W2051203581 @default.
W4280493791 cites W2057443364 @default.
W4280493791 cites W2060304363 @default.
W4280493791 cites W2069724814 @default.
W4280493791 cites W2074111687 @default.
W4280493791 cites W2074896998 @default.
W4280493791 cites W2077222146 @default.
W4280493791 cites W2078865073 @default.
W4280493791 cites W2082502138 @default.
W4280493791 cites W2083017599 @default.
W4280493791 cites W2085803154 @default.
W4280493791 cites W2088303955 @default.
W4280493791 cites W2089978198 @default.
W4280493791 cites W2091225680 @default.
W4280493791 cites W2093668357 @default.
W4280493791 cites W2094774254 @default.
W4280493791 cites W2152783510 @default.
W4280493791 cites W2172428885 @default.
W4280493791 cites W2200992021 @default.
W4280493791 cites W2301742820 @default.
W4280493791 cites W2303930309 @default.
W4280493791 cites W2313871727 @default.
W4280493791 cites W2322293543 @default.
W4280493791 cites W2328557632 @default.
W4280493791 cites W2525730475 @default.
W4280493791 cites W2549178960 @default.
W4280493791 cites W2549824359 @default.
W4280493791 cites W2560472833 @default.
W4280493791 cites W2612028580 @default.
W4280493791 cites W2615476141 @default.
W4280493791 cites W2730201419 @default.
W4280493791 cites W2757211316 @default.
W4280493791 cites W2757775752 @default.
W4280493791 cites W2790355925 @default.
W4280493791 cites W2804447458 @default.
W4280493791 cites W2808286675 @default.
W4280493791 cites W2885568710 @default.
W4280493791 cites W2886068897 @default.
W4280493791 cites W2886373337 @default.
W4280493791 cites W2891699456 @default.
W4280493791 cites W2899124879 @default.
W4280493791 cites W2900460578 @default.
W4280493791 cites W2902048471 @default.
W4280493791 cites W2913369499 @default.
W4280493791 cites W2921636846 @default.
W4280493791 cites W2937394256 @default.
W4280493791 cites W2942781681 @default.
W4280493791 cites W2947812584 @default.
W4280493791 cites W2953227766 @default.
W4280493791 cites W2966285989 @default.
W4280493791 cites W2967527871 @default.
W4280493791 cites W3012065827 @default.
W4280493791 cites W3016028440 @default.
W4280493791 cites W3018160294 @default.
W4280493791 cites W3023898249 @default.
W4280493791 cites W3031834757 @default.
W4280493791 cites W3082075719 @default.
W4280493791 cites W3086764441 @default.
W4280493791 cites W3119272699 @default.
W4280493791 cites W3127533133 @default.
W4280493791 cites W3136336654 @default.
W4280493791 cites W3156482337 @default.
W4280493791 cites W3163352846 @default.
W4280493791 cites W3175225943 @default.
W4280493791 cites W3183267650 @default.
W4280493791 cites W3185365739 @default.
W4280493791 cites W3187488029 @default.
W4280493791 cites W3191688317 @default.
W4280493791 cites W3202123605 @default.
W4280493791 cites W3209457974 @default.
W4280493791 cites W3217190094 @default.
W4280493791 cites W4205164920 @default.
W4280493791 cites W4211103350 @default.
W4280493791 cites W4213272391 @default.
W4280493791 cites W4229455542 @default.
W4280493791 cites W4381466524 @default.
W4280493791 cites W105472354 @default.
W4280493791 doi "https://doi.org/10.1016/j.petsci.2022.04.014" @default.
W4280493791 hasPublicationYear "2022" @default.
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