Matches in SemOpenAlex for { <https://semopenalex.org/work/W2893725304> ?p ?o ?g. }
- W2893725304 abstract "Abstract Today, global energy demand increases significantly, but supply growth does not increase in the same proportion. The oil industry has been affected by the shortage of discoveries of new deposits of oil. Thus, it is compelling the development of cost-effective enhanced oil recovery (EOR) alternatives that allow the increase of the current hydrocarbons supply of actual reservoirs. Hence, the nanotechnology emerges as a good option as the use of nanoparticles and nanofluids has shown potential benefits in improving the efficiency of chemical treatments. Nevertheless, field applications of nanoparticles have been avoided due to current studies indicate that nanoparticles concentrations higher than 10,000 mg/L are needed, which disable the implementation due to high costs and the possibility of formation damage. Hence, the main objective of this study is the development for the first time of unconventional and engineered designed 0-D nanomaterials, namely NiO/SiO2 Janus nanoparticles that can be used for enhancing the oil recovery at low concentrations (~100 mg/L) without the risk of formation damage in the reservoir. These type of nanoparticles, due to its low size and 0-D characteristics, can improve the swept efficiency in the reservoir and increase the recovery. The primary mechanism of these nanomaterials is their strategic positioning at the oil/water interface and reduction of the interfacial tension. The Janus nanoparticles can migrate at the oil/water interface. The Janus-based nanofluids (nanomaterials dispersed in determined carrier fluid) flooding were assessed for reducing the interfacial tension (IFT), increasing the viscosity of the displacement phase, and altering the rock wettability, which impacts the capillary number and hence increases the crude oil recovery. The synthesized nanomaterials were characterized by TEM, stability, IFT, rheology, contact angle measurements and coreflooding tests under real reservoir conditions (fluids, pressure, temperature and rock samples) looking for flow assurance previous to a field trial. The results showed an increase of the capillary number at a very low concentration of 100 mg/L of both nanomaterials, mainly attributed to the decrease in the interfacial tension, which can lead to the increase of the oil recovery. Displacement tests using conventional SiO2 nanoparticles-based nanofluid at a concentration of 100 mg/L did not show an increase in oil recovery regarding the one obtained in the waterflooding step. Meanwhile, the nanofluid based on the engineering designed nanomaterials at the same concentration of 100 mg/L showed an increase in oil recovery up to 50%." @default.
- W2893725304 created "2018-10-05" @default.
- W2893725304 creator A5005571680 @default.
- W2893725304 date "2018-09-24" @default.
- W2893725304 modified "2023-09-25" @default.
- W2893725304 title "Janus Nanoparticles for Enhanced Oil Recovery EOR: Reduction of Interfacial Tension" @default.
- W2893725304 cites W1966612917 @default.
- W2893725304 cites W1969795034 @default.
- W2893725304 cites W1970558787 @default.
- W2893725304 cites W1992548483 @default.
- W2893725304 cites W2011254969 @default.
- W2893725304 cites W2013128339 @default.
- W2893725304 cites W2031424779 @default.
- W2893725304 cites W2036319029 @default.
- W2893725304 cites W2038053881 @default.
- W2893725304 cites W2048496194 @default.
- W2893725304 cites W2057049180 @default.
- W2893725304 cites W2064987376 @default.
- W2893725304 cites W2066264050 @default.
- W2893725304 cites W2066815162 @default.
- W2893725304 cites W2066822923 @default.
- W2893725304 cites W2074785337 @default.
- W2893725304 cites W2085489668 @default.
- W2893725304 cites W2091836190 @default.
- W2893725304 cites W2136249250 @default.
- W2893725304 cites W2139725501 @default.
- W2893725304 cites W2151708411 @default.
- W2893725304 cites W2270265501 @default.
- W2893725304 cites W2313476146 @default.
- W2893725304 cites W2318604844 @default.
- W2893725304 cites W2319707192 @default.
- W2893725304 cites W2324457706 @default.
- W2893725304 cites W2331241467 @default.
- W2893725304 cites W2333294071 @default.
- W2893725304 cites W2383961276 @default.
- W2893725304 cites W2415502246 @default.
- W2893725304 cites W2466789491 @default.
- W2893725304 cites W2471172560 @default.
- W2893725304 cites W2471517024 @default.
- W2893725304 cites W2546758525 @default.
- W2893725304 cites W2592578051 @default.
- W2893725304 cites W2728120221 @default.
- W2893725304 cites W2734405648 @default.
- W2893725304 cites W2761418522 @default.
- W2893725304 cites W2765375281 @default.
- W2893725304 cites W2782526023 @default.
- W2893725304 cites W2794562129 @default.
- W2893725304 cites W4229832378 @default.
- W2893725304 cites W59617428 @default.
- W2893725304 doi "https://doi.org/10.2118/194033-stu" @default.
- W2893725304 hasPublicationYear "2018" @default.
- W2893725304 type Work @default.
- W2893725304 sameAs 2893725304 @default.
- W2893725304 citedByCount "11" @default.
- W2893725304 countsByYear W28937253042020 @default.
- W2893725304 countsByYear W28937253042022 @default.
- W2893725304 countsByYear W28937253042023 @default.
- W2893725304 crossrefType "proceedings-article" @default.
- W2893725304 hasAuthorship W2893725304A5005571680 @default.
- W2893725304 hasConcept C121332964 @default.
- W2893725304 hasConcept C127313418 @default.
- W2893725304 hasConcept C127413603 @default.
- W2893725304 hasConcept C138631740 @default.
- W2893725304 hasConcept C155672457 @default.
- W2893725304 hasConcept C171250308 @default.
- W2893725304 hasConcept C192562407 @default.
- W2893725304 hasConcept C21946209 @default.
- W2893725304 hasConcept C2779681308 @default.
- W2893725304 hasConcept C42360764 @default.
- W2893725304 hasConcept C57527310 @default.
- W2893725304 hasConcept C62520636 @default.
- W2893725304 hasConcept C78762247 @default.
- W2893725304 hasConcept C8892853 @default.
- W2893725304 hasConceptScore W2893725304C121332964 @default.
- W2893725304 hasConceptScore W2893725304C127313418 @default.
- W2893725304 hasConceptScore W2893725304C127413603 @default.
- W2893725304 hasConceptScore W2893725304C138631740 @default.
- W2893725304 hasConceptScore W2893725304C155672457 @default.
- W2893725304 hasConceptScore W2893725304C171250308 @default.
- W2893725304 hasConceptScore W2893725304C192562407 @default.
- W2893725304 hasConceptScore W2893725304C21946209 @default.
- W2893725304 hasConceptScore W2893725304C2779681308 @default.
- W2893725304 hasConceptScore W2893725304C42360764 @default.
- W2893725304 hasConceptScore W2893725304C57527310 @default.
- W2893725304 hasConceptScore W2893725304C62520636 @default.
- W2893725304 hasConceptScore W2893725304C78762247 @default.
- W2893725304 hasConceptScore W2893725304C8892853 @default.
- W2893725304 hasLocation W28937253041 @default.
- W2893725304 hasOpenAccess W2893725304 @default.
- W2893725304 hasPrimaryLocation W28937253041 @default.
- W2893725304 hasRelatedWork W2080817648 @default.
- W2893725304 hasRelatedWork W2132228658 @default.
- W2893725304 hasRelatedWork W2247347699 @default.
- W2893725304 hasRelatedWork W2414538476 @default.
- W2893725304 hasRelatedWork W2895015576 @default.
- W2893725304 hasRelatedWork W3202132771 @default.
- W2893725304 hasRelatedWork W3216312165 @default.
- W2893725304 hasRelatedWork W4207034687 @default.
- W2893725304 hasRelatedWork W4210574651 @default.
- W2893725304 hasRelatedWork W2951785027 @default.