FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W870861998> ?p ?o ?g. }

• W870861998 endingPage "818" @default.
• W870861998 startingPage "810" @default.
• W870861998 abstract "Abstract New kinetic promoters must be researched for hydrate formation suitable for natural gas storage and transportation to push this technology towards economic feasibility. In this study, the kinetics of the methane hydrate formation have been investigated in the presence of activated carbon and nano-silica (0.5, 1.0 and 2.0 wt%) suspensions in an aqueous solution. Experiments were conducted at 8 MPa and 275.15 K using methane gas as the hydrate former. Particles (activated carbon and nano-silica) were analyzed using scanning electron microscope (SEM) and X-ray diffraction before use. Information on the number of moles of gas consumed during hydrate formation, induction time, rate of hydrate formation, water-to-hydrate and gas-to-hydrate conversion were investigated. It was seen that the kinetics of hydrate formation were more favorable at higher concentrations of particles of activated carbon and nano-silica in the suspension. The effect of the deactivation of activated carbon was also studied and has shown a reversed trend when compared to other particles, behaving as an inhibitor for methane hydrate formation. The rate of hydrate formation was enhanced in the presence of activated carbon and was on the higher side when compared to suspensions of nano-silica. The water-to-hydrate and gas-hydrate conversions observed were in-line with the trends seen in the moles of gas consumed, with activated carbon being more effective than the rest of the particles. The induction time was observed to be reduced in the presence of suspensions of activated carbon when compared to the other hydrate forming systems studied in this work. In general, the results show that both activated carbon and nano-silica have promoting effects on methane hydrate formation kinetics, however, the effect of activated carbon is significantly more pronounced. This study provides a precursor for an improved understanding on the role of particle suspensions for methane hydrate formation suitable for gas storage applications." @default.
• W870861998 created "2016-06-24" @default.
• W870861998 creator A5008875652 @default.
• W870861998 creator A5015936093 @default.
• W870861998 creator A5061991429 @default.
• W870861998 creator A5081286697 @default.
• W870861998 creator A5084168852 @default.
• W870861998 date "2015-09-01" @default.
• W870861998 modified "2023-09-25" @default.
• W870861998 title "Kinetics of methane hydrate formation in the presence of activated carbon and nano-silica suspensions in pure water" @default.
• W870861998 cites W1964982059 @default.
• W870861998 cites W1969625096 @default.
• W870861998 cites W1971695756 @default.
• W870861998 cites W1986685828 @default.
• W870861998 cites W2005309538 @default.
• W870861998 cites W2024222033 @default.
• W870861998 cites W2035420521 @default.
• W870861998 cites W2041569074 @default.
• W870861998 cites W2045092364 @default.
• W870861998 cites W2053330314 @default.
• W870861998 cites W2057619628 @default.
• W870861998 cites W2060829511 @default.
• W870861998 cites W2063217547 @default.
• W870861998 cites W2065964740 @default.
• W870861998 cites W2071061274 @default.
• W870861998 cites W2071165546 @default.
• W870861998 cites W2071369176 @default.
• W870861998 cites W2074832488 @default.
• W870861998 cites W2079282085 @default.
• W870861998 cites W2083430882 @default.
• W870861998 cites W2144318898 @default.
• W870861998 cites W2167382751 @default.
• W870861998 cites W2312861125 @default.
• W870861998 cites W2318299989 @default.
• W870861998 cites W2318974412 @default.
• W870861998 cites W2326323816 @default.
• W870861998 doi "https://doi.org/10.1016/j.jngse.2015.07.011" @default.
• W870861998 hasPublicationYear "2015" @default.
• W870861998 type Work @default.
• W870861998 sameAs 870861998 @default.
• W870861998 citedByCount "82" @default.
• W870861998 countsByYear W8708619982016 @default.
• W870861998 countsByYear W8708619982017 @default.
• W870861998 countsByYear W8708619982018 @default.
• W870861998 countsByYear W8708619982019 @default.
• W870861998 countsByYear W8708619982020 @default.
• W870861998 countsByYear W8708619982021 @default.
• W870861998 countsByYear W8708619982022 @default.
• W870861998 countsByYear W8708619982023 @default.
• W870861998 crossrefType "journal-article" @default.
• W870861998 hasAuthorship W870861998A5008875652 @default.
• W870861998 hasAuthorship W870861998A5015936093 @default.
• W870861998 hasAuthorship W870861998A5061991429 @default.
• W870861998 hasAuthorship W870861998A5081286697 @default.
• W870861998 hasAuthorship W870861998A5084168852 @default.
• W870861998 hasConcept C100402318 @default.
• W870861998 hasConcept C104779481 @default.
• W870861998 hasConcept C107872376 @default.
• W870861998 hasConcept C121332964 @default.
• W870861998 hasConcept C127413603 @default.
• W870861998 hasConcept C140205800 @default.
• W870861998 hasConcept C148898269 @default.
• W870861998 hasConcept C150394285 @default.
• W870861998 hasConcept C159985019 @default.
• W870861998 hasConcept C178790620 @default.
• W870861998 hasConcept C185592680 @default.
• W870861998 hasConcept C192562407 @default.
• W870861998 hasConcept C2779647737 @default.
• W870861998 hasConcept C2780357685 @default.
• W870861998 hasConcept C2781060337 @default.
• W870861998 hasConcept C42360764 @default.
• W870861998 hasConcept C516920438 @default.
• W870861998 hasConcept C62520636 @default.
• W870861998 hasConceptScore W870861998C100402318 @default.
• W870861998 hasConceptScore W870861998C104779481 @default.
• W870861998 hasConceptScore W870861998C107872376 @default.
• W870861998 hasConceptScore W870861998C121332964 @default.
• W870861998 hasConceptScore W870861998C127413603 @default.
• W870861998 hasConceptScore W870861998C140205800 @default.
• W870861998 hasConceptScore W870861998C148898269 @default.
• W870861998 hasConceptScore W870861998C150394285 @default.
• W870861998 hasConceptScore W870861998C159985019 @default.
• W870861998 hasConceptScore W870861998C178790620 @default.
• W870861998 hasConceptScore W870861998C185592680 @default.
• W870861998 hasConceptScore W870861998C192562407 @default.
• W870861998 hasConceptScore W870861998C2779647737 @default.
• W870861998 hasConceptScore W870861998C2780357685 @default.
• W870861998 hasConceptScore W870861998C2781060337 @default.
• W870861998 hasConceptScore W870861998C42360764 @default.
• W870861998 hasConceptScore W870861998C516920438 @default.
• W870861998 hasConceptScore W870861998C62520636 @default.
• W870861998 hasLocation W8708619981 @default.
• W870861998 hasOpenAccess W870861998 @default.
• W870861998 hasPrimaryLocation W8708619981 @default.
• W870861998 hasRelatedWork W2027500241 @default.
• W870861998 hasRelatedWork W2073748150 @default.
• W870861998 hasRelatedWork W2084231145 @default.
• W870861998 hasRelatedWork W2099879764 @default.

• next