SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2804551286> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W2804551286 endingPage "68" @default.
W2804551286 startingPage "53" @default.
W2804551286 abstract "In this study, molecular dynamics (MD) and Monte Carlo (MC) simulations techniques were employed as well as artificial intelligence knowledge of ANFIS and GP to investigate water–acetic acid pervaporation (PV) separation through poly vinylalcohol (PVA)‑silicone based membranes under a wide range of experimental conditions. For the first time, three new optimization algorithms, namely ant colony optimization for continuous domains (ACOR), differential evolution (DE) and genetic algorithm (GA) were employed for improving ANFIS modeling. The GP creates a mathematical function or model for the estimation of pervaporation separation index (PSI) as a function of the input variables. ACOR-ANFIS and GA-ANFIS and GP had high accuracy (R2 = 0.9831, 0.9792 and 0.9722, respectively) but DE-ANFIS had a lower accuracy (R2 = 0.9610) as compared to other models. On the other hand, molecular simulation methods were used and the results of all simulation models were compared fairly to each other and to the experimental results of the literature. Also, some characterizations were taking place to investigate the characteristics of the simulated membranes with MS such as WAXD, and FFV and glass transition temperature was used to estimate the thermal properties of the simulated membranes." @default.
W2804551286 created "2018-06-01" @default.
W2804551286 creator A5002291261 @default.
W2804551286 creator A5029548495 @default.
W2804551286 creator A5037786093 @default.
W2804551286 creator A5045113724 @default.
W2804551286 creator A5064703609 @default.
W2804551286 creator A5081841571 @default.
W2804551286 date "2018-09-01" @default.
W2804551286 modified "2023-10-15" @default.
W2804551286 title "Molecular dynamics, grand canonical Monte Carlo and expert simulations and modeling of water–acetic acid pervaporation using polyvinyl alcohol/tetraethyl orthosilicates membrane" @default.
W2804551286 cites W1153842025 @default.
W2804551286 cites W1861671632 @default.
W2804551286 cites W1965438743 @default.
W2804551286 cites W1966828384 @default.
W2804551286 cites W1967408708 @default.
W2804551286 cites W1970145828 @default.
W2804551286 cites W1970362649 @default.
W2804551286 cites W1973626519 @default.
W2804551286 cites W1975009952 @default.
W2804551286 cites W1977816590 @default.
W2804551286 cites W1979560502 @default.
W2804551286 cites W1983279152 @default.
W2804551286 cites W1986798608 @default.
W2804551286 cites W1991222105 @default.
W2804551286 cites W1994665444 @default.
W2804551286 cites W1998543415 @default.
W2804551286 cites W2010481935 @default.
W2804551286 cites W2014207393 @default.
W2804551286 cites W2018631859 @default.
W2804551286 cites W2019207321 @default.
W2804551286 cites W2021487825 @default.
W2804551286 cites W2023630630 @default.
W2804551286 cites W2024955711 @default.
W2804551286 cites W2025857783 @default.
W2804551286 cites W2028094099 @default.
W2804551286 cites W2028436130 @default.
W2804551286 cites W2029568689 @default.
W2804551286 cites W2030497788 @default.
W2804551286 cites W2030731821 @default.
W2804551286 cites W2034145748 @default.
W2804551286 cites W2034179484 @default.
W2804551286 cites W2034936624 @default.
W2804551286 cites W2037934756 @default.
W2804551286 cites W2038411471 @default.
W2804551286 cites W2040296450 @default.
W2804551286 cites W2040656761 @default.
W2804551286 cites W2040946093 @default.
W2804551286 cites W2044114422 @default.
W2804551286 cites W2048689209 @default.
W2804551286 cites W2048837636 @default.
W2804551286 cites W2054067063 @default.
W2804551286 cites W2061424653 @default.
W2804551286 cites W2063964166 @default.
W2804551286 cites W2070990021 @default.
W2804551286 cites W2071544731 @default.
W2804551286 cites W2073764029 @default.
W2804551286 cites W2078416133 @default.
W2804551286 cites W2091654157 @default.
W2804551286 cites W2093553918 @default.
W2804551286 cites W2094603848 @default.
W2804551286 cites W2113698449 @default.
W2804551286 cites W2127468578 @default.
W2804551286 cites W2138429893 @default.
W2804551286 cites W2165736916 @default.
W2804551286 cites W2190022176 @default.
W2804551286 cites W2199523146 @default.
W2804551286 cites W2257346832 @default.
W2804551286 cites W2258109510 @default.
W2804551286 cites W2270468071 @default.
W2804551286 cites W2299965552 @default.
W2804551286 cites W2317758137 @default.
W2804551286 cites W2320535368 @default.
W2804551286 cites W2329105392 @default.
W2804551286 cites W2471209291 @default.
W2804551286 cites W2593951136 @default.
W2804551286 cites W2594568069 @default.
W2804551286 cites W2613660158 @default.
W2804551286 cites W2625655024 @default.
W2804551286 cites W2754443753 @default.
W2804551286 doi "https://doi.org/10.1016/j.molliq.2018.05.078" @default.
W2804551286 hasPublicationYear "2018" @default.
W2804551286 type Work @default.
W2804551286 sameAs 2804551286 @default.
W2804551286 citedByCount "39" @default.
W2804551286 countsByYear W28045512862018 @default.
W2804551286 countsByYear W28045512862019 @default.
W2804551286 countsByYear W28045512862020 @default.
W2804551286 countsByYear W28045512862021 @default.
W2804551286 countsByYear W28045512862022 @default.
W2804551286 countsByYear W28045512862023 @default.
W2804551286 crossrefType "journal-article" @default.
W2804551286 hasAuthorship W2804551286A5002291261 @default.
W2804551286 hasAuthorship W2804551286A5029548495 @default.
W2804551286 hasAuthorship W2804551286A5037786093 @default.
W2804551286 hasAuthorship W2804551286A5045113724 @default.
W2804551286 hasAuthorship W2804551286A5064703609 @default.
W2804551286 hasAuthorship W2804551286A5081841571 @default.