SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1965533051> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W1965533051 endingPage "139" @default.
W1965533051 startingPage "131" @default.
W1965533051 abstract "Continuous hydrothermal flow synthesis (CHFS) technology has shown great advantages in nanomaterial formulation compared with other synthesis methods. CHFS uses a flow of supercritical water as a reagent that reacts with a flow of metal salts to produce nanoparticles in a reactor. The process uses no organic solvent, therefore is green, and has good controllability due to being in continuous operational mode. Experimental studies have shown that very high quality nanoceramics can be made in minutes rather than days. This paper describes simulation studies of the reaction and precipitation in a CHFS process using population balance modelling technique. Models for reaction kinetics, thermodynamics and nucleation are presented. Particle surface growth mechanism and particle aggregation effects have also been taken into consideration in the population balance models. System kinetics and the dynamic evolution of particle size distribution under supercritical conditions were simulated. The effects of temperature, aggregation and growth rate on particle size distribution were also investigated." @default.
W1965533051 created "2016-06-24" @default.
W1965533051 creator A5026114666 @default.
W1965533051 creator A5045836862 @default.
W1965533051 creator A5076639630 @default.
W1965533051 creator A5079137368 @default.
W1965533051 creator A5084836349 @default.
W1965533051 date "2011-11-01" @default.
W1965533051 modified "2023-10-03" @default.
W1965533051 title "Modelling and simulation of continuous hydrothermal flow synthesis process for nano-materials manufacture" @default.
W1965533051 cites W162948310 @default.
W1965533051 cites W1964300562 @default.
W1965533051 cites W1967540505 @default.
W1965533051 cites W1973403690 @default.
W1965533051 cites W1973636270 @default.
W1965533051 cites W1991472150 @default.
W1965533051 cites W1992493151 @default.
W1965533051 cites W1994033958 @default.
W1965533051 cites W1994486091 @default.
W1965533051 cites W1994707509 @default.
W1965533051 cites W2002682701 @default.
W1965533051 cites W2006262225 @default.
W1965533051 cites W2009889954 @default.
W1965533051 cites W2010636853 @default.
W1965533051 cites W2020677140 @default.
W1965533051 cites W2022062902 @default.
W1965533051 cites W2024894023 @default.
W1965533051 cites W2025016940 @default.
W1965533051 cites W2027497055 @default.
W1965533051 cites W2028646285 @default.
W1965533051 cites W2029093133 @default.
W1965533051 cites W2046654968 @default.
W1965533051 cites W2057751711 @default.
W1965533051 cites W2062173606 @default.
W1965533051 cites W2065779080 @default.
W1965533051 cites W2067982086 @default.
W1965533051 cites W2068215984 @default.
W1965533051 cites W2070196493 @default.
W1965533051 cites W2071346502 @default.
W1965533051 cites W2073493240 @default.
W1965533051 cites W2081237311 @default.
W1965533051 cites W2081388845 @default.
W1965533051 cites W2093170787 @default.
W1965533051 cites W2109792728 @default.
W1965533051 cites W2112366471 @default.
W1965533051 cites W2114585186 @default.
W1965533051 cites W2138018947 @default.
W1965533051 cites W2144609458 @default.
W1965533051 cites W2147309644 @default.
W1965533051 cites W2150422630 @default.
W1965533051 cites W2152658180 @default.
W1965533051 cites W2160284757 @default.
W1965533051 cites W2330678088 @default.
W1965533051 cites W4234521456 @default.
W1965533051 doi "https://doi.org/10.1016/j.supflu.2011.07.002" @default.
W1965533051 hasPublicationYear "2011" @default.
W1965533051 type Work @default.
W1965533051 sameAs 1965533051 @default.
W1965533051 citedByCount "57" @default.
W1965533051 countsByYear W19655330512012 @default.
W1965533051 countsByYear W19655330512013 @default.
W1965533051 countsByYear W19655330512014 @default.
W1965533051 countsByYear W19655330512015 @default.
W1965533051 countsByYear W19655330512016 @default.
W1965533051 countsByYear W19655330512017 @default.
W1965533051 countsByYear W19655330512018 @default.
W1965533051 countsByYear W19655330512019 @default.
W1965533051 countsByYear W19655330512021 @default.
W1965533051 countsByYear W19655330512022 @default.
W1965533051 countsByYear W19655330512023 @default.
W1965533051 crossrefType "journal-article" @default.
W1965533051 hasAuthorship W1965533051A5026114666 @default.
W1965533051 hasAuthorship W1965533051A5045836862 @default.
W1965533051 hasAuthorship W1965533051A5076639630 @default.
W1965533051 hasAuthorship W1965533051A5079137368 @default.
W1965533051 hasAuthorship W1965533051A5084836349 @default.
W1965533051 hasConcept C107054158 @default.
W1965533051 hasConcept C111368507 @default.
W1965533051 hasConcept C118419359 @default.
W1965533051 hasConcept C121332964 @default.
W1965533051 hasConcept C127313418 @default.
W1965533051 hasConcept C127413603 @default.
W1965533051 hasConcept C144024400 @default.
W1965533051 hasConcept C149923435 @default.
W1965533051 hasConcept C153294291 @default.
W1965533051 hasConcept C155672457 @default.
W1965533051 hasConcept C171250308 @default.
W1965533051 hasConcept C178790620 @default.
W1965533051 hasConcept C185592680 @default.
W1965533051 hasConcept C187530423 @default.
W1965533051 hasConcept C192562407 @default.
W1965533051 hasConcept C2778517922 @default.
W1965533051 hasConcept C2780041671 @default.
W1965533051 hasConcept C2908647359 @default.
W1965533051 hasConcept C42360764 @default.
W1965533051 hasConcept C60448018 @default.
W1965533051 hasConcept C61048295 @default.
W1965533051 hasConceptScore W1965533051C107054158 @default.