SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2027334660> ?p ?o ?g. }

Showing items 1 to 100 of ±146 with 100 items per page.

W2027334660 endingPage "416" @default.
W2027334660 startingPage "404" @default.
W2027334660 abstract "This study is focused on the kinetic modelling of the photocatalytic inactivation of bacteria with suspended TiO2. A rigorous model based on a proposed reaction mechanism and accounting explicitly for the rate of photon absorption has been developed. The application of the general kinetic expression to limiting cases suggests that the interaction bacteria–catalyst can be considered to be weak. In contrast, a complex dependence on the radiation absorption rate must be taken into account, as very different radiation conditions may coexist inside the photoreactor, with high absorption rates in the region near to the radiation entrance window and much lower values on the opposite side of the photoreactor. The model has been successfully validated by experimental data, being able to reproduce the evolution of the concentration of viable bacteria in a wide range of values of TiO2 concentration, irradiation power and initial concentration of bacteria with a normalized root mean square logarithmic error of 5.3%. The values of the kinetic parameters are independent of the specific reactor setup or the operating conditions and therefore, the model can be used in a predictive way for photoreactor design and scaling-up, as well as for the optimization of other reactor configurations." @default.
W2027334660 created "2016-06-24" @default.
W2027334660 creator A5023500055 @default.
W2027334660 creator A5025498378 @default.
W2027334660 creator A5039806084 @default.
W2027334660 creator A5039895812 @default.
W2027334660 creator A5042051889 @default.
W2027334660 creator A5054605161 @default.
W2027334660 date "2011-02-01" @default.
W2027334660 modified "2023-10-06" @default.
W2027334660 title "Rigorous kinetic modelling with explicit radiation absorption effects of the photocatalytic inactivation of bacteria in water using suspended titanium dioxide" @default.
W2027334660 cites W1966996430 @default.
W2027334660 cites W1968896298 @default.
W2027334660 cites W1975374849 @default.
W2027334660 cites W1980652744 @default.
W2027334660 cites W1984156465 @default.
W2027334660 cites W1985641621 @default.
W2027334660 cites W1986882536 @default.
W2027334660 cites W1991685566 @default.
W2027334660 cites W1992534833 @default.
W2027334660 cites W1997828537 @default.
W2027334660 cites W2010105366 @default.
W2027334660 cites W2016109818 @default.
W2027334660 cites W2016198048 @default.
W2027334660 cites W2017668595 @default.
W2027334660 cites W2023614818 @default.
W2027334660 cites W2030946379 @default.
W2027334660 cites W2034847747 @default.
W2027334660 cites W2035150385 @default.
W2027334660 cites W2035775775 @default.
W2027334660 cites W2038109927 @default.
W2027334660 cites W2041564762 @default.
W2027334660 cites W2044308398 @default.
W2027334660 cites W2045440366 @default.
W2027334660 cites W2046503745 @default.
W2027334660 cites W2050981716 @default.
W2027334660 cites W2054632557 @default.
W2027334660 cites W2057920645 @default.
W2027334660 cites W2059521662 @default.
W2027334660 cites W2065602609 @default.
W2027334660 cites W2065959270 @default.
W2027334660 cites W2072809292 @default.
W2027334660 cites W2075257508 @default.
W2027334660 cites W2080408554 @default.
W2027334660 cites W2080518456 @default.
W2027334660 cites W2082647719 @default.
W2027334660 cites W2084264138 @default.
W2027334660 cites W2086976961 @default.
W2027334660 cites W2099658217 @default.
W2027334660 cites W2101641795 @default.
W2027334660 cites W2129775866 @default.
W2027334660 cites W2131491403 @default.
W2027334660 cites W2137735798 @default.
W2027334660 cites W2146785641 @default.
W2027334660 cites W2147123075 @default.
W2027334660 cites W2244993638 @default.
W2027334660 doi "https://doi.org/10.1016/j.apcatb.2010.12.012" @default.
W2027334660 hasPublicationYear "2011" @default.
W2027334660 type Work @default.
W2027334660 sameAs 2027334660 @default.
W2027334660 citedByCount "38" @default.
W2027334660 countsByYear W20273346602012 @default.
W2027334660 countsByYear W20273346602013 @default.
W2027334660 countsByYear W20273346602014 @default.
W2027334660 countsByYear W20273346602015 @default.
W2027334660 countsByYear W20273346602016 @default.
W2027334660 countsByYear W20273346602017 @default.
W2027334660 countsByYear W20273346602018 @default.
W2027334660 countsByYear W20273346602019 @default.
W2027334660 countsByYear W20273346602020 @default.
W2027334660 countsByYear W20273346602021 @default.
W2027334660 countsByYear W20273346602022 @default.
W2027334660 countsByYear W20273346602023 @default.
W2027334660 crossrefType "journal-article" @default.
W2027334660 hasAuthorship W2027334660A5023500055 @default.
W2027334660 hasAuthorship W2027334660A5025498378 @default.
W2027334660 hasAuthorship W2027334660A5039806084 @default.
W2027334660 hasAuthorship W2027334660A5039895812 @default.
W2027334660 hasAuthorship W2027334660A5042051889 @default.
W2027334660 hasAuthorship W2027334660A5054605161 @default.
W2027334660 hasBestOaLocation W20273346602 @default.
W2027334660 hasConcept C111337013 @default.
W2027334660 hasConcept C120665830 @default.
W2027334660 hasConcept C121332964 @default.
W2027334660 hasConcept C125287762 @default.
W2027334660 hasConcept C134306372 @default.
W2027334660 hasConcept C135889238 @default.
W2027334660 hasConcept C153385146 @default.
W2027334660 hasConcept C161790260 @default.
W2027334660 hasConcept C175113610 @default.
W2027334660 hasConcept C178790620 @default.
W2027334660 hasConcept C185544564 @default.
W2027334660 hasConcept C185592680 @default.
W2027334660 hasConcept C186060115 @default.
W2027334660 hasConcept C191897082 @default.
W2027334660 hasConcept C192562407 @default.
W2027334660 hasConcept C2777593239 @default.
W2027334660 hasConcept C33923547 @default.