FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2002161703> ?p ?o ?g. }

• W2002161703 endingPage "5290" @default.
• W2002161703 startingPage "5278" @default.
• W2002161703 abstract "Through the observation of the pore structure and mercury intruding porosimetry (MIP) experiments of some typical porous building materials, we found that the diffusion coefficient of the material can be expressed by that of a representative elementary volume (REV) in which the pore structure can be simplified as a connection in series of macro and meso pores. Based upon that, a macro–meso two-scale model for predicting the diffusion coefficient of porous building materials is proposed. In contrast to the traditional porous mass transfer model for determining the diffusion coefficient described in the literature [Blondeau, P., Tiffonnet, A.L., Damian, A., Amiri, O., Molina, J.L., 2003. Assessment of contaminant diffusivities in building materials from porosimetry tests. Indoor Air 13, 302–310; Seo, J., Kato, S., Ataka, Y., Zhu, Q., 2005. Evaluation of effective diffusion coefficient in various building materials and absorbents by mercury intrusion porosimetry. In Proceedings of the Indoor Air, Beijing, China, pp. 1854–1859], the proposed model relates the volatile organic compound (VOC) diffusion coefficient of building material not only to the porosity of the building material, but also to the pore size distribution and pore connection modes. To verify the model, a series of experiments of VOC emissions of three types of medium-density board were conducted. The comparison of the model and experimental results shows that the proposed model agrees much better with the experimental results than the traditional models in the literature. More validation for other building materials is needed. The proposed model is useful for predicting the VOC diffusion coefficient of porous building materials and for developing low VOC emission building materials." @default.
• W2002161703 created "2016-06-24" @default.
• W2002161703 creator A5001636682 @default.
• W2002161703 creator A5047295206 @default.
• W2002161703 creator A5082102367 @default.
• W2002161703 creator A5089475591 @default.
• W2002161703 date "2008-07-01" @default.
• W2002161703 modified "2023-09-26" @default.
• W2002161703 title "Macro–meso two-scale model for predicting the VOC diffusion coefficients and emission characteristics of porous building materials" @default.
• W2002161703 cites W1969603879 @default.
• W2002161703 cites W1974271910 @default.
• W2002161703 cites W1997293365 @default.
• W2002161703 cites W2008892371 @default.
• W2002161703 cites W2011899979 @default.
• W2002161703 cites W2030410815 @default.
• W2002161703 cites W2036620811 @default.
• W2002161703 cites W2052334083 @default.
• W2002161703 cites W2063008338 @default.
• W2002161703 cites W2064154347 @default.
• W2002161703 cites W2069899488 @default.
• W2002161703 cites W2074101569 @default.
• W2002161703 cites W2094979571 @default.
• W2002161703 cites W2142551310 @default.
• W2002161703 cites W2157581031 @default.
• W2002161703 cites W2317613820 @default.
• W2002161703 doi "https://doi.org/10.1016/j.atmosenv.2008.02.062" @default.
• W2002161703 hasPublicationYear "2008" @default.
• W2002161703 type Work @default.
• W2002161703 sameAs 2002161703 @default.
• W2002161703 citedByCount "71" @default.
• W2002161703 countsByYear W20021617032012 @default.
• W2002161703 countsByYear W20021617032013 @default.
• W2002161703 countsByYear W20021617032014 @default.
• W2002161703 countsByYear W20021617032015 @default.
• W2002161703 countsByYear W20021617032016 @default.
• W2002161703 countsByYear W20021617032017 @default.
• W2002161703 countsByYear W20021617032018 @default.
• W2002161703 countsByYear W20021617032019 @default.
• W2002161703 countsByYear W20021617032020 @default.
• W2002161703 countsByYear W20021617032021 @default.
• W2002161703 countsByYear W20021617032022 @default.
• W2002161703 countsByYear W20021617032023 @default.
• W2002161703 crossrefType "journal-article" @default.
• W2002161703 hasAuthorship W2002161703A5001636682 @default.
• W2002161703 hasAuthorship W2002161703A5047295206 @default.
• W2002161703 hasAuthorship W2002161703A5082102367 @default.
• W2002161703 hasAuthorship W2002161703A5089475591 @default.
• W2002161703 hasConcept C105569014 @default.
• W2002161703 hasConcept C114873805 @default.
• W2002161703 hasConcept C121332964 @default.
• W2002161703 hasConcept C159985019 @default.
• W2002161703 hasConcept C192562407 @default.
• W2002161703 hasConcept C6648577 @default.
• W2002161703 hasConcept C69357855 @default.
• W2002161703 hasConcept C97355855 @default.
• W2002161703 hasConceptScore W2002161703C105569014 @default.
• W2002161703 hasConceptScore W2002161703C114873805 @default.
• W2002161703 hasConceptScore W2002161703C121332964 @default.
• W2002161703 hasConceptScore W2002161703C159985019 @default.
• W2002161703 hasConceptScore W2002161703C192562407 @default.
• W2002161703 hasConceptScore W2002161703C6648577 @default.
• W2002161703 hasConceptScore W2002161703C69357855 @default.
• W2002161703 hasConceptScore W2002161703C97355855 @default.
• W2002161703 hasIssue "21" @default.
• W2002161703 hasLocation W20021617031 @default.
• W2002161703 hasOpenAccess W2002161703 @default.
• W2002161703 hasPrimaryLocation W20021617031 @default.
• W2002161703 hasRelatedWork W1977509873 @default.
• W2002161703 hasRelatedWork W2075580692 @default.
• W2002161703 hasRelatedWork W2094774405 @default.
• W2002161703 hasRelatedWork W2100175221 @default.
• W2002161703 hasRelatedWork W2121036907 @default.
• W2002161703 hasRelatedWork W2173090879 @default.
• W2002161703 hasRelatedWork W2389602871 @default.
• W2002161703 hasRelatedWork W28157684 @default.
• W2002161703 hasRelatedWork W2884700506 @default.
• W2002161703 hasRelatedWork W2471174329 @default.
• W2002161703 hasVolume "42" @default.
• W2002161703 isParatext "false" @default.
• W2002161703 isRetracted "false" @default.
• W2002161703 magId "2002161703" @default.
• W2002161703 workType "article" @default.